LED - volume flow measurement Description METPOINT®️ FLM In order for compressed air systems to operate reliably efficiently and ecologically precise determination of current volume flow Is required. Especially practical the thermal flow meter METPOINT®️ FLM. It is simply and quickly integrated into the existing system under pressure by means of a standard process fitting and using this tool aligned in the direction of the gas flow. Next, It is inserted into the exact center of the pipe that's it the gas flows ideally past the measuring device meaning these temperature sensors the first Measures the current temperature the second is heated to a higher temperature exactly 40 °C hotter than the first As the mass flow increases it would normally cool but an electric heating element prevents that from occurring the electrical energy required to maintain the temperature indifference is that directly proportional to the mass flow increases The electric heaters thermal performance also increases and is converted into the appropriate measured value. Based on these values and the pipes inner diameter the METPOINT®️ FLM Precisely calculators the volume flow. METPOINT FLM: Sensor technology for volume flow measurement Every third compressor is only operated to compensate for air losses. These costs are largely avoidable. One possibility to avoid these costs is precise acquisition of the current volume flow. This then provides the basis for many important analyses, documentation and decisions. BEKO TECHNOLOGIES provides end-position monitoring with the FLM SF13 and SF53.  Is your production set up as optimally economical? You can only comprehensively answer this question when the current volume flowrequirement for your compressed air has been identified. This can be evaluated for you by the FLM volume flow measuring system and thereby provides you with the data basis you need for intelligent energy management. Identify potential savings, overloads and weak points in your system to improve its efficiency. By measuring the actual flow to the various production units, you are in a position to make decisions based on facts. At the same time, the FLM lets them know whether there are any leaks in their system. The measurement thereby provides you with all the necessary data you need to jointly coordinate components in the best possible way and design systems economically.  The FLM SF13 variant is available with measuring sections of different diameters and comes with a calibration certificate for the selected pipe diameter. The METPOINT FLM SF53 is pre-calibrated as a universal sensor to a pipe diameter of 53.1 mm, but can be adjusted/calibrated to other diameters on customer request. METPOINT®️ FLM with LED The less expensive LED variant indicates the need for a new calibration (annually). Please note: The sensor configuration can only be done during production or later via the BDL datalogger Function METPOINT®️ FLM  Two temperature sensors are installed in series in the direction of flow. The first temperature sensor measures the current process temperature of the compressed air, while the second sensor is electrically heated to a temperature that is 40 K higher than that of the first sensor. Higher volume flows results in a quicker drop in temperature at the sensors, so that the electric heater of the second sensor must increase its heat output. The electric energy required to maintain the temperature difference is proportional to the volume flow. This energy consumption is converted to provide the relevant flow measurements.   Downloads Technical Data FLM SF13 with led , PDF( Size: 1.5 MB ) Technical Data FLM SF53 with led , PDF( Size: 1.7 MB ) Catalog FLM , PDF( Size: 491 KB )

Display - volume flow measurement Description METPOINT®️ FLM In order for compressed air systems to operate reliably efficiently and ecologically precise determination of current volume flow Is required. Especially practical the thermal flow meter METPOINT®️ FLM. It is simply and quickly integrated into the existing system under pressure by means of a standard process fitting and using this tool aligned in the direction of the gas flow. Next, It is inserted into the exact center of the pipe that's it the gas flows ideally past the measuring device meaning these temperature sensors the first Measures the current temperature the second is heated to a higher temperature exactly 40 °C hotter than the first As the mass flow increases it would normally cool but an electric heating element prevents that from occurring the electrical energy required to maintain the temperature indifference is that directly proportional to the mass flow increases The electric heaters thermal performance also increases and is converted into the appropriate measured value. Based on these values and the pipes inner diameter the METPOINT®️ FLM Precisely calculators the volume flow. METPOINT FLM: Sensor technology for volume flow measurement Every third compressor is only operated to compensate for air losses. These costs are largely avoidable. One possibility to avoid these costs is precise acquisition of the current volume flow. This then provides the basis for many important analyses, documentation and decisions. BEKO TECHNOLOGIES provides end-position monitoring with the FLM SF13 and SF53.  Is your production set up as optimally economical? You can only comprehensively answer this question when the current volume flowrequirement for your compressed air has been identified. This can be evaluated for you by the FLM volume flow measuring system and thereby provides you with the data basis you need for intelligent energy management. Identify potential savings, overloads and weak points in your system to improve its efficiency. By measuring the actual flow to the various production units, you are in a position to make decisions based on facts. At the same time, the FLM lets them know whether there are any leaks in their system. The measurement thereby provides you with all the necessary data you need to jointly coordinate components in the best possible way and design systems economically.  The FLM SF13 variant is available with measuring sections of different diameters and comes with a calibration certificate for the selected pipe diameter. The METPOINT FLM SF53 is pre-calibrated as a universal sensor to a pipe diameter of 53.1 mm, but can be adjusted/calibrated to other diameters on customer request. METPOINT®️ FLM with display With the display and configuration menu, all measured values can be displayed and sensor settings can be made Function METPOINT®️ FLM with display Two temperature sensors are installed in series in the direction of flow. The first temperature sensor measures the current process temperature of the compressed air, while the second sensor is electrically heated to a temperature that is 40 K higher than that of the first sensor. Higher volume flows results in a quicker drop in temperature at the sensors, so that the electric heater of the second sensor must increase its heat output. The electric energy required to maintain the temperature difference is proportional to the volume flow. This energy consumption is converted to provide the relevant flow measurements.  Downloads Technical Data FLM SF13 with led , PDF( Size: 1.5 MB ) Technical Data FLM SF53 with led , PDF( Size: 1.7 MB ) Catalog FLM , PDF( Size: 491 KB )

METPOINT®️ FLM SF53 with BDL compact - volume flow measurement - Sensor SF53, 185 m/s, 220 mm insertion depth - Datenlogger BDL compact 2D - Connection cable approx. 5 m METPOINT®️ FLM monitoring and controlling the volume flow The Metpoint FLM volume flow measuring system by BEKO Technologies is a state-of-the-art solution for monitoring and controlling the volume flow of compressed air in industrial applications. This innovative system is designed to accurately measure and analyze the volume flow of compressed air in real-time, providing valuable insights into the performance and efficiency of the compressed air system. The Metpoint FLM system utilizes advanced technology to continuously monitor the volume flow of compressed air, allowing users to optimize system performance, detect potential issues, and prevent downtime. By providing accurate and reliable data on the volume flow of compressed air, the Metpoint FLM system enables users to make informed decisions regarding system operation, maintenance, and energy efficiency. Overall, the Metpoint FLM volume flow measuring system by BEKO Technologies is a valuable tool for ensuring the optimal performance and efficiency of compressed air systems in industrial settings. Its advanced features and capabilities make it an essential component for industries that rely on compressed air for their operations. Technical Data Flowsensor SF53 Dimensions (mm) 220 mm insertion depth 80 x 437 x 94 (width | height | depth) Operating temperature -30 ... +140 ° C Sensor tube, -30 ... +80 ° C Housing Power supply 18 ... 36 VDC through optional power adapter or  BDL Measuring technique Calorimetric Media Air, gases Humidity of the medium Max. 90% r.F. (no droplets) Operating pressure 0 ... 10 bar (e), 0 ... 50 bar (e) with additional pressure protection Material sensor tube and fittings 1.4301 Stainless steel Digital output RS485 (Modbus RTU) Analog output 4 ... 20 mA (load <500 Ω) Pulse output 1 pulse per m³ or per litre, floating pulse. Passive: max. 48 VDC 150 mA FLM: Sensor technology for volume flow measurement Every third compressor is only operated to compensate for air losses. These costs are largely avoidable. One possibility to avoid these costs is precise acquisition of the current volume flow. This then provides the basis for many important analyses, documentation and decisions. BEKO TECHNOLOGIES provides end-position monitoring with the METPOINT FLM SF13 and SF53. We can measuring the compressed air systems information with METPOINT FLM SF53 sensor and METPOINT BDL Compact To use the METPOINT BDL Compact with the METPOINT FLM SF53, you can integrate both devices into your compressed air system to monitor and maintain the quality of the compressed air. Here are some steps on how you can use these devices together: Installation: Install the METPOINT BDL Compact dew point sensor at a strategic location in your compressed air system where it can accurately measure the dew point of the compressed air. Connect the sensor to the control system or monitoring software for real-time data monitoring. Integration: Integrate the METPOINT FLM SF53 filter monitoring system into your compressed air system to monitor the condition of the compressed air filters. The FLM SF53 continuously monitors the pressure drop across the filters, providing data on the filter condition. Data Monitoring: Use the monitoring software or control system to view the data from both devices simultaneously. Monitor the dew point measurements from the BDL Compact and the filter condition data from the FLM SF53 to ensure that the compressed air system is operating efficiently. Maintenance: Based on the data collected from both devices, schedule maintenance activities such as filter replacement or desiccant regeneration to ensure that the compressed air system continues to produce high-quality dry compressed air. By using the METPOINT BDL Compact with the METPOINT FLM SF53, you can effectively monitor and maintain the quality of your compressed air system. The dew point sensor helps ensure that the compressed air is free from moisture, while the filter monitoring system helps maintain the efficiency of the filters. This integrated approach can help you optimize the performance of your compressed air system and prevent issues related to moisture and filter contamination. Downloads Technical Data METPOINT®️ FLM SF53 with display , PDF( Size: 1.7 MB ) Catalog METPOINT®️ FLM SF53 with BDL compact , PDF( Size: 491 KB )

BEKO condensate drain BEKOMAT® 20BEKOMAT® 20 | 20FM for Filters and water separators The BEKOMAT 20 is a strong condensate drain designed for use in water separators and air filters. It is suitable for oil-lubricated plants as well as oil-free compressors. The control panel is accessible from the top and the front. It has a plastic housing with integrated aluminum condensate container. The BEKOMAT 20 FM with integrated filter management is a cost effective monitoring solution for the service filters element. Technical data of BEKOMAT® 20 BEKOMAT® BEKOMAT® 20 Max. compressor performance [m³/min] 4 Max. dryer performance [m³/min] 8 Max. filter performance [m3/min] 40 Voltage 230VAC / 50-60Hz Operating pressure [bar] 0,8 - 16 Temperature [°C] +1 to + 60 Condensate feed 1 x G 1/2 , 1 x G 3/4 Condensate drain DN 8-10 bzw. G 1/4i Dimensions B x T x H [mm] 140 x 72 x 140 Weight [kg] ca. 0,7 Here are some advantages and uses of the BEKOMAT 20: Efficient condensate drainage: The BEKOMAT 20 is designed to effectively remove condensate from compressed air systems, ensuring optimal performance and preventing damage to downstream equipment. Energy-saving: The unit operates based on demand, meaning it only activates when condensate needs to be drained, helping to reduce energy consumption. Easy maintenance: The BEKOMAT 20 is designed for easy installation and maintenance, making it user-friendly for operators. Reliable operation: Beko Technologies is known for producing high-quality products, and the BEKOMAT 20 is no exception, offering reliable performance in industrial applications.  BEKOMAT 20 Applications:Industrial compressed air systems: The BEKOMAT 20 is commonly used in industrial settings where compressed air is a critical component of operations, such as manufacturing plants, automotive facilities, and food processing plants. Air compressors: The unit can be installed in conjunction with air compressors to ensure efficient condensate removal and protect the integrity of the compressed air system. Pneumatic tools and equipment: The BEKOMAT 20 can help maintain the performance and longevity of pneumatic tools and equipment by preventing moisture buildup in the air supply. Overall, the BEKOMAT 20 is a reliable and efficient condensate drain unit that offers several advantages in maintaining the performance of compressed air systems.  Downloads Technical Data BEKOMAT® 20, PDF (Size: 2.5 MB) BEKOMAT® 20 datasheets, PDF ( Size: 330 KB )

