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Hydraulic pressure test pump 927 - Additel
Additel 927 Hydraulic Pressure Test Pump Oil/Water: -12.5 psi to 10,000 psi.
The 927 hydraulic pressure test pump from Additel, is a hand operated pressure pump designed to generate pressure from 85% vacuum to 10,000 psi (700bar).
With the patented screw press technology, high pressures can be easily generated, as well as increased and decreased smoothly. With no check valve (non-returning valve), the hydraulic pressure test pump from Additel avoids the troublesome leakage issues that is usually experienced with most hand pumps and allows for minimal maintenance. Two hand-tight quick connectors installed on the pump allow easy connecting and disconnecting to the test pump without the need for PTFE tape or wrenches. The 927 is an ideal comparison test pump for calibrating pressure measuring instruments such as test gauges, indicators or transducers in the field or laboratory.
The 927 hydraulic pressure test pump from Additel, is a hand operated pressure pump designed to generate pressure from 85% vacuum to 10,000 psi (700bar).
With the patented screw press technology, high pressures can be easily generated, as well as increased and decreased smoothly. With no check valve (non-returning valve), the hydraulic pressure test pump from Additel avoids the troublesome leakage issues that is usually experienced with most hand pumps and allows for minimal maintenance. Two hand-tight quick connectors installed on the pump allow easy connecting and disconnecting to the test pump without the need for PTFE tape or wrenches. The 927 is an ideal comparison test pump for calibrating pressure measuring instruments such as test gauges, indicators or transducers in the field or laboratory.
Hydraulic ultra-high pressure calibration pump ADT949 - Additel
Nowadays almost industries have pressure manometers, transducers and switchs that need to be calibrated or verified. For this purpose we need high accuracy standards to compare with and register the deviation. These standards can be used in the field handheld or in the lab bench.
The 949 hydraulic ultra-high pressure test pump is a hand operated pressure pump designed to generate pressure up to 40,000 psi (2,800 bar).
A specially designed shut-off valve makes the pressure as stable as possible during calibration. The 949 is an ideal comparison test pump for calibrating ultra-high pressure measuring instruments such as test gauges, indicators or transducers in the laboratory.
The 949 hydraulic ultra-high pressure test pump is a hand operated pressure pump designed to generate pressure up to 40,000 psi (2,800 bar).
A specially designed shut-off valve makes the pressure as stable as possible during calibration. The 949 is an ideal comparison test pump for calibrating ultra-high pressure measuring instruments such as test gauges, indicators or transducers in the laboratory.
Hydrostatic level sensor - LFH – SICK
The level probe LFH, from SICK, is a robust pressure transmitter for continuous level measurement.
The liquid column above the probe creates a hydrostatic pressure which is a direct indicator for the liquid level. Through its permanently connected
cable the LFH is submerged into the liquid to be monitored. Thus, the container wall does not need to be disturbed to fit a level sensor.
The liquid column above the probe creates a hydrostatic pressure which is a direct indicator for the liquid level. Through its permanently connected
cable the LFH is submerged into the liquid to be monitored. Thus, the container wall does not need to be disturbed to fit a level sensor.
iAssign technology for gas detection - Industrial Scientific
Easy User and Site Tracking
iAssign™ Technology tracks users and sites in real time helping you to identify and address hazards.
Gas detectors record basic information about gas hazards, but they don’t help you understand who was exposed and where. With iAssign™ Technology, available in the Ventis™ Pro Series, tracking people and location data is a quick and easy way to enhance your gas detection program.
iAssign™ Technology tracks users and sites in real time helping you to identify and address hazards.
Gas detectors record basic information about gas hazards, but they don’t help you understand who was exposed and where. With iAssign™ Technology, available in the Ventis™ Pro Series, tracking people and location data is a quick and easy way to enhance your gas detection program.
