Introduction to Visual Pollution Sensor
The visual pollution transmitter is designed to provide visual indication when it is necessary to clean or replace filter elements. When the hydraulic system is working, the filter element in the oil filter will intercept pollutants in the system, causing the filter element to gradually clog, resulting in a pressure difference between the inlet and outlet oil (i.e. filter element pressure loss). When the pressure difference increases to the set value of the transmitter, the transmitter will send a signal through a visual window or indicator light to remind the operator to clean or replace the filter element to ensure the safe operation of the system.
Performance characteristics of visual pollution transmitter
1. Stable and reliable action: The visual part adopts a transparent fully enclosed design to prevent dust and impurities from entering, avoiding blockage or stagnation of the visual action part, thus effectively avoiding phenomena such as no alarm or delayed alarm.
2. Accurate transmission value: During the start-up of the pressure system or instantaneous flow fluctuations, the visual pollution transmitter will not emit false signals, ensuring the accuracy of the indication.
3. Easy to observe: Through visual windows or indicator lights, operators can intuitively understand the degree of contamination of the filter element and take timely measures to clean or replace it.
4. Wide applicability: The visual pollution transmitter is suitable for various hydraulic systems, including oil return and suction filters, as well as occasions where the degree of filter element pollution needs to be monitored.
Scope of use of visual pollution transmitter
Visual pollution sensors are mainly used in the following fields:
1. Hydraulic system: used to monitor the degree of contamination of the filter element in the hydraulic system, ensuring the cleanliness of the hydraulic oil and the normal operation of the system.
2. Industrial equipment: In industrial equipment that requires maintaining fluid cleanliness, such as machine tools, injection molding machines, die-casting machines, etc., visual pollution sensors can be used to monitor the working status of filters.
3. Ship and Ocean Engineering: In ship and ocean engineering equipment, due to harsh environments, higher requirements are placed on hydraulic systems. Visual pollution sensors can be used to ensure the reliability and safety of hydraulic systems.
4. In other fields such as petroleum, chemical, metallurgical, etc., when it is necessary to monitor the content of pollutants in fluids, visual pollution sensors can also be used.