METPOINT®️ BDL portable - mobile data logger Mobile data recording METPOINT®️ BDL portabl The new METPOINT® BDL portable is a universally employable hand-held measuring device for many applications in the industry like, for example:Consumption/flow measurement Pressure/vacuum measurement Temperature measurement Residual moisture/dew point measurement With the 3.5" graphics display with a touch screen, operation is very easy. The graphical presentation of the coloured measuring curve is unique. Up to 100 million measured values can be stored with a date and measuring point. The measured values can be transmitted to the PC via USB stick. Technical data METPOINT®️ BDL portable handheld instrument Color display 3.5" touch screen TFT transmissive, for charts, curves and statistics Interfaces USB interface, RS485 Power supply  for sensors Output voltage: 24 VDC ± 10% Output current: 120 mA in continuous operation Power supply Built-in rechargeable Li-Ion batteries, charging time approx. 4 h METPOINT ® BDL portable continuous mode> 4 h depending on power consumption for external sensor Power adapter 100 ... 240 VAC / 50 ... 60 Hz, 12 VDC - 1A Safety class 2 only for use in dry rooms Dimensions (mm) 82 x 96 x 245 (width | height | depth) Case Material PC / ABS Mass 450 g Operating temperature -20 ... +70 ° C Sample gas temperature 0 ... +50 ° C ambient temperature Storage temperature -20 ... +70 °C Advantages of METPOINT® BDL portable Portable data recording Flexible graphical representation Integrated data logger USB interface Intuitive control Extended accumulator time 3/5” touch screen Universal sensor inputs Rapid set up time Downloads Technical Data BDL portable , PDF( Size: 1.7 MB ) Catalog BDL portable , PDF( Size: 270 KB )

METPOINT®️ OCV compact Continuous oil vapour measuring for your process safety Oil contamination can affect compressed air processing systems in many different ways, posing a danger to the safety of workers, the environment and the production equipment. Monitoring systems such as the METPOINT OCV compact continuously control the compressed air accurately and according to applicable standards for the residual oil vapour concentration . You therefore retain the compressed air quality. Tiny oil particles are an often underestimated risk in the processing of compressed air. Such particles occur in many places in the compressed air system in the form of oil vapour or aerosols and can lead to serious quality problems. The consequences are not only increased scrap or time-consuming rework: even the finest of oil vapour components can contaminate the final product or whole production plants. Simple and safe operation The METPOINT OCV compact provides information about the current measurement value (oil vapour in mg/m³), the ISO 8573 oil class as well as the status of the measuring system and its components. In addition, the status of the measuring cell and the reference gas generation (purificator) will be displayed visually. You therefore always have an overview about the measurement values, oil class, system status at all times and know immediately that your compressed air is correct. Advantages of the METPOINT OCV compact system Safe - Reproducible accuracy of the measurement values by utilising reference gas generation - Automatic monitoring for the reference gas and sensor electronics - Issuing and transferring of alarm signal messages Reliable - Pressure range from 3 … 16 bar - Online-monitoring for the oil vapour concentration - Data transfer to display as standard feature and control centre with customary communication methods User-friendly - Unambiguous visualisation of all measurement values - Flexible installation - Robust industrial housing METPOINT®️ OCV compact with complete accessories, standard measuring section DN50, 16bar    Downloads Technical information of METPOINT®️ OCV compact, PDF( Size: 800 KB ) Technical Data of METPOINT®️ OCV compact, PDF( Size: 133 KB ) Catalog METPOINT®️ OCV compact , PDF( Size: 1.7 MB )

BEKO condensate drain BEKOMAT® 20 FMBEKOMAT® 20 | 20FM for Filters and water separators The BEKOMAT® 20 FM with integrated filter management (filter status time display and filter status control) is a cost-effective monitoring solution for the connected filter element. It is designed as a robust condensate drain for water separators, filters or similar applications and can be used both in systems with oil-lubricated as well as with oil-free compressors. The plastic housing of the BEKOMAT 20 FM is equipped with an internal aluminum condensate container. The front panel is visible and can be operated from the top and the front. Technical data of BEKOMAT® 20 FM BEKOMAT® BEKOMAT® 20FM Max. compressor performance [m³/min] 4 Max. dryer performance [m³/min] 8 Max. filter performance [m3/min] 40 Voltage 230VAC / 50-60Hz Operating pressure [bar] 0,8 - 16 Temperature [°C] +1 bis + 60 Condensate feed 1 x G 1/2 , 1 x G 3/4 Condensate drain DN 8-10 bzw. G 1/4i Dimensions B x T x H [mm] 140 x 72 x 140 Weight [kg] ca. 0,7 There are difference between BEKOMAT 20 and BEKOMAT 20 FM. The main difference between the two lies in their functionality. BEKOMAT 20 is a standard condensate drain unit that is designed to efficiently remove condensate from compressed air systems. It operates based on demand, activating only when condensate needs to be drained, thus helping to save energy and maintain system performance. On the other hand, BEKOMAT 20 FM is a more advanced version of the BEKOMAT 20 with additional features. The "FM" in BEKOMAT 20 FM stands for "Fully Modular," indicating that this model offers modular components that can be customized to suit specific requirements. This allows for greater flexibility in installation and operation, making it ideal for more complex or specialized applications. In summary, while both BEKOMAT 20 and BEKOMAT 20 FM serve the purpose of condensate drainage in compressed air systems, BEKOMAT 20 FM offers enhanced customization options and flexibility due to its fully modular design. Downloads Technical Data BEKOMAT® 20 FM , PDF( Size: 103 MB )BEKOMAT® 20 FM data sheets , PDF( Size: 330 KB )

METPOINT®️ BDL compact - compressed air data logger Compressed air measurement equipment The METPOINT BDL Compact is a cutting-edge compressed air measurement equipment designed to provide accurate and reliable data on the quality of compressed air systems. This compact device is equipped with advanced sensors and technology to monitor various parameters such as pressure, temperature, humidity, and flow rate. One of the key features of the METPOINT BDL Compact is its user-friendly interface, which allows operators to easily configure and calibrate the device to suit their specific requirements. The device also comes with built-in data logging capabilities, enabling users to track and analyze the performance of their compressed air systems over time. The METPOINT BDL Compact is known for its high level of accuracy and precision, making it a valuable tool for ensuring the efficient operation of compressed air systems. By monitoring key parameters such as pressure and flow rate, operators can identify potential issues and take proactive measures to prevent downtime and optimize energy consumption. Overall, the METPOINT BDL Compact is a reliable and versatile compressed air measurement equipment that can help businesses improve the performance and efficiency of their compressed air systems. Its advanced features and user-friendly design make it a valuable asset for any organization looking to enhance the reliability and productivity of their compressed air systems. All values in focus: BDL compact Volume flow rate, pressure dew point, pressure, current efficiency temperature and residual oil vapour content monitoring with just one measuring device The METPOINT®️ BDL compact is an innovative electronic screen writer for recording critical process parameters for e.g. compressed air and gas applications. The electronic recording system measures connected input signals and subsequently evaluates the required information for the respective application. These are displayed and saved on the device. The process occurrence can be archived on a long-term basis and alarms can be forwarded to superordinated systems. The screen recorder thereby enables process-oriented assessment of the processes and, if necessary, rapid on-site intervention. The METPOINT®️ BDL compact is versatile and flexible. An optimal solution, among others, for food and pharmaceutical industries, for quality assurance and production as well as for environmental and climatic measuring technologies. Intelligent and cost-effective complete solutions can be implemented by utilising these compact systems in plant, system and apparatus engineering.   The cost-effective solution BDL compact The METPOINT®️ BDL compact compact is equipped with two to four sensor inputs optionally analog, digital or mixed. Two additional digital or analogue inputs are optionally available on request - e.g. for electricity meters or pressure sensors. Critical points in your processes are then displayed immediately. This reduces your reaction time and increases process and production safety levels. The compact screen recorder optionally provides a data logger with a 4 GB memory capacity. Technical Data Datenlogger BDL compact Dimensions (mm) 180 x 166 x 115 (width / height / depth) Operating temperatur 0 … +50 °C Power supply 100 … 240 VAC / 50 ... 60 Hz / max 10 VA Sensor inputs 2 inputs for dew point and consumption probes (optional 2 analog inputs) keyboard 3.5" touchpanel TCT transmissive Alarm output 2 relays, potential-free, change-over contacts Analog output Connection of the 4 ... 20 mA signals of the dew point and Consumption sensors, (max load <500 Ω) Integrierter Datenlogger 4 GB SD Memory Card Standard (micro SDHC class 4) Downloads Technical Data BDL compact , PDF( Size: 2.5 MB ) Catalog BDL compact , PDF( Size: 341 KB )

METPOINT®️ OCV compact -  oil vapour measuring instrument The METPOINT OCV compact has been developed for measuring hydrocarbon vapours and gases in compressed air system applications. The detection levels are as low as one thousandth mg/m³ of residual oil vapour content and are executed continuously in ongoing operation. Shortened measuring intervals enable the rapid and reliable display of even the smallest deviations. This on-line monitoring process provides the certainty about the quality of your compressed air as an important element of your process safety at all times and at all quality-critical system points. The measurement data can be utilised for documenting the compressed air quality and for identifying contamination sources. Function of oil vapour measuring In the METPOINT®️ OCV compact system, a PID sensor works according to the principle of photo-ionization using a UV lamp. To increase the precision and to compensate for the smallest fluctuations, the determined values ​​are temperature and pressure compensated. This fulfills the requirements of ISO 8573. As a continuous self-control of the measuring system, a reference gas generated by means of an integrated catalytic converter is used. In the periodic change between measuring air and reference air, the function of the PID measuring cell is continuously controlled and adjusted.   Internal reference gas generation by means of a purifier Integrated reference gas generation The METPOINT OCV compact has integrated reference gas treatment by means of a patented catalytic converter. The compressed air is hereby passed on to a heated catalytic converter surface and the hydrocarbons are decomposed catalytically to water (H₂O) and carbon dioxide (CO₂). This reference gas is then continuously routed in alternation with the normal compressed air sample into the measuring chamber and the oil content is measured with the photo-ionisation detector (PID). The measuring chamber is both regularly “cleaned” by this reference gas generation and the measuring system is inspected for its zero point. This “self-monitoring” provides you with the assurance that the system is working accurately in the long term. Technical Data METPOINT®️ OCV compact METPOINT METPOINT OCV compact Medium Compressed air free of aggressive, corrosive, caustic, toxic, flammable and combustion supporting materials or substances. The use of a compressed air preparation adapted to the measurement task is necessary. Measured value Residual oil content in mg of oil/normal m³, relative to 1.0 bar, +20°C, 0% relative humidity, according to ISO 8573-1 Detectable substances Poly-alpha-olefines, aromatic and aliphatic hydrocarbons, functional hydrocarbons Compressed air free of aggressive, corrosive, caustic, toxic, flammable and oxidizing substances Applications Downstream of activated carbon filter and activated-carbon adsorber, downstream of BEKOKAT® (catalytic converter), downstream of oil-free compressing compressor, each with pre-switched filtration and drying Ambient temperature, minimum/maximum +5°C ... +45°C, rel. humidity ≤ 75%, non-condensing Storage temperature +5 °C ... +50 °C Ambient pressure 800 ... 1200 mbar [a] Climatic resistance max. +10 °Ctd Compressed air temperature, minimum/maximum +5 °C ... +50 °C Operating pressure 3 … 16 bar(g), optional pressure reducer which can be pre-switched for up to 300 bar(g) Settings for operating pressure By means of integrated pressure reducer with display Measuring gas humidity ≤ 40 % relative humidity, max. pressure dew point +10 °C, non-condensing humidity Compressed air connection G 1/8” internal thread according to ISO 228-1 Measurement values mg/standard m³, pressure and temperature compensated Measuring range ≤ 0,01 … 2,50 mg/m³ Measured value display a new measured value every 4 seconds Calibrated measuring range ≤ 0.01 … 1.25 mg/m³ residual oil content, according to ISO 8573-1 Detection limit (residual oil) 0,001 mg/m³ Measuring range and accuracy ≤ 0,01 … 0,5 mg/m³ ± 0,003 ≥ 0,5 … 1,0 mg/m³ ± 0,10 ≥ 1,0 … 2,5 mg/m³ ± 0,10 Measuring gas flow rate approx. 1.20 standard litres / minute relative to 1.0 bar(a) and +20 °C, in depressurised state Display for adhering to an ISO residual oil vapour class As LED (red/green) Reference gas generation Integrated catalytic converter Voltage supply 100 ... 240 VAC / 1 Ph. / PE / 50 ... 60 Hz / ± 10 % Degree of protection IP54 / DIN EN 60529 Interfaces 4 … 20 mA analogue output, 2-conductor system, RS-485, MODBUS RTU for the transmission of measured values 1 alarm contact, normally open contact Dimensions 410 x 440 x 163 mm (W x H x D) Weight approx. 16.3 kg  Downloads Technical information of METPOINT®️ OCV compact, PDF( Size: 800 KB ) Technical Data of METPOINT®️ OCV compact, PDF( Size: 133 KB ) Catalog METPOINT®️ OCV compact , PDF( Size: 1.7 MB )