Identification systems RFID RFH5xx- SICK
The RFH5xx product family from SICK is the ideal solution for machines and systems in closed production and logistics processes in which objects have to be identified in tight spaces. The clearly defined detection ranges of these HF write/read devices enable reliable singulation of transponders, even at very small object distances.
Identification systems RFU65x - SICK
The measuring RFID device with integrated passage and direction detection.
The RFU65x RFID read/write device saves space, time, and costs when it comes to identifying vehicles and vehicle parts. This compact device is able to determine the angle from which the transponder responds. The RFU65x also features an integrated logic unit that processes data on the basis of algorithms. This makes it possible to deduce entry detection information plus a vehicle’s direction of movement when it drives through a receiving goods door, for example. Unlike other devices, the RFU65x does not require any additional external antennae. Not only does this cut down on costs, it also simplifies and accelerates application processes in logistics and the automotive industry.
The RFU65x RFID read/write device saves space, time, and costs when it comes to identifying vehicles and vehicle parts. This compact device is able to determine the angle from which the transponder responds. The RFU65x also features an integrated logic unit that processes data on the basis of algorithms. This makes it possible to deduce entry detection information plus a vehicle’s direction of movement when it drives through a receiving goods door, for example. Unlike other devices, the RFU65x does not require any additional external antennae. Not only does this cut down on costs, it also simplifies and accelerates application processes in logistics and the automotive industry.
IIoT gateway TDC - SICK
Think about your data – analye and act.
Making big data useable – optimized processes, highest quality, low costs.
In the age of Industry 4.0, automation and intelligent data management are strategic success factors and are decisive for the competitive edge and sustainability of the company.
The TDC (Telematic Data Collector) gateway system is an open IIoT platform that links sensors and machines together for reliable network communication.
Making big data useable – optimized processes, highest quality, low costs.
In the age of Industry 4.0, automation and intelligent data management are strategic success factors and are decisive for the competitive edge and sustainability of the company.
The TDC (Telematic Data Collector) gateway system is an open IIoT platform that links sensors and machines together for reliable network communication.
Image-based code readers Lector85x - SICK
The Lector85x image-based code from SICK reader is designed for very high scanning performance and equally high throughput. The small camera has a resolution of up to 12 megapixels, an enormous depth of field and field of view as well as very good computing power.
For reading stations, this means a compact design as well as fewer devices and installation work. When combined with AI-based segmentation, the camera reliably identifies codes even at conveyor speeds of up to 3.5 m/s and correctly assigns the codes to objects. This guarantees efficient identification processes and significantly reduces manual rework. The Lector85x can be intuitively configured using a web server and is ready for use within a few minutes – without the need for specialist knowledge.
For reading stations, this means a compact design as well as fewer devices and installation work. When combined with AI-based segmentation, the camera reliably identifies codes even at conveyor speeds of up to 3.5 m/s and correctly assigns the codes to objects. This guarantees efficient identification processes and significantly reduces manual rework. The Lector85x can be intuitively configured using a web server and is ready for use within a few minutes – without the need for specialist knowledge.
Impressão de etiquetas em rolo por transferência térmica mp-TM EOS2 – Murrplastik
In module - INP04 - Qbus
Module for connecting external contacts such as regular switches and push buttons, solar/wind detector, motion detector, smoke detectors,…
On the INP04, 4 potential free contacts and 4 low current LEDs (2mA without serial resistor) can be connected. The maximum length of the conductor between the INP04 and the potential free input is 20 meters. The cable type or its section is irrelevant.
On the INP04, 4 potential free contacts and 4 low current LEDs (2mA without serial resistor) can be connected. The maximum length of the conductor between the INP04 and the potential free input is 20 meters. The cable type or its section is irrelevant.
In module INP02 - Qbus
Module for connecting external contacts such as regular switches and push buttons, solar/wind detector, motion detector, smoke detectors, …
On the INP02, 2 potencial free contacts and 2 low corrent LEDs (2mAwithout serial resistor) can be connected. The maximum length of the conductor between the INP02 and the potencial free input is 20 meters. The cable type or its section is irrelevant.
