Select the correct cylinder according to the following conditions:1. According to the type of cylinder:Choose the type o
One of the important parts of the pneumatic components is the cylinder. In order to ensure the normal use of the cylinde
REED SENSORSReed sensors have been in use for many years and are the most common type used in pneumatic cylinders. They'
How a Solenoid Works A solenoid is a coil of wire in a corkscrew shape wrapped around a piston, often made of iron. As
Advantages of pneumatic components: 1. Pneumatic device is simple in structure, light and easy to install and maintain.
In 2004, due to the persistence of the pneumatic industry, we established BLCH Pneumatic & Technology Co., Ltd. Suddenly
Rusting, power failure, irregular pressure, missing equipment, an incorrect amount of voltage or current, dirt stuck in the system and corrosion are some of the possible reasons why a solenoid valve may not properly close or open.
The solenoid valve should be installed with the inlet port (usually marked as port 1) connected to the upstream flow and the outlet port (usually marked as port 2) connected to downstream. Some solenoid valves will also be marked with an arrow on the body indicating the direction the media should flow.
One of the important parts of the pneumatic components is the cylinder. In order to ensure the normal use of the cylinder and avoid unnecessary situations, for the use of the pneumatic components and cylinder, let’s check the right way to use cylinder. When using the cylinder, the air quality requirements are very high. Clean, dry compressed air should be used. The air should not contain organic solvents, synthetic oils, salts, corrosive gases, etc., in order to avoid bottle and valve failure.
How do you reset a solenoid valve? On regular solenoid valves, it can be switched back to the operating position by energizing the solenoid, while on solenoid valves with latch-lock function it will not be so. After being energized, the valve must be manually reset by pushing the reset-knob
It works on the principle of electromagnetism. The electromagnetic field that creates the temporary magnetic field is energised when the relay's circuit detects the fault current. This magnetic field moves the relay armature to open or close connections.
Relays are fundamental components in electrical and electronic circuits that provide an efficient means of controlling electrical power. They are used for a wide variety of purposes, including switching high-voltage or high-current circuits, as well as providing isolation and protection in complex systems. Relays have a simple but powerful working principle that makes them reliable, flexible, and versatile. In this article, we will discuss the working principle of relays in detail.