BEKO condensate drain BEKOMAT® 31U BEKOMAT® with service concept – quick and economic The innovative design of the BEKOMAT 31U, 32U, 33U and 33U CO series enables simplified handling as well as installation and maintenance with minimum time expenditure. The devices consist of no more than three units joined together with quick-release connectors. The control and sensor units are only installed once, only the service unit (including all wear and pressure parts) needs to be exchanged for maintenance purposes. This robust condensate drain is suitable for both oil-contaminated and oil-free, aggressive condensates. Technical data of BEKOMAT® 31U BEKOMAT® BEKOMAT® 31U Max. compressor performance [m³/min] 2,5 Max. dryer performance [m³/min] 5 Max. filter performance [m3/min] 25 Voltage 230VAC / 50-60Hz Operating pressure [bar] 0.8 - 16 Temperature [°C] +1 bis + 60 Condensate feed 1 x G 1/2  Condensate drain DN 8-10 bzw. G 1/4i Dimenstions B x T x H [mm] 65 x 164 x 118 Weight [kg] ca. 0,8 The BEKOMAT 31U has a wide range of applications in various industries where compressed air systems are used. Some of the key applications include: Automotive Industry: In automotive manufacturing and repair facilities, the BEKOMAT 31U is used to remove condensate and oil from compressed air systems to ensure the quality of the air used in painting booths, pneumatic tools, and other critical applications. Food and Beverage Industry: The BEKOMAT 31U is essential in food and beverage processing plants to maintain clean and dry compressed air for packaging, bottling, and other production processes where air quality is crucial to prevent contamination. Pharmaceutical Industry: In pharmaceutical manufacturing facilities, the BEKOMAT 31U helps ensure that the compressed air used in production and packaging meets stringent quality standards to prevent any risk of contamination in sensitive pharmaceutical products. Manufacturing Industry: The BEKOMAT 31U is widely used in manufacturing plants for various applications such as operating pneumatic machinery, controlling production processes, and maintaining the quality of compressed air for equipment reliability and efficiency. Overall, the BEKOMAT 31U plays a critical role in maintaining the performance and longevity of compressed air systems across different industries by efficiently removing condensate and oil to prevent contamination and protect downstream components. Downloads Technical Data BEKOMAT 31U , PDF( Size: 189 KB ) Catalog BEKOMAT 31U , PDF( Size: 368 KB )

METPOINT®️ DPM SD23 with BDL compact - data logger - DPM SD23 dew point trasmitter - Data logger METPOINT®️ BDL compact 2D - MK-Basic-PN16 Measuring chamber with quick-release coupling NW 7.2 plug nipple - parameterized and fully assembled - Connecting cable (5m) METPOINT®️ DPM: Sensor technology for precise pressure dew point measurement Humidity in compressed air applications is a problem and can, in most cases, damage the system and contaminate end products. The ideal instrument for monitoring residual moisture is the pressure dewpoint sensor METPOINT DPM. Our sensor technology enables you to accurately measure the degree of humidity or the pressure dew point at critical flow points in your compressed air system. This information is indispensable for operators who want to improve the quality of their compressed air whilst saving energy and costs.  How can provide the high quality dry compressed air in our production process: The METPOINT DPM is a dew point monitor designed to help compressed air systems maintain high-quality dry compressed air. Dew point is a critical parameter in compressed air systems as it indicates the level of moisture present in the compressed air. Excessive moisture can lead to corrosion, contamination, and reduced efficiency in pneumatic equipment. The METPOINT DPM continuously monitors the dew point of the compressed air, providing real-time data on the moisture content. By accurately measuring the dew point, the METPOINT DPM allows operators to identify potential issues such as condensation, water vapor, or leaks in the system that could compromise the quality of the compressed air. By monitoring and controlling the dew point, the METPOINT DPM helps compressed air systems maintain optimal conditions for producing high-quality dry compressed air. This ensures that the compressed air is free from moisture and contaminants, reducing the risk of equipment damage and performance issues. Overall, the METPOINT DPM plays a crucial role in ensuring the reliability and efficiency of compressed air systems by helping to maintain high-quality dry compressed air. Its accurate monitoring capabilities enable operators to take proactive measures to prevent issues related to moisture and ensure the smooth operation of their compressed air systems. METPOINT®️ DPM stationary pressure dew point transmitter measures the most critical parameters for compressed air and technical gases i.e. temperature, relative humidity and dew point (down to -60 °Ctd).  But that is not all: The METPOINT®️ DPM sensor provides information regarding the functional capabilities for components and the measurement provides the basic data for the optimum dimensioning for your system. The METPOINT®️ DPM sensor is therefore not just a safety guarantee in your process chain, rather also an instrument for increasing production efficiency. Technical Data Dew point transmitter DPM SD23 Measuring range –60 … +30 °Ctd Max. Permissible Operating pressure 50 bar [g] Max. Measurement deviation ± 4 K für -60 ... -50 °Ctd ± 3 K für -50 ... -30 °Ctd ± 2 K für -30 ... -10 °Ctd ± 1 K für -10 ... +30 °Ctd Response time t95 <10 sec. (From dry to damp) <40 sec. (From damp to dry) Power supply 14 ... 30 VDC Burden (load resistance) RL = max. 416 Ω bei 24 V DC Output 4 ... 20 mA, analogue, 4-wire Output RS485, digital output, 4-wire Prozessmedium- temperature -30 °C … +70 °C Ambient temperature operational: -25 °C ... +60 °C Storage and transport temperature: -40 °C … +85 °C Ambient humidity: 0 ... 95%, non-condensing Make quality visible – by recording it The METPOINT®️ BDL compact data logger is a compact device with powerful measuring and evaluation functions, including instant alarms in the case of exceedances. It measures all key quality parameters for compressed air and enables you to evaluate the efficiency of your system by identifying hidden cost drivers. User-friendly statistics and charts provide the information you need for effective quality and energy management. The METPOINT®️ BDL compact features two sensor inputs. On request, it is available with two additional digital or analog inputs, e.g. for power meters or pressure sensors. All critical parameters of your processes can be called up on the screen, so that you can intervene without delay if required. The compact device can be equipped with a 2 GB data logger, so that you can track performance over time, which is a prerequisite for continuous quality and efficiency improvement. Downloads Technical Data DPM SD23 mit BDL compact , PDF( Size: 651 KB ) Catalog METPOINT®️ DPM SD23 with BDL compact , PDF( Size: 434 KB )

METPOINT®️ OCV compact measuring section - oil vapour measuring sectio Meaningful results by using the right measurements Measurement value for mean value formation The compressed air composition hardly ever alters, apart from during malfunctions continuous oil vapour monitoring should be designed in such a way that gradual deterioration or sudden failure of a cleaning stage are indicated reliably. Under specific operating conditions, peak values that occur only briefly are recorded and displayed, although they are not always due to a fault in the compressed air treatment or a defect in the measuring device. If these peaks only occur at very short time intervals, or they relate to individual measured values, they are due to other factors of influence rather than hydrocarbons in the sense of the oil definition. For this reason, the METPOINT ® OCV compact provides a measurement recording with floating mean value formation over defined times in order to eliminate individual measured value outliers automatically. Sampling (measuring section) If the oil classes defined in ISO 8573 are considered, the detection of hydrocarbons of Class 1 i.e. smaller than 0.010 mg/ m³ = 10 μg/m³ can be designated as trace analysis. The sampling type and method is of particular importance in this range. The sample should be taken at a point where it can be ensured that a representative and usable mixture of all components of the compressed air is present. In the case of a homogeneous distribution over the pipe cross-section, the gas sample can be taken at a fixed point approximately at the centre of the pipe cross-section. Technical Data METPOINT®️ OCV compact measuring section Material Stainless steel free of oil and grease Connection for sampling probe E 3/8" Internal thread oil-free Whitworth tapered pipe thread DIN 2999 measuring section DN 20 3/4" DN 25 1" DN 32 1 1/4" DN 40 1 1/2" DN 50 2" DN 65 2 1/2" DN 80 3" Typ MS-2016 MS-2516 MS-3216 MS-4016 MS-5016 MS-6510 MS-8010 PN (bar [ü]) 16 16 16 16 16 10 10 A (mm) 430 480 550 600 905 1105 1155 B (mm) 120 120 130 180 190 260 320 C (mm) 475 530 610 670 980 1220 1270 R R3/4" R1" R1 1/4" R1 1/2" R2" R2 1/2" R3" D1 (ø mm) 26,9 x 2,6 33,7 x 3,6 42,4 x 3,6 48,3 x 3,6 60,3 x 3,6 76,1 x 3,6 88,9 x 4,0 Bestell-Nr. 4013229 4013230 4013233 4013234 4013235 4013265 4013266 Preis (€) 457 509 574 661 877 1295 1689  Downloads Technical information of METPOINT®️ OCV compact, PDF( Size: 800 KB ) Technical Data of METPOINT®️ OCV compact, PDF( Size: 133 KB ) Catalog METPOINT®️ OCV compact , PDF( Size: 1.7 MB )