On the INP02, 2 potencial free contacts and 2 low corrent LEDs (2mAwithout serial resistor) can be connected. The maximum length of the conductor between the INP02 and the potencial free input is 20 meters. The cable type or its section is irrelevant.
IN SITU gas analyser GM32 – SICK
The GM32 is a In situ gas analyzer for SO2, NO, NO2, NH3, Temp., O2 (Option)
The GM32 in-situ gas analyzer measures the reactive gases SO2, NO, NO2 and NH3 as well as pressure and temperature in the gas duct - directly, fast and without gas sampling and transport. With this your process systems work with the true values in “real time”. Thanks to self-monitoring you can rely on the measurement results at any time. And in case of a malfunction an early warning will be shown in time. For emission measurement of SO2 and NO, GM32 is tested for suitability according to the new European standard EN 15267-3.
The GM32 in-situ gas analyzer measures the reactive gases SO2, NO, NO2 and NH3 as well as pressure and temperature in the gas duct - directly, fast and without gas sampling and transport. With this your process systems work with the true values in “real time”. Thanks to self-monitoring you can rely on the measurement results at any time. And in case of a malfunction an early warning will be shown in time. For emission measurement of SO2 and NO, GM32 is tested for suitability according to the new European standard EN 15267-3.
IN SITU gas analyser GM35 – SICK
GM 35 In situ gas analyzer for carbon monoxide, carbon dioxide and water.
Either simultaneously or as individual measurements: the GM35 measures CO, CO2 and humidity concentrations as well as temperature and pressure quickly, easily and economically. Due to its in-situ measurement technology the GM35 detects the measuring values directly in the gas stream without gas sampling. Reliability, precision and short response time of the analyzer offer a key advantage for efficient control loops in all CO and CO2 generating processes.
Either simultaneously or as individual measurements: the GM35 measures CO, CO2 and humidity concentrations as well as temperature and pressure quickly, easily and economically. Due to its in-situ measurement technology the GM35 detects the measuring values directly in the gas stream without gas sampling. Reliability, precision and short response time of the analyzer offer a key advantage for efficient control loops in all CO and CO2 generating processes.
IN SITU gas analyser GM700 - SICK
Measurement of gaseous components under difficult conditions In-situ and extractive technology.
High reliability and precision as well as minimal response times are the distinguishing features of the GM700 Laser gas analyzer. Based on the principle of TDLS and by using specific light absorption the GM700 from SICK is able to measure several gas components, such as NH3, HF, O2 or HCl.
The in-situ measurement is ideal for the fast determination of gas concentrations in process control and emission monitoring.
High reliability and precision as well as minimal response times are the distinguishing features of the GM700 Laser gas analyzer. Based on the principle of TDLS and by using specific light absorption the GM700 from SICK is able to measure several gas components, such as NH3, HF, O2 or HCl.
The in-situ measurement is ideal for the fast determination of gas concentrations in process control and emission monitoring.
In/Out module - ROL01 - Qbus
The ROL01 is a decentral module, suitable for switching 1 motor and contains a connector to which two potential free inputs (e.g. pushbuttons) can be connected. The module fits in a standard flush-mounted socket which guarantees easy connection with potential push-buttons and the outputs.
The relay module has 2 potential-free contacts (1 UP, 1 DOWN) which can control 1 motor of max 3,5A at 230V (cosj=1) / 30 Vdc.
The relay module has 2 potential-free contacts (1 UP, 1 DOWN) which can control 1 motor of max 3,5A at 230V (cosj=1) / 30 Vdc.
In/Out module REL02 - Qbus
The REL02 is a decentralmodule, suitable for switching 2 circuits and contains a conector to which two potencial free inputs (e.g. push buttons) can be connected. The module fits in a standard flush-mouted socket which guarantees easy connectionwith potencial push-buttons and the outputs.
