ASCO solenoid valve SCG531C002MS

ASCO solenoid valve SCG531C002MS

ASCO Asca Electromagnetic Principles

When the ASCO Asca solenoid valve is working, the water to be tested enters through the water outlet, flows through the Pu network, and enters the user's required pipeline through the outlet for process shield ring. Impurities in the water are carried inside the test network. As the heart continues to circulate, more and more particles are left behind by the load, and the flow rate slows down. However, the incoming sewage still enters, and the wave holes become smaller and smaller, resulting in a pressure difference between the inlet and outlet. When the large pressure difference reaches the set value, the differential pressure transmitter sends an electrical signal to the controller, and the control system starts the driving motor to drive the shaft to rotate through the transmission component. At the same time, the sewage outlet opens and is discharged from the sewage outlet. After the filter screen is cleaned, the pressure difference drops to a small value, and the system returns to the initial filtering state. The system operates normally, and the filter is composed of a housing, a multi-element filter element, a backwash mechanism, and a differential pressure controller. The partition inside the shell divides its inner cavity into upper and lower necks, and the upper brain is equipped with multiple pass through cores, which provides ample space for accurate passage and significantly reduces the volume of the SCO Asca electromagnetic cigarette. The lower control is equipped with a backwash suction cup. During operation, the oil enters the lower chamber of the pump through the inlet and then enters the inner cavity of the core reducer through the partition hole. Impurities larger than the front and back of the filter element are intercepted, and the clean liquid passes through the peak barrier and reaches the upper chamber. Then, it is sent out from the outlet through the ASCO Asca electromagnetic width using a high-strength wedge-shaped mesh. The core is automatically cleaned through pressure difference control and timing control. When impurities accumulate on the surface of the ASCO Asca electromagnetic width, causing the inlet and outlet pressure difference to increase to the set value, or when the timer reaches the preset time, the electric control box sends a signal to drive the backwash mechanism. When the backwash suction cup is aligned with the inlet of the core, the exhaust smoke is turned on. At this time, the system releases pressure and discharges water. A negative pressure zone with a relative pressure lower than the water pressure outside the filter cartridge appears on the inside of the suction cup and filter cartridge, which causes some of the clean circulating water to flow from the outside of the filter cartridge into the inside of the filter cartridge. Impurities and particles adsorbed on the inner wall of the filter cartridge flow into the baffle with the water flow and are discharged from the exhaust valve. The specially designed filter creates a spraying effect inside the filter element, and any impurities will be washed away from the smooth inner wall.

When the pressure difference between the inlet and outlet of the ASCO Asca solenoid valve returns to normal or the timer set time ends, the material does not stop flowing throughout the entire process, and the backwash water consumption is reduced, achieving continuous and automated production. ASCO Asca solenoid valve is widely used in the fields of metallurgy, chemical industry, petroleum, papermaking, medicine, food, mining, power, and urban water supply, such as industrial wastewater, filtration of circulating water, regeneration of emulsions, treatment of waste oil, continuous casting water system and blast furnace water system in the entire industry, and descaling system with high temperature water. It is a highly efficient and easy to operate fully automatic flow-through device. The water to be treated by ASCO Asca solenoid valve enters the body through the inlet, and impurities in the water deposit on the stainless steel mesh, thereby generating pressure difference. By monitoring the pressure difference at the inlet and outlet through a pressure difference switch, when the pressure difference reaches the set value, the electronic controller sends a signal to the hydraulic control valve and drives the motor. After the installation of the equipment, technicians debug it, set the filtration time and cleaning conversion time, and the water to be treated enters the body through the inlet. The ASCO Asca electromagnetic amplifier starts to work normally. When the preset cleaning time is reached, the electronic controller sends signals to the hydraulic control valve and the driving motor, triggering the following actions: the motor drives the brush to rotate, cleaning the core, and at the same time, the control valve opens for sewage discharge. The entire cleaning process only lasts for a few tens of seconds. When the cleaning is completed, the control valve is closed, the motor stops rotating, and the system returns to its starting state, starting to enter the next working seat. The interior of the pump housing is mainly composed of coarse and fine nets. The suction pipe is composed of stainless steel brush or stainless steel suction nozzle, sealing ring, anti-corrosion coating, rotating shaft, etc.

ASCO solenoid valve SCG531C002MS