METPOINT®️ BDL p. with DPM Set - mobile data logger Mobile data recording METPOINT® BDL portable set › Mobile data logger BDL portable › DPM SD23 dew point transmitter with dry protection sleeve › MK-Basic-PN16 measuring chamber with quick-release coupling › Power supply unit  › LiCl 11,3% RH control and calibration kit  › 5m connecting cable with quick-release coupling for SD23   › Sturdy transport case Technical Data Dew point transmitter DPM SD23 Measuring technique Capacitative polymer sensor Measured value °Ctd, dew point/ frost point Measuring range –60 … +30 °Ctd Output signal 4 ... 20 mA, analogue, 4-wire Output signal RS485, digital output, 4-wire Max. Permissible Operating overpressure 50 bar [g] Process medium Compressed air Temperature-compensated range –25 … +60 °C Reference conditions  EN 61298-1 Process connection G 1/2" external thread (ISO 228-1) Sensor protection  Stainless steel sintered filter 40 µm Measuring gas flow rate if the measuring chamber is used 1 ... 3 standard l/min Weight 175 g Protection class according to EN 60529 IP 65   METPOINT®️ BDL portable One can see quality – one just needs to record it The portable METPOINT BDL data logger allows for the quick and easy measurement and evaluation of your compressed air quality – at any point in your system. This universal hand-head device with integrated data logger has been specially designed for the recording of key parameters, such as consumption and flow rate, pressure, temperature, residual humidity and pressure dew point. All process data is converted into user-friendly statistics and charts. Up to 100 million measurements together with the time and location of measurement can be stored and called up in the form of characteristics in colours. The universal sensor inputs are compatible with all conventional industrial transducers. The device comes with a 3.5" touch screen and intuitive user interface. Other great features of the compact METPOINT® BDL portable are its integrated data logger, the colour display of characteristics for analysis and various interpretation functions. All measurements can be transferred with an USB memory stick to a PC for further evaluation by means of the METPOINT® READER SW201 evaluation software. You can monitor the performance of your system in real time and take action when needed. With the METPOINT® BDL portable, you have the data you need at your fingertips. ISO 8573 oil class information with dew point sensor METPOINT BDL p. with DPM set The Metpoint BDL p. dew point sensor with DPM set is a high-performance device designed to accurately measure the dew point of compressed air. This sensor is capable of providing valuable information regarding the moisture content of the compressed air, which is crucial for maintaining the quality and performance of the compressed air system. In addition to measuring the dew point of compressed air, the Metpoint BDL P sensor with DPM set can also be used to determine the oil content in the compressed air. By analyzing the moisture and oil content of the compressed air, users can obtain important data that can be used to classify the quality of the compressed air according to ISO 8573 standards. ISO 8573 is an international standard that defines the purity classes of compressed air based on the levels of contaminants present, including particles, water, and oil. By using the dew point sensor with DPM set in conjunction with other monitoring devices, users can accurately assess the quality of the compressed air and determine its ISO 8573 oil class classification. Overall, the Metpoint BDL P dew point sensor with DPM set provides valuable information regarding the moisture and oil content of compressed air, enabling users to maintain high-quality compressed air systems that meet ISO 8573 standards for purity and performance. Downloads Technical Data METPOINT®️ BDL p. with DPM Set , PDF( Size: 1.7 MB ) Technical Data DPM SD23 , PDF( Size: 650 KB ) Catalog METPOINT®️ BDL p. with DPM Set , PDF( Size: 270 KB )

BEKO condensate drain BEKOMAT® 32U Comfortable and simplified maintenance A service indicator informs punctually about the upcoming maintenance and/or exchange for the service unit. All parts which are subject to wear or are pressurised can be reached with one manual movement. Neither electrical installations nor the installation of seals and individual parts are necessary. The installation concept is also particularly user-friendly and time-saving: The device only has to be connected once electrically. The robust housing is also waterproof according to IP67. BEKOMAT® 31U | 32U facilitates the connection to the compressed air system with an angle adaptor. If the service unit of the BEKOMAT® 33U is disconnected from the power supply and condensate receiver tank, then the supply tank always remains connected to the compressed air system. This saves time and effort during maintenance. Technical data of BEKOMAT® 32U BEKOMAT® BEKOMAT® 32U Max. compressor performance [m³/min] 5 Max. dryer performance [m³/min] 10 Max. filter performance [m3/min] 50 Voltage 230VAC / 50-60Hz Operating pressure [bar] 0.8 - 16 Temperature [°C] +1 bis + 60 Condensate feed 1 x G 1/2  Condensate drain DN 8-10 bzw. G 1/4i Dimenstions B x T x H [mm] 74 x 179 x 130 Weight [kg] ca. 1,0 Proper use of BEKOMAT® 32U • The BEKOMAT® 32U is an electronically level-controlled condensate drain for compressed-air plants. • The device is employed within the permissible performance parameters (see "Technical data"). • The BEKOMAT® 32U is able to drain condensate under operating pressure from the plant components virtually without compressed-air loss. • For its function, the BEKOMAT® 32U requires a supply voltage and an operating pressure (see "Technical data"). • As far as the employment in plants with increased demands on compressed air is concerned (food industry, medical technology, laboratory equipment, special processes etc.), the operator must decide on measures for the monitoring of the compressed-air quality. These have an effect on the safety of the subsequent processes and may prevent damage to persons and plants. • It is the task of the operator to ensure that the indicated conditions are met during the entire operating time. Exclusion from the scope of application BEKOMAT® 32U • The BEKOMAT® 32U as a condensate drain alone cannot guarantee a defined compressed-air quality, for this purpose, other additional technical devices are required. • BEKOMAT® 32U is not suitable for use in plants carrying vacuum or atmospheric ambient pressure or in ex-areas. • The BEKOMAT® 32U must not be exposed to permanent direct solar or thermal radiation. • The BEKOMAT® 32U must not be installed and operated in areas with an aggressive atmosphere. • The BEKOMAT® 32U is not heatable and, therefore, not suitable for the use in areas where frost is likely to occur. • The BEKOMAT® 32U is not suitable for CO2 plants. Downloads Technical Data BEKOMAT® 32U PDF( Size: 186 KB ) Catalog BEKOMAT® 32U , PDF( Size: 368 KB )

METPOINT®️ OCV compact accessories - oil vapour measuring accessorie Ball valve oil- and grease-free with Stainless steel tubing incl. screw joints 4014394 , Ball valve oil- and grease-free 4042085 , METPOINT®️ OCV: accessories for the horizontal installation: Stainless steel pipe 6 x 1 mm ›› Length max. 1000 mm For 4014085: ›› incl. 2 piece of connection fitting G 3/8" external thread For 4042085: ›› incl. 1 piece of connection fitting G 3/8" external thread ›› incl. 1 piece of connection fitting G 1/8" external thread  Downloads Technical information of METPOINT®️ OCV compact, PDF( Size: 800 KB ) Technical Data of METPOINT®️ OCV compact, PDF( Size: 133 KB ) Catalog METPOINT®️ OCV compact , PDF( Size: 1.7 MB )

BEKO condensate drain BEKOMAT® 33U Remove condensate from compressed air systems The BEKOMAT 31U, BEKOMAT 32U, and BEKOMAT 33U are all condensate drain units designed to remove condensate from compressed air systems. Technical data of BEKOMAT® 33U BEKOMAT® BEKOMAT® 33U Max. compressor performance [m³/min] 10 Max. dryer performance [m³/min] 20 Max. filter performance [m3/min] 100 Voltage 230VAC / 50-60Hz Operating pressure [bar] 0.8 - 16 Temperature [°C] +1 to + 60 Condensate feed 3 x G 1/2  Condensate drain DN 13 bzw. G 1/2i Dimensions B x T x H [mm] 73 x 203 x 157 Weight [kg] ca. 1,7 The main differences between BEKOMAT 31U, BEKOMAT 32U, and BEKOMAT 33U lie in their capacity, features, and functionality. BEKOMAT 31U: - The BEKOMAT 31U is a compact condensate drain unit suitable for smaller compressed air systems. - It has a lower condensate removal capacity compared to the BEKOMAT 32U and BEKOMAT 33U. - The BEKOMAT 31U is designed for applications where a lower condensate flow rate is expected. BEKOMAT 32U: - The BEKOMAT 32U is a mid-range condensate drain unit with a higher capacity than the BEKOMAT 31U. - It is suitable for medium-sized compressed air systems with moderate condensate generation. - The BEKOMAT 32U offers more advanced features compared to the BEKOMAT 31U, such as adjustable discharge intervals and drain times. BEKOMAT 33U: - The BEKOMAT 33U is a high-capacity condensate drain unit designed for larger compressed air systems with high condensate generation. - It has the highest condensate removal capacity among the three models. - The BEKOMAT 33U offers advanced features and customization options to meet the specific requirements of large-scale applications. In summary, the BEKOMAT 31U, BEKOMAT 32U, and BEKOMAT 33U differ in terms of capacity, features, and suitability for different compressed air system sizes. Users can choose the model that best fits their system's requirements based on condensate generation, system size, and desired functionality. Can we use BEKOMAT 33u instead of BEKOMAT 31u or BEKOMAT 32u in some cases, and vice versa? Yes, in some cases, you can use BEKOMAT 33u instead of BEKOMAT 31u or BEKOMAT 32u and vice versa, but it should be noted that these substitutions may depend on the following factors: Drain capacity: BEKOMAT 33u has a higher drain capacity compared to BEKOMAT 31u and BEKOMAT 32u. Therefore, if your compressed air system produces a large volume of condensate, using BEKOMAT 33u may be more suitable. System size: Choosing the appropriate model should be based on the size of your compressed air system. If your system is small, BEKOMAT 31u may be sufficient. However, if the system is larger, BEKOMAT 33u could be the best option. Features and settings: BEKOMAT 31u, BEKOMAT 32u, and BEKOMAT 33u have different features and settings. Therefore, if you need specific features, make sure the chosen model provides these features. In general, you can use BEKOMAT 33u instead of BEKOMAT 31u or BEKOMAT 32u and vice versa if needed, but consider the mentioned factors to ensure proper compatibility and optimal performance. Downloads Technical Data BEKOMAT 33U, Instructions for installation and operation, PDF( Size: 1 MB ) Catalog BEKOMAT 33U , PDF( Size: 368 KB )

BEKO condensate drain BEKOMAT® 12, 12CO, 12CO PN63Cost-effective and reliable: BEKOMAT® standard units The BEKOMAT® range provides the 12, 13, 14 and BEKOMAT® 16 standard units for virtually every application, which are not just the correct solution, rather more also the most suitable low-energy solution. The integrated capacitive sensor for volume-controlled condensate discharge helps save energy and enhances efficiency – which is what you would expect from BEKOMAT. Technical Data BEKOMAT® 12, 12CO, 12CO PN63 BEKOMAT® 12 12 CO 12 CO PN63 Max. compressor capacity 8 m3/min Max. refrigeration dryer performance 16 m3/min Max. filter performance 80 m3/min Min./max. operating pressure 0,8 ... 16 bar (g) 1,2 ... 63 bar (g) Housing Aluminium Aluminium, hard-coated Ambient temperature +1 °C … +60 °C Weight (empty) 0,8 kg 0,9 kg Condensate inlet 1 x G½ (inside) [optional: NPT thread] Condensate discharge 1 x G⅜ (outside); hose connector, hose Ø = 10-13 mm (inside) Operating voltage 230 / 200 / 115 / 100 / 24 VAC ± 10%, 50 ... 60 Hz / 24 VDC ± 10% Power consumption P < 8,0 VA (W) Protection class IP 65 Wire cross-section (mains connection) recommended 3 x 0.75 … 1.5 mm2 (AWG 16 ... 18) Protection recommended for AC: 1 A slow / mandatory for DC: 1 A slow Contact load max. AC 250 V, DC 30 V / 1A; min. DC 5V / 10 mA Condensate oil-contaminated condensate oil-contaminated condensate; oil-free, potentially aggressive condensate The BEKOMAT 12 is a standard condensate drain unit designed for a wide range of applications in compressed air systems. It is known for its energy-efficient operation and reliable performance in removing condensate from compressed air systems to ensure clean and dry air for various industrial processes. Here are some key specifications and features of the BEKOMAT 12: Energy Efficiency: The BEKOMAT 12 is equipped with an integrated capacitive sensor for volume-controlled condensate discharge, which helps save energy by ensuring that only the necessary amount of condensate is discharged. This feature enhances efficiency and reduces energy consumption compared to traditional drain systems. Robust Construction: The BEKOMAT 12 is built with high-quality materials and components to withstand harsh operating conditions in industrial environments. Its durable construction ensures long-term reliability and performance in demanding applications. Easy Installation and Maintenance: The BEKOMAT 12 is designed for easy installation and maintenance, making it convenient for users to set up and operate the unit with minimal effort. Routine maintenance tasks such as draining condensate and cleaning the unit can be performed quickly and easily. Wide Application Range: The BEKOMAT 12 is suitable for a variety of applications in industries such as automotive, food and beverage, pharmaceutical, manufacturing, and more. It can effectively remove condensate from compressed air systems to maintain air quality and prevent damage to downstream equipment. Overall, the BEKOMAT 12 is a reliable and energy-efficient condensate drain unit that offers superior performance and efficiency for a wide range of industrial applications. Its advanced features and robust construction make it an ideal choice for ensuring the quality and reliability of compressed air systems in various industries. Downloads Technical Data BEKOMAT® 12, 12CO, 12CO PN63 , PDF( Size: 94 KB ) Catalog BEKOMAT® 12, 12CO, 12CO PN63, PDF( Size: 430 KB )