The relay module has 2 potencial-free, normally open contacts which can each connect max. 8A at 230V (cos ɸ = 1) / 30Vdc.
The relay module has 2 potencial-free, normally open contacts which can each connect max. 8A at 230V (cos ɸ = 1) / 30Vdc.
Inclination sensors TMS/TMM22 - SICK
The rugged all-rounder for inclination measurement.
The TMS22 (single-axis) and TMM22 (dual-axis) inclination sensors provide cost-effective, high-precision inclination measurements. The foundation for this is powerful MEMS technology, which scores points with a error tolerance of ± 0.25° and excellent repeatability.
The TMS22 (single-axis) and TMM22 (dual-axis) inclination sensors provide cost-effective, high-precision inclination measurements. The foundation for this is powerful MEMS technology, which scores points with a error tolerance of ± 0.25° and excellent repeatability.
Inclinometers - TMS/TMM61 – SICK
Precise inclination measurement in a compact design.
The TMS61 one-dimensional inclination sensor and the TMM61 two-dimensional inclination sensor are setting new standards with respect to size, flexibility, and performance. In their small, rugged plastic housings, the sensors offer excellent resolution and accuracy – what's more, this is achieved over the entire measuring range and in an extremely wide range of ambient conditions. The CANopen interface enables a whole host of device parameters to be adapted, allowing the sensor to be perfectly tailored to the application. The new PGT-12-Pro handheld programming tool from SICK makes configuration much easier. As a result, the user is ready to go in just a few clicks and can cut out the time-consuming task of configuring the sensor via the control system.
The TMS61 one-dimensional inclination sensor and the TMM61 two-dimensional inclination sensor are setting new standards with respect to size, flexibility, and performance. In their small, rugged plastic housings, the sensors offer excellent resolution and accuracy – what's more, this is achieved over the entire measuring range and in an extremely wide range of ambient conditions. The CANopen interface enables a whole host of device parameters to be adapted, allowing the sensor to be perfectly tailored to the application. The new PGT-12-Pro handheld programming tool from SICK makes configuration much easier. As a result, the user is ready to go in just a few clicks and can cut out the time-consuming task of configuring the sensor via the control system.
Inclinometers - TMS/TMM88 - SICK
High-precision inclination measurement for harsh ambient conditions.
The TMS88 one-dimensional inclination sensor and the TMM88 two-dimensional inclination sensor take measurements with an accuracy of up to +/- 0.02°. The inclination value is provided either via a current or voltage interface with a linearized output signal or via a standardized CANopen interface. The PGT-12-Pro handheld programming tool allows the inclination sensors to be configured with ease, tailoring them perfectly to the application.
The sensors are available in UV-resistant plastic housings and in rugged aluminum housings.
The TMS88 one-dimensional inclination sensor and the TMM88 two-dimensional inclination sensor take measurements with an accuracy of up to +/- 0.02°. The inclination value is provided either via a current or voltage interface with a linearized output signal or via a standardized CANopen interface. The PGT-12-Pro handheld programming tool allows the inclination sensors to be configured with ease, tailoring them perfectly to the application.
The sensors are available in UV-resistant plastic housings and in rugged aluminum housings.
Inclinometers TMM55 - SICK
Small, light, and rugged!
The TMM55 inclination sensors are characterized by their compact design and ruggedness. As well as simple 4-hole mounting, the M12 male connector on the cable outlet also offers a great deal of flexibility when mounting the sensor mechanically. With their rugged and UV-resistant plastic housings, the inclination sensors are also ideally suited to outdoor use. The information about the inclination angle is transmitted via analog current or voltage signals. To ensure high levels of accuracy, the inclination sensors are calibrated at the factory.
