Shaft Encoders: Accessory Measuring wheel
Shaft Encoders: Accessory M4 Mounting Flange
The IG07 is a robust incremental encoder with through hollow shaft, which is nearly indestructible even under the harshest ambient conditions. Shaft Encoders: Heavy Duty Aluminum Hollow Shaft Encoder, dual channel and zero ref.
The IG07 is a robust incremental encoder with through hollow shaft, which is nearly indestructible even under the harshest ambient conditions.Shaft Encoders: Heavy Duty AluminumHollow Shaft Encoder, dual channel
The IG07 is a robust incremental encoder with through hollow shaft, which is nearly indestructible even under the harshest ambient conditions.Shaft Encoders: Heavy Duty AluminumHollow Shaft Encoder
Shaft Encoders: AccessoryM2 Mounting flange
Shaft Encoders: AccessoryBearings for high REVS, (15mm hollow shaft)
Hollow Shaft Encoder, dual channel and zero ref.The IG06 incremental encoder features a low-cost design with through hollow shaft and can be mounted easily.
Hollow Shaft EncoderThe IG06 incremental encoder features a low-cost design with through hollow shaft and can be mounted easily.
Hollow Shaft Encoder, dual channel The IG06 incremental encoder features a low-cost design with through hollow shaft and can be mounted easily.
Ultrasonic flow meters of the type-series FLOMIC FL3085 are intended for measurement and storage of data of instantaneous flow rate and total volume of the liquid passed through the metering point in fully flooded piping of large sizes. Of the measured fluid it is only required that it allows for undisturbed propagation of ultrasonic waves.The high measurement accuracy is achieved thanks to the calibration of the flow meters performed on a test rig. The FLOMIC FL3085 flow meters do not require an external power source. They have equipped by internal battery and they can be installed anywhere without availability of external power, the guaranted battery life time is 4 years.The electronic accessories of the meter make possible, apart from measurement and visualization of the data on instantaneous flow rate and aggregate volume of the fluid passed through the meter, storage of the data measured in regular intervals in own data logger, and data communication via standard electrical outputs to a master control system.
FLOMIC FL3005 are ultrasonic flow meters for convenient measurements of instantaneous flow rate and flow volume values on big diameters pipelines up to 2000mm; the measured data are easy to read, and the meter itself is very reliable and requires only simple maintenance procedures. FLOMIC FL3005 are installed directly to existing pipeline and theoretical calibration is made after instalation.They have equipped by internal battery and they can be installed anywhere without availability of external power.
nduction flow meters of the FLONET FH10XX.1 type series are intended for professional application and measurement of flow rates of electrically-conductive liquids in water and heat-supply systems, food-processing and chemical industries. They meet the most demanding requirements on high measurement accuracy, long-term stability and hygienic standard. The converter provides for sensor energizing and processing of the sensor signals, and also offers functions of liquid batching control, detection of empty piping, internal meter status diagnostics, automatic counter cleaning and selection of flow units in data visualization. The flow meters have frequency, pulse and current outputs, as well as interfaces to the HART communication protocol.
Induction flow meters of the type series FLONET FS10XX are intended for professional flow-rate measurements of electrically conductive fluids including abrasive particles. The meters meet most demanding requirements regarding measurement accuracy and long-term parameter stability. Flow-rate measurements in both directions are possible. The flow sensors have excellent wear resistance and its effect on the fluid flow characteristic or pressure in the connecting piping is negligible. The associated electronic unit supplies power to the sensors unit and processes the flow-rate signals. The meters have current and frequency outputs. Communication with external devices is via the Hart communication protocol. The meter display information is in English
Induction flow meters of the FLONET FN20XX.1 type series are intended for professional application and measurement of flow rates of electrically-conductive liquids in water and heat-supply systems, food-processing and chemical industries. They meet the most demanding requirements on high measurement accuracy, long-term stability and hygienic standard. The converter provides for sensor energizing and processing of the sensor signals, and also offers functions of liquid batching control, detection of empty piping, internal meter status diagnostics, automatic counter cleaning and selection of flow units in data visualization. The flow meters have frequency, pulse and current outputs, as well as interfaces to the RS 232 and RS 485 communication lines.
The plastic level switch NKP is designed for economical control of liquids in vessels. Many industrial applications can be realized with two different plastic versions each with three different mountings. The switch is remarkable for its maintenance-free design, small dimensions and reed contacts with high switch capacity.
The switch is mounted on the side of the vessel. A hinged plastic float with a magnet floats up and down through the liquid level. The encapsulated reed contact is operated by the magnet. The switching function (N/O contact / N/C contact) is determined by the installation position. The switching function is reversed by simply rotating the switch through 180°.
The flow meter monitor PPS is a flow monitor for nominal pipe sizes greater than NW 32. Fluid flow (regardless of direction) deflects the paddle and over an eccentric movies a magnet fitted to a permanent magnet.
OverviewApplicationsMore information The operation of the model KAL-... electronic flow monitor is based on the calorimetric principle. The end face of the sensor is heated to a few degrees above the temperature of the flow medium. When the medium flows, the heat generated in the sensoris transferred to the medium, ie, the sensor is cooled. The cooling procedure is an accurate measure of the flow velocity. The sensor signal is compared with the reference data stored in microcontroller. An alarm signal and/or an analogue signal (4-20mA) that is proportional to the flow velocity is output if the actual flow velocity deviates from the desired flow velocity. The microcontroller allows the flow indicator to be easily claibrated and the temperature to be compeansted.
Function of the unit The electronic flow monitor model KAL-D...continuosly monitors flowing media. It finds service in all applications where flow currents with minimum pressure loss are to be accurately monitored. the one-part design of measuring probe considerably reduces dirt sensitivity Operating principle The electronic flow monitor model KAL-D....works according to the calorimetric principle. The sensor tip is heated to a few degrees above the temperature of the flowing medium. When the medium flows, heat generated in the probe is dissipated by the medium. In other words, the probe is cooled down. This coding sequence is a precise measure of the flow velocity. The sensor signal is compared with reference data stored in a microcontroller. An alarm signal is generated when the desired flow velocity is reached. Simple calibration and optimal temperature compensaiotion is achieved with a micro-controller. Temperature compensation Temperature compensation in the KOBOLD flow monitor is achieved by a microcontroller. All information necessary for temperature compensation is programmed at the factory. The devices can easily be adjusted by the customer to the process conditions. Due to the adaptation of the sensors to the operating data the sensors switch absolutley consistently even with large temperature gradient.
The operation of the model KAL-.... electronic flow monitor is based on the calorimetric principle. The end face of the sensor is heated to a few degrees above the temperature of the flow medium. When the medium flows, the heat generated in the sensor is transferred to the medium, ie, the sensor is cooled. The cooling procedure is an accurate measure of the flow velocity. The sensor signal is compared with the reference data stored in a microcontroller. An alarm signal and/or an analogue signal (4-20 mA) that is proportional to the flow velocity is output if the actual flow velocity devices deviates from the desired flow velocity. The microcontroller allows the flow indicator to be easily calibrated and the temperature to be compensated.
KOBOLD NBK bypass level indicators are used for continuous measurement, display and monitoring of liquid levels. The bypass tube is attached onto the side wall of the vessel.