BEKO condensate drain BEKOMAT® 13, 13CO, 13 CO PN 50 how can you prevent condensate damage to your compressed air system whilst saving energy and adapted to the amount of condensate without loss of compressed air These are the proven strength of a bekomat but exactly how does it work Adapted to the amount of condensate and without compressed air loss Condensate flows in via the feed line whilst air pressure from the vent pipe keeps the membrane closed from above a capacitive sensor constantly monitors the condensate. When the condensate reaches a preset level the control unit immediately initiates the draining of the condensate. Once again as the condensate flows in the membrane remains closed due to system pressure it's larger upper surface provides the necessary closing force on the valve seat and seals it tightly when the bekomat is full the solenoid valve is activated and the space above the membrane is vented. Simultaneously the pressure on the underside increases allowing the condensate to flow into the outlet line. in actual operation the solenoid valve switches so quickly that no valuable compressed air escapes. The bekomat® drains the condensate into the owamat Oil water separator mounted downstream adapted to the amount of condensate and without compressed air loss. Cost-effective and reliable: BEKOMAT® standard units The standard design is made in corrosion-resistant aluminium, which makes the BEKOMAT® particularly reliable and robust. A silver-coloured coating protects the outside of the housing. The BEKOMAT® CO models are predestined for operating with oil-free or aggressive condensates. Their housing is additionally, completely glass bead blasted and protected by a high-quality hard coating. Technical Data BEKOMAT® 13, 13CO, 13CO PN50 BEKOMAT® 13 13 CO 13 CO PN50 Max. compressor capacity 35 m3/min Max. refrigeration dryer performance 70 m3/min Max. filter performance 350 m3/min Min./max. operating pressure 0,8 ... 16 bar (g) 1.2 ... 25 or 40 bar or 50 bar (gauge) Housing Aluminium Aluminium, hard-coated Ambient temperature +1 °C … +60 °C Weight (empty) 2 kg 2,2 kg Condensate inlet 2 x G½ (inside) [optional: NPT thread] Condensate discharge 1 x G½ (outside); hose connector, hose Ø = 13 mm (inside) 1 x G⅜ (inside); hose connector, hose Ø = 13 mm (inside) Operating voltage 230 / 200 / 115 / 100 / 24 VAC ± 10%, 50 ... 60 Hz / 24 VDC ± 10% Power consumption P < 8,0 VA (W) Protection class IP 65 Wire cross-section (mains connection) recommended 3 x 0.75 … 1.5 mm2 (AWG 16 ... 18) Protection recommended for AC: 1 A slow / mandatory for DC: 1 A slow Contact load max. AC 250 V, DC 30 V / 1A; min. DC 5V / 10 mA Condensate oil-contaminated condensate oil-contaminated condensate; oil-free, potentially aggressive condensate Measures: • Do not exceed the maximum operating pressure (see type plate)! • Only carry out service measures when the system is pressure less. • Use pressure-resistant installation material only. • The feed pipe must be tubed firmly. Discharge pipe: short, fixed pressure hose onto pressure-resistant pipe. • Make sure that persons or objects cannot be hit by condensate or escaping compressed air. Downloads Technical Data BEKOMAT® 13, 13CO, 13 CO PN 50 , PDF( Size: 1.5 MB ) Catalog BEKOMAT® 13, 13CO, 13 CO PN 50 , PDF( Size: 430 KB )

BEKO condensate drain BEKOMAT® 14, 14CO, 14CO PN25 Cost-effective and reliable: BEKOMAT ® standard units The BEKOMAT® range provides the 12, 13, 14 and BEKOMAT 16 standard units for virtually every application, which are not just the correct solution, rather more also the most suitable low-energy solution. The integrated capacitive sensor for volume-controlled condensate discharge helps save energy and enhances efficiency – which is what you would expect from BEKOMAT. Unnecessary costs and damage in the compressed air generation can only be efficiently prevented with volume-controlled condensate discharge. For this reason, BEKOMAT condensate drain therefore functions with a capacitive sensor. The intelligent electronics prevent compressed air losses and minimise energy consumption. Due to this the electronically regulated condensate discharge, the drain often amortises itself within half a year compared to devices with time-controlled drain valves. Technical Data BEKOMAT® 14, 14CO, 14CO PN25 BEKOMAT® 14 14 CO 14 CO PN25 Max. compressor capacity 150 m3/min Max. refrigeration dryer performance 300 m3/min Max. filter performance 1500 m3/min Min./max. operating pressure 0,8 ... 16 bar (g) 1.2 ... 25 bar (gauge) Housing Aluminium Aluminium, hard-coated Ambient temperature +1 °C … +60 °C Weight (empty) 2.9 kg 3.1 kg Condensate inlet 3 x G¾ (inside) [optional: NPT thread] Condensate discharge 1 x G½ (outside); hose connector, hose Ø = 13 mm (inside) 1 x G⅜ (inside); hose connector, hose Ø = 13 mm (inside) Operating voltage 230 / 200 / 115 / 100 / 24 VAC ± 10%, 50 ... 60 Hz / 24 VDC ± 10% Power consumption P < 8,0 VA (W) Protection class IP 65 Wire cross-section (mains connection) recommended 3 x 0.75 … 1.5 mm2 (AWG 16 ... 18) Protection recommended for AC: 1 A slow / mandatory for DC: 1 A slow Contact load max. AC 250 V, DC 30 V / 1A; min. DC 5V / 10 mA Condensate oil-contaminated condensate oil-contaminated condensate; oil-free, potentially aggressive condensate Proper use  • The BEKOMAT® is an electronically level-controlled condensate drain for compressed-air plants. • It is employed within the permissible operating parameters (see "Technical data"). • The BEKOMAT® is able to drain condensate under operating pressure from the plant components virtually without compressed-air losses. • For its function, the BEKOMAT® 14 requires an operating voltage and an operating pressure (see "Technical data"). • As far as the employment in plants with increased demands on the compressed-air quality is concerned (food industry, medical technology, laboratory equipment, special processes etc.), the operator must decide on measures for the monitoring of the compressed-air quality. These have an effect on the safety of the subsequent processes and may prevent damage to persons and plants. • It is the task of the operator to ensure that the indicated conditions are met during the entire operating time. • For the employment in CO2 plants, a BEKOMAT® with a CO specification (BEKOMAT® ... CO) must be used. • The BEKOMAT® and the condensate supply line need to be protected against frost, as otherwise the function cannot be guaranteed. BEKO TECHNOLOGIES GMBH also offers suitable products for this purpose. Downloads Technical Data BEKOMAT® 14, 14CO, 14CO PN25 , PDF( Size: 1.5 MB ) Catalog BEKOMAT® 14, 14CO, 14CO PN25 , PDF( Size: 430 KB )

Condensate drainage without loss of compressed air If a float arrester leaks, high costs arise as a result of leaks. Time-controlled solenoid valves also cause compressed air losses. During the valve opening expensive compressed air escapes unused into the environment. In contrast, a condensate drain with electronic level control guarantees draining without compressed air, ie energy loss. This not only saves energy and costs, but also CO 2 emissions. This is a fantastic condensate drainage without loss of compressed air. Technical data of BEKOMAT® 16 CO BEKOMAT® BEKOMAT® 16 CO Max. compressor performance [m³/min] 1400 Max. dryer performance [m³/min] 2800 Max. filter performance [m3/min]   Voltage 230VAC / 50-60Hz Operating pressure [bar] 0.8 - 16 Temperature [°C] +1 bis + 60 Condensate feed 2 x G 3/4 | 1 x G 1 Condensate drain DN 10-13 bzw. G 1/2i Dimenstions B x T x H [mm] 260 x 280 x 280 Weight [kg] ca. 6,1 Further safety advice: • For installation and operation, the national regulations and safety codes in force must also be adhered to. • Do not use the BEKOMAT® 16 in hazardous areas. • Regarding the inlet screw joints, excessive tightening forces must be avoided. This applies in particular to conical screw joints. • The BEKOMAT® 16 will only function when voltage is applied. • Do not use the test button for permanent drainage! • Only use genuine spare parts! This is imperative to ensure perfect functioning. Function Of BEKOMAT® 16 CO The condensate flows through the feed line (1) into the BEKOMAT® unit and accumulates in the container (2). A capacitive sensor (3) continuously registers the liquid level and passes a signal to the electronic control as soon as the container is filled. The pilot valve (4) is then activated and the diaphragm (5) opens the outlet line (6) for discharging the condensate. When the BEKOMAT® unit has been emptied, the outlet line is closed again quickly and tightly without wasting compressed air. 1- Ready for operation Voltage is being applied 2- Discharge procedure Outlet line is open 3- Malfunction Alarm mode is activated 4- Test Manual drainage / alarm When the microcontroller registers a malfunction, the device will automatically change to the alarm mode. The switching sequence of the valve (see illustration) continues until the fault is cleared (automatically or through maintenance). The red LED flashes as long as the device is in the alarm mode. Malfunctioning could be caused by, e.g.: • Mistakes during installation • Dropping below the necessary minimum pressure • Excessive condensate quantities (overloading) • Blocked / shut off outlet line • Extreme amount of dirt particles • Frozen piping If the fault is not cleared within the first minute, a fault signal is triggered (see illustration) which can be picked off as a potential-free signal via the alarm relay. Downloads Technical Data BEKOMAT® 16 CO , PDF( Size: 1.2 MB ) Catalog BEKOMAT® 16 CO , PDF( Size: 430 KB )

BEKO condensate drain BEKOMAT® 3 CO EX Intrinsically safe The BEKOMAT Ex fulfils the requirements of type of protection "intrinsically safe". This means that the energy created by its entire electronic system is at no time capable of igniting gases and vapours of explosion group II 2G EEx ib IIB T4. Under certain circumstances, however, explosive gases or vapours can escape from the BEKOMAT Ex via the condensate. The operator of a system in a hazardous area is to ensure that the system is installed in such a way that ignition of a potentially explosive atmosphere cannot occur. Technical data of BEKOMAT® 3 CO EX BEKOMAT® BEKOMAT® 3 CO EX Compressor Capacity [m³/min] 100 Voltage 12 VDC Operating pressure [bar] 0.8 - 16 Temperature [°C] +1 to + 60 Condensate feed 3 x G 3/4  Dimensions B x T x H [mm] 160 x 193 x 255 Weight [kg] ca. 5,0 Application Oil-contaminated condensate | oil-free, often aggressive condensate   The Special Solutions in overview: BEKOMAT® 03 / 06 LA / LALP / LP: Condensate drain in CO or stainless steel with/without idle load valve especially for high-pressure, multi-stage and turbo compressors, also for low pressures. BEKOMAT® 03 / 06, CO or Stainless steel- ATEX: Condensate drain also for explosive environments BEKOMAT® 03 / 06 VACU: Condensate drain specialised for applications in vacuum systems Downloads Technical Data BEKOMAT® 3 CO EX , PDF( Size: 702 KB ) Data sheet BEKOMAT® 3 CO EX , PDF( Size: 154 KB ) Technical Data sheet of BEKOMAT® 3 CO EX , PDF( Size: 63 KB ) Catalog BEKOMAT® 3 CO EX , PDF( Size: 509 KB )