The TMM55 inclination sensors are characterized by their compact design and ruggedness. As well as simple 4-hole mounting, the M12 male connector on the cable outlet also offers a great deal of flexibility when mounting the sensor mechanically. With their rugged and UV-resistant plastic housings, the inclination sensors are also ideally suited to outdoor use. The information about the inclination angle is transmitted via analog current or voltage signals. To ensure high levels of accuracy, the inclination sensors are calibrated at the factory.
Incremental encoder DBS60 - SICK
Rugged, versatile incremental encoder for industrial applications.
The DBS60 Core is a rugged incremental encoder with a diameter of 58 mm and a compact mounting depth. It offers a large range of mechanical and electrical interfaces.
The high IP65 protection rating and the large bearing distance make this a rugged and reliable solution, even at high shaft loads. With a resolution of up to 5,000 pulses, the DBS60 Core is the ideal product for standard applications in a range of different industries.
The DBS60 Core is a rugged incremental encoder with a diameter of 58 mm and a compact mounting depth. It offers a large range of mechanical and electrical interfaces.
The high IP65 protection rating and the large bearing distance make this a rugged and reliable solution, even at high shaft loads. With a resolution of up to 5,000 pulses, the DBS60 Core is the ideal product for standard applications in a range of different industries.
Incremental encoder DBV50 Core - SICK
Compact measuring wheel system that is highly flexible and easy to mount.
The DBV50 Core measuring wheel encoder is a measuring wheel system for measuring linear movements. It consists of the DBS50 Core incremental encoder, an aluminum measuring wheel with a 200 mm diameter and a spring-loaded arm. The maximum resolution is 0.08 mm per pulse.
The spring arm has a maximum spring travel of 14 mm, a maximum spring force of 20 N and features a convenient pretension setting for repeatably setting the spring pretension. A spring travel limiter protects the spring from being overloaded.
The DBV50 Core measuring wheel encoder is a measuring wheel system for measuring linear movements. It consists of the DBS50 Core incremental encoder, an aluminum measuring wheel with a 200 mm diameter and a spring-loaded arm. The maximum resolution is 0.08 mm per pulse.
The spring arm has a maximum spring travel of 14 mm, a maximum spring force of 20 N and features a convenient pretension setting for repeatably setting the spring pretension. A spring travel limiter protects the spring from being overloaded.
Incremental encoder DGS80 - SICK
The DGS80 is an incremental encoder with large hollow shaft diameters up to 42 mm. It can be used in countless industrial automation applications.
Combined with the many connection options of the DGS80, its supply voltage range of 5 V to 30 V facilitates integration into most control systems. The incremental encoder is characterized by quick and easy installation: This is made possible by its compact design, the clamping ring for speedy mounting, the universal stator couplings and the large selection of collets that simplify mounting on shafts of different size.
Combined with the many connection options of the DGS80, its supply voltage range of 5 V to 30 V facilitates integration into most control systems. The incremental encoder is characterized by quick and easy installation: This is made possible by its compact design, the clamping ring for speedy mounting, the universal stator couplings and the large selection of collets that simplify mounting on shafts of different size.
Incremental Encoder DUS60 – SICK
Encoders with versatile configuration for machine axes applications.
The DUS60 by SICK is a rotary incremental encoder with built-in DIP switch configuration for the resolution, output voltage, and counting direction. The DUS60 configuration switches reduce the number of variants, enable easy replacement and quick commissioning, and increases the likelihood that spare parts will be in stock – all without any additional programming tools.
The on-board status and signal LEDs and optional fault output quickly indicate the functionality of the encoder, minimizing time required for both installation and troubleshooting.
The DUS60 by SICK is a rotary incremental encoder with built-in DIP switch configuration for the resolution, output voltage, and counting direction. The DUS60 configuration switches reduce the number of variants, enable easy replacement and quick commissioning, and increases the likelihood that spare parts will be in stock – all without any additional programming tools.
The on-board status and signal LEDs and optional fault output quickly indicate the functionality of the encoder, minimizing time required for both installation and troubleshooting.
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