BEKO condensate drain BEKOMAT® 6 CO EX Condensate drainage without loss of compressed air If a float arrester leaks, high costs arise as a result of leaks. Time-controlled solenoid valves also cause compressed air losses. During the valve opening expensive compressed air escapes unused into the environment. In contrast, a condensate drain with electronic level control guarantees draining without compressed air, ie energy loss. This not only saves energy and costs, but also CO 2 emissions.This is a fantastic condansate drainage without loss of compressed air.  Technical data of BEKOMAT® 6 CO EX BEKOMAT® BEKOMAT® 6 CO EX Compressor Capacity [m³/min] 1000 Voltage 12 VDC Operating pressure [bar] 0.8 - 16 Temperature [°C] +1 bis + 60 Condensate feed 2 x G¾ | 1x G1 Dimenstions B x T x H [mm] 260 x 280 x 295 Weight [kg] ca. 5,0 Application Oil-contaminated condensate | oil-free, often aggressive condensate   Function Of BEKOMAT® 6 CO EX Empty state: Condensate drips through the inlet opening 1- and collects in the container 2- The diaphragm valve 5- is closed because the pressure equalization across the valve diaphragm via the pilot line 3- and the solenoid valve 4- 5- takes place. The larger area above the membrane causes a high closing force. The valve seat remains closed without leaks. Filled state: If the container 2- is filled with condensate so that the capacitive level sensor 6- reports a signal at the maximum point, the solenoid valve is switched and the area above the valve membrane is vented. The valve membrane lifts off the valve seat 7-, the overpressure in the housing pushes the condensate into the outlet line 8- The valve is closed leak-free before the compressed air escapes. If the condensate drain is disturbed (blocked drain line, defective membrane), the alarm mode is triggered after 60 seconds. The LED flashes, a fault message can be picked up as a potential-free signal via the alarm relay. With Ex devices this is possible via a built-in optocoupler and a switching amplifier. In this state, the solenoid valve is opened for 7.5 seconds every 4 minutes. A BEKOMAT® filled in a pressureless state is automatically alarm-free again under pressure. The drained condensate is now sent to the ÖWAMAT® oil-water separator for disperse condensate for treatment. In the case of stable emulsions, we recommend the BEKOSPLIT® splitting system for almost waste-free processing. Both systems offer legally compliant process technology for treating your compressed air condensate. Downloads Technical Data BEKOMAT® 6 CO EX , PDF( Size: 702 KB ) Catalog BEKOMAT® 6 CO EX , PDF( Size: 509 KB )

BEKO condensate drain BEKOMAT® 8 For applications in large compressors The complete housing of this BEKOMAT® condensate drain is made of cast stainless steel and is therefore designed for use in aggressive atmospheres, as well as for the discharge of condensates from special gas compression. They are mainly utilised in petroleum plants and refineries, in the petrochemical industry and in crude or mineral oil plants. These are the largest electronically level-controlled condensate drain systems available on the market and have been specially designed and built for these requirements. Technical data of BEKOMAT® 8 BEKOMAT® BEKOMAT® 8 Compressor Capacity [m³/min] 9.360 - 14.400 Voltage 230 VAC / 50...60Hz Operating pressure [bar] 0,5 ... 10 Temperature [°C] +1 to + 60 Condensate feed Flansch C50 x 60,3 DIN1092-1 Dimensions B x H [mm] 484 x 485 Application Oil-contaminated condensate / oil-free, often aggressive condensate / aggressive condensate from compressed gas compressors BEKOMAT® 08 / 09: Condensate drain for large compressors in particular in refineries, petrochemicals, chemical industry and petroleum plants.No loss of compressed air during drainingLow operating costs Outstanding reliability Durable and resistant to dirt Largevalve diameters prevent the formation of emulsions No delicate mechanical components Easy to install and virtuallyMaintenance-freeVersatile connection options Fully-automated operation and monitoring Connection to modern system monitoring Automatic start of self-cleaning process based on dirt formation Downloads Technical Data BEKOMAT® 8 CO EX , PDF( Size: 2.8 MB ) Catalog BEKOMAT® 8 CO EX , PDF( Size: 820 KB )

Oil water separator OWAMAT® 10 - QWIK-PURE CS200 , 2.4m3/min The clean solution that fits your budget and protects the environment: Condensate processing with OWAMAT ® Legislators demand that discharged condensate is processed safely and properly. BEKO make it easy for operators to meet the legal requirements – with our extensive range of condensate processing solutions that reflect our commitment to sustainability. With our Oil water separator OWAMAT ® oil water separator reaction splitting plants, we offer cost-effective and environmentally friendly solutions for the disposal of dispersed and emulsified condensates. These systems are designed to be environmentally friendly. They are cost-efficient on-site units for the processing of condensate in compliance with all applicable statutory regulations.     Function of OWAMAT® For the processing, the oil-containing condensate first flows under pressure into the pressure relief chamber. Here, the pressure is reduced without causing turbulence in the downstream separating tank for the separation of free oils. Any entrained coarse dirt particles are retained in a removable receiver. In the separating tank, the oil settles on the surface as a result of gravity separation and is led into the spillproof oil receiver.     Technical Data of Oil water separator OWAMAT® 10  Oil water separator OWAMAT OWAMAT® 10  max. compressor performance:  2.4 m3/min  Container volume:  10 l  Capacity:  4.3 l  Pre lter:  2.5 l  Main lter:  2.6 l  Condensate inlet (hose size):  2 x G1⁄2 inside (Ø inside = 10 mm)  Water (hose size):  1 x G1⁄2 inside (Ø inside = 10 mm)  Weight (empty):  3.5 kg  Min./max. temperature  +5 ... +60 °C  Max. operating pressure at inlet  16 bar  Maintenance of ÖWAMAT® Weekly wastewater test – Fill the test glass at the Sampling cock. – Compare the cloudiness with the reference jar If the sample is clearer than the reference cloudiness – the filter is O.K. (Fig. 1) If the sample is cloudier than the reference cloudiness – the filter needs to be changed! (Fig. 2) Never pour any foreign liquid into the pressure relief chamber! This can impair the filter efficiency of the ÖWAMAT®.   Before any maintenance– Shut off condensate inlet (1) if necessary switch off compressor Maintenance– Hoses and hose connections must be inspected regularly (2)  Downloads Technical Data of Oil water separator OWAMAT® 10 , PDF( Size: 747 KB ) Catalog Oil water separator , PDF( Size: 309 KB )

Oil water separator OWAMAT® 11 - QWIK-PURE CS200, 4.9m3/min Safe and efficient condensate separation: OWAMAT®  OWAMAT has been a tried and tested oil-water separation system for dispersed condensates for decades. It has been awarded a building regulation´s approval for the versions with and without free oil separation, for synthetic or mineral oils as well as for processing condensate generated by piston- and screw compressors, therefore not requiring any legislation for water protection approval. Function of oil water separator OWAMAT® 10,11 The oil-contaminated condensate can be fed under pressure to the OWAMAT® unit (1). The pressure is reduced in the pressure relief chamber (2). The condensate flows steadily into the subjacent filter stage without turbulence and runs through the two-stage OEKOSORB® replacement filter. The OEKOSORB® replacement filter (3) comprises a prefilter and a main filter for binding any residual oil constituents. The water flows out of the OWAMAT® oil-water separator through the water outlet (6) and can be discharged directly into the sewer system. A sampling valve (5) is provided so that the wastewater quality can be checked at any time. 1 Condensate inlet 2 Pressure relief chamber 3 Prefilter/main filter 4 Riser 5 Sampling valve 6 Water outlet   Technical Data of Oil water separator OWAMAT® 11  Oil water separator OWAMAT® OWAMAT® 11  max.compressor performance:  4.9 m3/min  Container volume:  18.6 l  Capacity:  11.7 l  Pre lter:  4.7 l  Main lter:  4.8 l  Condensate inlet (hose size):  2 x G1⁄2 inside (Ø inside = 10 mm)  Water (hose size):  1 x G1⁄2 inside (Ø inside = 10 mm)  Weight (empty):  5.75 kg  Min./max. temperature  +5 ... +60 °C  Max. operating pressure at inlet  16 bar   Downloads Technical Data of Oil water separator OWAMAT® 10,11 , PDF( Size: 747 KB ) Catalog Oil water separator , PDF( Size: 309 KB )

the QWIK-PURE ® opens up new possibilities Classic oil-water separators based on the principle of gravity separation can hardly be improved in terms of process technology. So, as condensate technology experts with decades of experience, we have paid special attention to the people who work with the product. What is important to them, what drives them and how can we give them the highest degree of decision-making reliability and flexibility while integrating the requirements of modern industry? As a result, we present the QWIK-PURE®, the first active oil-water separator with which we have fundamentally redefined condensate treatment and will change it worldwide.   Technical Data QWIK-PURE® 10, Oil water separator Operating mode static* Maximum condensate flow 12 l/h Condensate inlet connection 3 x G1/2", outside | 1 x G1", outside | Hose nozzle Condensate drain connection 1 x 23 mm (0.91 in), outside, Hose nozzle Media Compressor condensate, oily Maximum oil concentration at condensate drain 20mg/l Maximum operating pressure at condensate inlet 16 bar(g) Minimum / maximum operating temperature, Fluids and environment +5 … +50 °C Relative humidity of the environment ≤10 … 80 %, Without condensation Weight 21 Kg Number of replacement cartridges 1 Qwik-Pure is a real innovation among oil-water separators. The highly effective oil-water separation process has been perfected with new technology and innovative concepts.Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB ) QWIK-PURE®10 Original installation and operation manual, PDF( Size: 9 MB )

QWIK-PURE ® Ergonomic operation protects operators The absorbed oils are bound in the hermetically sealed cartridges. This reliably protects the operators from contamination and complies with the limit values for the discharged waste water - regardless of the compressor type and the oils used. All versions use the same cartridge with transparent operation. The Qwik-Pure system status is displayed at all times and is clearly visible on the control panel. A green LED bar shows the remaining capacity from 100% to zero. When a cartridge change is required, the display changes from green to red and the guided changing process can be started manually. Therefore, residual condensate is automatically pushed out of the cartridge's pipe system with several small bursts of air. Integrated bottom valves prevent condensate from escaping from the cartridge. The tightly closed cartridge can be easily removed and replaced with a maximum total weight of 25kg. The saturated cartridge is easy and convenient to transport.    Technical Data QWIK-PURE® 15, Oil water separator Operating mode active Maximum condensate flow 19 l/h Condensate inlet connection 3 x G1/2", outside | 1 x G1", outside | Hose nozzle Condensate drain connection 1 x 23 mm (0.91 in), outside, Hose nozzle Media Compressor condensate, oily Maximum oil concentration at condensate drain 20mg/l Maximum operating pressure at condensate inlet 16 bar(g) Minimum / maximum operating temperature, Fluids and environment +5 … +50 °C Relative humidity of the environment ≤10 … 80 %, Without condensation Weight 24 Kg Number of replacement cartridges 1   Technical data of the control unit FRC Minimum / maximum operating pressure, compressed air 3 … 15 bar(g) Cleanliness class, compressed air 2:4:2 Connection, compressed air 8 mm (0.31 in), outside, Hose nozzle Operating voltage 90 … 264 VAC / 24 VDC Frequency range 50 … 60 Hz Power consumption 10 VA Protection class IP54 Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )

QWIK-PURE ® Unique process, functional and future-proof Due to the innovative mode of operation, a maximum of process and functional reliability is achieved. The integrated control system permanently displays the remaining capacity and thus ensures transparency and plannability. It also guides you through the quick and easy cartridge change and helps with service tasks via a local WLAN network. And if the power should fail, the fail-safe function ensures safe operation. In this case, the QWIK-PURE® behaves like a conventional gravity separator. Qwik-Pure stands for optimal operational safety for conventional oil-water separators. This is ensured by the unique and intelligent operating principle and reliable monitoring by the device's electronic unit.     Technical Data QWIK-PURE® 30, Oil water separator Operating mode active Maximum condensate flow 38 l/h Condensate inlet connection 3 x G1/2", outside | 1 x G1", outside | Hose nozzle Condensate drain connection 1 x 23 mm (0.91 in), outside, Hose nozzle Media Compressor condensate, oily Maximum oil concentration at condensate drain 20mg/l Maximum operating pressure at condensate inlet 16 bar(g) Minimum / maximum operating temperature, Fluids and environment +5 … +50 °C Relative humidity of the environment ≤10 … 80 %, Without condensation Weight 31 Kg Number of replacement cartridges 2   Technical data of the control unit FRC Minimum / maximum operating pressure, compressed air 3 … 15 bar(g) Cleanliness class, compressed air 2:4:2 Connection, compressed air 8 mm (0.31 in), outside, Hose nozzle Operating voltage 90 … 264 VAC / 24 VDC Frequency range 50 … 60 Hz Power consumption 10 VA Protection class IP54 Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )

QWIK-PURE ® Extremely flexible and future-proof The integrated Modbus interface enables integration into higher-level monitoring and control systems and provides additional future-proofing thanks to its IIOT capability. A modular concept allows the number of cartridges to be flexibly adjusted to individual requirements, with up to 6 cartridges per system. This ensures optimal condensate treatment for all applications, with a quick change time of under 10 minutes, supported by the optimized guided service flow for clean cartridge changes. Technical Data QWIK-PURE® 60, Oil water separator Operating mode active Maximum condensate flow 76 l/h Condensate inlet connection 3 x G1/2", outside | 1 x G1", outside | Hose nozzle Condensate drain connection 1 x 23 mm (0.91 in), outside, Hose nozzle Media Compressor condensate, oily Maximum oil concentration at condensate drain 20mg/l Maximum operating pressure at condensate inlet 16 bar(g) Minimum / maximum operating temperature, Fluids and environment +5 … +50 °C Relative humidity of the environment ≤10 … 80 %, Without condensation Weight 45 Kg Number of replacement cartridges 4   Technical data of the control unit FRC Minimum / maximum operating pressure, compressed air 3 … 15 bar(g) Cleanliness class, compressed air 2:4:2 Connection, compressed air 8 mm (0.31 in), outside, Hose nozzle Operating voltage 90 … 264 VAC / 24 VDC Frequency range 50 … 60 Hz Power consumption 10 VA Protection class IP54 Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )

QWIK-PURE® simply grows with you Each QWIK-PURE® model can be easily expanded or scaled down according to current needs. This creates decision-making reliability and additional safety. And because exactly the same cartridge is used in all models, procurement and stock-keeping become even easier. Qwik-Pure represents a radical rethinking of oil-water separation, offering safe, compatible, certified, ergonomic, fast, modular, clean and universal functions. It meets all hygienic, efficient, clean, safe and modular requirements, making it the main feature of the new Qwik-Pure generation. Technical Data QWIK-PURE® 90, Oil water separator Operating mode active Maximum condensate flow 114 l/h Condensate inlet connection 3 x G1/2", outside | 1 x G1", outside | Hose nozzle Condensate drain connection 1 x 23 mm (0.91 in), outside, Hose nozzle Media Compressor condensate, oily Maximum oil concentration at condensate drain 20mg/l Maximum operating pressure at condensate inlet 16 bar(g) Minimum / maximum operating temperature, Fluids and environment +5 … +50 °C Relative humidity of the environment ≤10 … 80 %, Without condensation Weight 60 Kg Number of replacement cartridges 6   Technical data of the control unit FRC Minimum / maximum operating pressure, compressed air 3 … 15 bar(g) Cleanliness class, compressed air 2:4:2 Connection, compressed air 8 mm (0.31 in), outside, Hose nozzle Operating voltage 90 … 264 VAC / 24 VDC Frequency range 50 … 60 Hz Power consumption 10 VA Protection class IP54 Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )

Service unit for BEKOMAT® 20 and BEKOMAT® 20FM Service unit BEKOMAT® Details information For BEKOMAT® 20 Price (€) 20 FM Price (€) Wearing part set 4003701 (XEKA20101) 59 4003701 (XEKA20101) 59 Diaphragms 3 pcs 2000496 (XEKA10106) 75 2000496 (XEKA10106) 75 Diaphragms 3 pcs 4003700 (XEKA20103) 43 4003700 (XEKA20103) 43 Top cover 4003703 (XEKA20010) 64 4003704 (XEKA20012) 66 Sensor control board - - 4003705 (XEKA20201) 204 Sensor PCB 230 VAC 4003706 (XEKA20114) 129 2001501 (XEKA21214) 80 Sensor PCB 200 VAC 4004089 (XEKA20119) 129 4001278 (XEKA21219) 80 Sensor PCB 115 VAC 4003707 (XEKA20115) 129 2001502 80 Sensor PCB 100 VAC 4003708 130 4001276 (XEKA21218) 80 Sensor PCB 24 VAC 4003709 129 2001504 (XEKA21216) 80 Sensor PCB 24 VDC - - 2001915 (XEKA21217) 80 Downloads Technical Data BEKOMAT® 20, 20FM, PDF (Size: 2.5 MB) Catalog BEKOMAT® 20, 20FM, PDF ( Size: 330 KB )

Service unit BEKOMAT® Details information For BEKOMAT® 21 Preis (€) 21 PRO Preis (€) Wearing part set 2001365 (XEKA21101) 59 2001365 (XEKA21101) 59 Diaphragms 3 pcs 2000496 (XEKA10106) 75 2000496 (XEKA10106) 75 Diaphragm seat 2001367 (XEKA21103) 43 2001367 (XEKA21103) 43 Sealing kit 2001366 (XEKA21102) 30 2001366 (XEKA21102) 30 Top cover 2001913 (XEKA21010) 66 2001914 (XEKA21011) 66 Sensor control board - - 2001494 (XEKA21203) (4047963) 137 Sensor PCB 230 VAC 2001488 (XEKA21114) 130 2001495 (XEKA21204) 80 Sensor PCB 200 VAC 4004090 130 4001277 (XEKA21209) 80 Sensor PCB 115 VAC 2001489 130 2001496 80 Sensor PCB 100 VAC 4001273 (XEKA21116) 130 4001275 (XEKA21208) 80 Sensor PCB 24 VAC 2001490 (XEKA21117) 129 2001497 (XEKA21206) 80 Sensor PCB 24 VDC - - 2001498 (XEKA21207) 80

Service unit BEKOMAT® Details information For BEKOMAT® 12 Preis (€) 12 CO Preis (€) 12 CO PN 63 Preis (€) 12 CO NI Preis (€) 12 KW Preis (€) Wearing part set 2000049 (XEKA12101) 82 2000049 (XEKA12101) 82 2000748 (XEKA12301) 93 - - - - Diaphragms 3 pcs 4003555 (XEKA00027) (4045068) 109 4003555 (XEKA00027) (4045068) 109 2000437 149 - - - - Diaphragm seat 2800829 (XEKA11011) 43 2800829 (XEKA11011) 43 - - - - - - Valve 4027846 103 4027847 121 4027848 482 - - - - Valve attachment components 2000052 (XEKA12102) 38 2000053 (XEKA12202) 41 2000054 (XEKA12302) 393 - - - - Sealing kit 2000058 (XEKA12104) 26 2000058 (XEKA12104) 26 2000749 (XEKA12304) 28 2000058 (XEKA12104) 26 2000058 (XEKA12104) 26 Housing 2000060 (XEKA12105) 83 2000061 (XEKA12205) 132 2000234 (XEKA12305) 134 - - 2000192 (XEKA12106) 115 Top cover 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 2000194 (XEKA12007) 85 Sensor control board 2000062 (XEKA12001) (4047971) 211 2000062 (XEKA12001) (4047971) 211 2000062 (XEKA12001) (4047971) 211 - - 2000193 (XEKA12006) 211 Sensor PCB 230 VAC 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 Sensor PCB 200 VAC 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 Sensor PCB 115 VAC 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 Sensor PCB 100 VAC 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 Sensor PCB 24 VAC 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 Sensor PCB 24 VDC 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 Downloads Technical Data BEKOMAT® 12 , PDF( Size: 1.2 MB ) Catalog BEKOMAT® 12 , PDF( Size: 430 KB )

Service unit BEKOMAT® Details information For BEKOMAT® 13 Preis (€) 13 CO Preis (€) 13 CO PN 25 | 40 | 50 Preis (€) Wearing part set 2000067 (XEKA13101) 85 2000067 (XEKA13101) 85 2000366 (XEKA13301) 102 Diaphragms 3 pcs 4002451 (XEKA00020) (4053197) 148 4002451 (XEKA00020) (4053197) 148 2000439 (XEKA00019) 160 Diaphragm seat 2001118 (XEKA13109) 43 2001118 (XEKA13109) 43 2000351 151 Valve 4027849 131 4027850 149 4027851 547 Valve attachment components 2000071 (XEKA13102) 52 2000072 (XEKA13202) 55 2000371 (XEKA13302) 456 Sealing kit 2000073 (XEKA13104) 30 2000073 (XEKA13104) 30 2000367 (XEKA13304) 33 Housing 2000075 (XEKA13105) 196 2000076 (XEKA13205) 367 2000368 (XEKA13305) 491 Housing cover 2000077 (XEKA13106) 91 2000078 (XEKA13206) 296 2000369 (XEKA13306) 343 Top cover 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 Sensor control board 2000079 (XEKA13001) (4047967) 211 2000079 (XEKA13001) (4047967) 211 2000079 (XEKA13001) (4047967) 211 Sensor PCB 230 VAC 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 Sensor PCB 200 VAC 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 Sensor PCB 115 VAC 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 Sensor PCB 100 VAC 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 Sensor PCB 24 VAC 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 Sensor PCB 24 VDC 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 Downloads Technical Data BEKOMAT 13® , PDF( Size: 1.5 MB ) Catalog BEKOMAT® 13 , PDF( Size: 430 KB )

Service unit BEKOMAT® Details information For BEKOMAT® 14 Preis (€) 14 CO Preis (€) 14 CO PN 25 Preis (€) Wearing part set 2000731 (XEKA14101) 85 2000731 (XEKA14101) 85 2002556 (XEKA14301) 106 Diaphragms 3 pcs 4002451 (XEKA00020) 148 4002451 (XEKA00020) 148 2000439 (XEKA00019) 160 Diaphragm seat 2001118 (XEKA13109) 43 2001118 (XEKA13109) 43 2000351 151 Valve 4027849 131 4027850 149 4027851 547 Valve attachment components 2000071 (XEKA13102) 52 2000072 (XEKA13202) 55 2000371 (XEKA13302) 456 Sealing kit 2000080 (XEKA14104) 30 2000080 (XEKA14104) 30 4000923 33 Housing 2000082 (XEKA14105) 240 2000083 (XEKA14205) 446 2000083 (XEKA14205) 446 Housing cover 2000084 (XEKA14106) 146 2000085 (XEKA14206) 319 2000085 (XEKA14206) 319 Top cover 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 2000066 (XEKA12005) 82 Sensor control board 2000086 (XEKA14001) (4047968) 217 2000086 (XEKA14001) (4047968) 217 2000086 (XEKA14001) (4047968) 217 Sensor PCB 230 VAC 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 2000063 (XEKA12002) 103 Sensor PCB 200 VAC 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 2000349 (XEKA12008) 103 Sensor PCB 115 VAC 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 2000064 (XEKA12003) 103 Sensor PCB 100 VAC 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 2000611 (XEKA12010) 103 Sensor PCB 24 VAC 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 2000065 (XEKA12004) 103 Sensor PCB 24 VDC 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 2000756 (XEKA12012) 103 Downloads Technical Data BEKOMAT® 14 , PDF( Size: 1.5 MB ) Catalog BEKOMAT® 14 , PDF( Size: 430 KB )

Service unit BEKOMAT® Details information For BEKOMAT® 16 CO Preis (€) Wearing part set 2000087 (XEKA16201) 106 Diaphragms 3 pcs 4002451 (XEKA00020) (4053197) 148 Diaphragm seat - - Valve 2000089 (XEKA16203) 175 Valve attachment components 2000088 (XEKA16202) 43 Sealing kit 2000090 (XEKA16204) 33 Housing 2000092 (XEKA16206) 961 Housing cover 2000091 (XEKA16205) 394 Top cover 2000066 (XEKA12005) 82 Sensor control board 2000093 (XEKA16001) (4047969) 217 Sensor PCB 230 VAC 2000063 (XEKA12002) 103 Sensor PCB 200 VAC 2000349 (XEKA12008) 103 Sensor PCB 115 VAC 2000064 (XEKA12003) 103 Sensor PCB 100 VAC 2000611 (XEKA12010) 103 Sensor PCB 24 VAC 2000065 (XEKA12004) 103 Sensor PCB 24 VDC 2000756 (XEKA12012) 103 Downloads Technical Data BEKOMAT® 16 CO , PDF( Size: 1.2 MB ) Catalog BEKOMAT® 16 CO , PDF( Size: 430 KB )

Service unit BEKOMAT® Details information For BEKOMAT® 31U Preis (€) 32U Preis (€) 33U Preis (€) 33U CO Preis (€) Connection adapter 4010155 (XEKA31001) 44 4010155 (XEKA31001) 44 - - - - Sealing kit 4024386 18 4024392 18 4024397 18 4024397 18 Designshell 4010164 (XEKA31011) 20 4010167 (XEKA32011) 26 4010167 (XEKA32011) 26 4010167 (XEKA32011) 26 Service Unit 4023607 (XEKA31101) 129 4023571 139 4023633 (XEKA33101) 180 4023635 (XEKA33103) 212 Downloads Technical Data BEKOMAT® 31U , PDF( Size: 761 KB ) Service Unit BEKOMAT® 31U , PDF( Size: 480 KB ) Technical Data BEKOMAT® 32U , PDF( Size: 777 KB ) Service Unit BEKOMAT® 32U , PDF( Size: 413 KB ) Technical Data BEKOMAT® 33U , PDF( Size: 1 MB ) Service Unit BEKOMAT® 33U , PDF( Size: 553 KB ) Catalog BEKOMAT® 31U, 32U, 33 U, PDF( Size: 368 KB )

Service unit BEKOMAT® Details information For BEKOMAT® 3 Preis (€) 3 CO Preis (€) 3 E Preis (€) 3 E 25 Preis (€) 3 E 63 Preis (€) Wearing part set 2800656 (XEKA03001) 88 2800670 (XEKA03015) 88 2800702 (XEKA03047) 125 2800702 (XEKA03047) 125 2800702 (XEKA03047) 125 Diaphragms 3 pcs 4002451 (XEKA00020)(4053197)148 4002451 (XEKA00020) (4053197) 148 4002451 (XEKA00020) (4053197) 148 2000439 160 2000439 160 Sealing kit 2800658 (XEKA03003) 26 2800671 (XEKA03016) 26 2800689 (XEKA03034) 50 2800703 (XEKA03048) 50 2800703 (XEKA03048) 50 Top cover 2800661 (XEKA03006) 90 2800661 (XEKA03006) 90 2800690 (XEKA03035) 90 2800690 (XEKA03035) 90 2800690 (XEKA03035) 90 Service air valve 2800663 (XEKA03008) 91 2800717 (XEKA03062) 110 2800663 91 2800717 (XEKA03062) 110 2800717 (XEKA03062) 110 Control air cap 2800665 (XEKA03010) 34 - - - - - - - - Valve 2800664 (XEKA03009) 214 2800673 (XEKA03018) 335 2800693 (XEKA03038) 429 2800705 (XEKA03050) 446 2800718 (XEKA03063) 355 Upper housing 2800667 (XEKA03012) 321 2800674 (XEKA03019) 423 2800696 (XEKA03041) 2452 2800696 (XEKA03041) 2452 2800719 (XEKA03064) 2469 Bottom housing 2800668 (XEKA03013) 139 2800675 (XEKA03020) 234 2800720 (XEKA03065) 1578 2800720 (XEKA03065) 1578 2800720 (XEKA03065) 1578 Sensor board 230 VAC 2800659 (XEKA03004) 341 2800659 (XEKA03004) 341 2800659 (XEKA03004) 341 2800659 (XEKA03004) 341 2800659 (XEKA03004) 341 Sensor board 100 VAC 2002200 (XEKA03190) 341 2002200 (XEKA03190) 341 2002200 (XEKA03190) 341 2002200 (XEKA03190) 341 2002200 (XEKA03190) 341 Sensor board 110 VAC 2800698 (XEKA03043) 341 2800698 (XEKA03043) 341 2800698 (XEKA03043) 341 2800698 (XEKA03043) 341 2800698 (XEKA03043) 341 Sensor board 24 VAC 2800699 (XEKA03044) 341 2800699 (XEKA03044) 341 2800699 (XEKA03044) 341 2800699 (XEKA03044) 341 2800699 (XEKA03044) 341 Sensor board 24 VDC - - - - - - - - - -

Service unit BEKOMAT® Details information For BEKOMAT® 6 CO Preis (€) 6 E 25 Preis (€) Wearing part set 2800670 (XEKA03015) 88 2800702 (XEKA03047) 125 Diaphragms 3 pcs 4002451 (XEKA00020) (4053197) 148 2000439 160 Sealing kit 2800658 (XEKA03003) 26 2800703 (XEKA03048) 50 Top cover 2800661 (XEKA03006) 90 2800690 (XEKA03035) 90 Service air valve 2800663 (XEKA03008) 91 2800717 (XEKA03062) 110 Control air cap 2800665 (XEKA03010) 34 - - Valve 2800664 (XEKA03009) 214 2800705 (XEKA03050) 446 Upper housing 2800789 (XEKA06001) 423 - - Bottom housing 2800790 (XEKA06002) 975 - - Sensor board 230 VAC 2800796 (XEKA06008) 341 2800796 (XEKA06008) 341 Sensor board 100 VAC - - - - Sensor board 110 VAC 2800804 (XEKA06016) 341 2800804 (XEKA06016) 341 Sensor board 24 VAC 4010781 (XEKA06017) 342 4010781 (XEKA06017) 342 Sensor board 24 VDC 2800806 (XEKA06018) 341 2800806 (XEKA06018) 341

Replacement filter sets for ÖWAMAT ® 1-2-3-4-5-5R-6-8-20 OEKOSORB ®: Replacement filter sets for ÖWAMAT ® 1-2-3-4-5-5R-6-8-20 Original OEKOSORB® replacement filters Original filters guarantee high performance, operational safety and compliance with water protection legislation. OEKOSORB® filter kit Like all high-performance units, the ÖWAMAT® needs to be serviced. Our filter kits make this an easy task. If you require assistance, contact our service technicians, who are also qualified to examine and assess your entire compressed air system for further optimisation. for ÖWAMAT ® 1/2 3 4 5 5R 6 8 20 Prefilter (l) 1 x 2 – 1 x 4,5 – 1 x 9 1 x 9 1 x 30 – Main filter (l) 1 x 3 1 x 15 1 x 8 2 x 18 1 x 17 2 x 17 2 x 45 1 x 82 Weight (kg) 1 2,5 3 7,5 4,5 9 25 23 Order No. 4027544 (XVKT02AF1) 4027548 (XVKT03AF1) 4027550 (XVKT04AF1) 4027554 (XVKT05AF2) 4027556 (XVKT5RAF1) 4027557 (XVKT06AF2) 4027562 (XVKT08AF2) 4027546 (XVKT20AF1) Price (€) 101 150 178 322 224 375 927 675   Downloads Catalog OEKOSORB®, PDF (Size: 75 KB) Catalog Oil water separator , PDF( Size: 309 KB )

OEKOSORB ®: Replacement filter sets for ÖWAMAT ® 10-11-12-14-15-16 Extended warranty The oil-water separator, high-performance quality product comes with a 2-year warranty. To ensure trouble-free and efficient operation use only original components. Operation with third-party components or consumables shall void the warranty.   for ÖWAMAT ® 10 11 12 14 15 16 Prefilter (l) 1 x 2,5 1 x 4,7 1 x 2,5 1 x 6,7 1 x 18,5 1 x 37,2 Main filter (l) 1 x 2,6 1 x 4,8 1 x 5,9 1 x 11 1 x 20,4 1 x 40,3 Weight (kg) 0,5 1,98 1,98 3,38 6,03 11,12 Order No. 4010719 (XVKT10BF1) 4011999 (XVKT11BF1) 4010711 (XVKT12CF1) 4010712 (XVKT14CF1) 4010713 (XVKT15CF1) 4010714 (XVKT16CF1) Price (€) 105 140 171 237 384 648   Downloads Catalog OEKOSORB®, PDF (Size: 75 KB) Catalog Oil water separator , PDF( Size: 309 KB )

One cartridge fits all QWIK-PURE® models This facilitates procurement, stock-keeping and avoids wrong orders.  Ergonomically designed When developing the cartridges, we primarily thought about the users: The inlet tube was designed as a handy and stable handle so that the cartridge can be easily transported and mounted. Thanks to the controlled drainage, even a fully saturated cartridge weighs less than 25 kg. Clean cartridge change A reliable closing valve is integrated in the base so that nothing drips onto the floor after changing the cartridge. The blind plugs supplied for the upper openings ensure that no liquids can escape there either. Consistently hygienic Due to the hermetically sealed design, neither users nor service personnel come into contact with the absorbed substances inside. Everything that has been bound in the pre-filter and main filter reliably remains here and does not contaminate people in the vicinity or the discharged processed condensate.Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB )

QWIK-PURE ® 30 to 60 or 60 to 90 This supplementary unit is simply plugged in at the side. The extended capacity is entered in the control unit and the additional power is available. In addition to the base plate, 4 or 6 new cartridges are included in this package. When attached, the new capacity is 60 m³/min or 90 m³/min. Downloads QWIK-PURE® Catalog, PDF( Size: 3.8 MB )