RO110088B1 - Electromagnetic valve - Google Patents

Abstract

The electromagnetic valve conforms of the invention, is used in pneumatic and pneumatic installations hydraulic, ensuring release or blocking automatic pressure fluids. valve electromagnetic means according to the invention is composed from the main valve (1), which is actuated provided by the intermediate valve (A), through via the electromagnet (7). On driving of the electromagnet (7), the opening (b) practiced in the intermediate valve (A), which is below the effect of the pressure difference releases the hole (d), at which time due to the difference in section Between openings (d and e) opening occurs main valve, electromagnetic valve. The size of the holes (d and e) that determine the time response is no longer dependent on force actuator electromagnet, they can be appropriate dimensions for different ones viscosities of the working fluid. For action intermediate valve because it works with volumes small fluid, small holes can be used depression making possible use low force electromagnets and interfaces small.

Description

The invention relates to an electromagnetic valve, used as an automatic execution element in pneumatic and hydraulic installations.

The piloted electromagnetic valves are known, in which the actuation of the valve itself is preceded by the actuation of a pilot valve, which creates a pressure difference on the main valve, leading to its actuation in the direction of opening or closing.

The disadvantages of this type of electromagnetic valve are:

- limiting the use of this type of electromagnetic valve for fluids with high viscosities;

- increase the response time to the actuator, compared to those with direct or forced actuation

The electromagnetic valves, according to the invention, remove these disadvantages by the fact that an intermediate valve, actuated by the pressure difference and controlled by the electromagnet of the pilot valve, was provided between the pilot valve and the main valve.

Due to this principle, the control ports for the main valve are no longer limited by the force of the electromagnet. The holes being large, increase the response speed and widen the range of use of the electromagnetic valve from the point of view of the viscosity of the working fluids.

The depressurization chamber between the intermediate valve and the pilot valve being of small volume allows the use of the depressurizing holes of small dimensions, without increasing the response time, and they make possible the use of the electromagnets of reduced force, for the action of the electromagnetic valves of high pressures and large diameters of passage. .

The object of the invention is to reduce the response time, to widen the range of use of the electromagnetic valves, regarding the viscosity of the working fluid, and to reduce the copper consumption for the electromagnet.

The problem solved by the present invention is the creation of a double pilot electromagnetic valve, which, for the same parameters regarding the working pressure and the diameter of passage, operate on fluids with higher viscosities and with shorter response times.

By applying the invention, the following advantages are obtained:

- reducing the consumption of copper coil on the actuator electromagnet;

- decrease of the response time, both at closing and at opening;

- widening the field of use, regarding the viscosity values of the working fluids.

The following is an example of an embodiment of the invention, with reference to the figure, which represents a section of the electromagnetic valve.

The electromagnetic valve, according to the invention, is composed of a body of the valve 1, the valve itself, composed of a valve 2, a spacer 3, an actuating membrane 4, protected by a protective disc 5 and a return spring 6 The pre-control valve is composed of an actuating electromagnet 7, mounted on a cover 8 of the main valve, by means of a connecting piece 9.

In the absence of supply voltage, port b is blocked by a valve from a plunger 10. The pressure enters through the port e above the membrane 4 and holds the main valve in the closed position.

By supplying the electromagnet 7 with voltage, the plunger 10 is drawn and the hole b is released. Due to the difference in cross-section between orifice b and orifice a, there is a pressure difference on the two sides of the intermediate valve A, which causes a force to move the intermediate valve A in the direction of opening the hole d. Due to the corresponding sizing of the holes c and d, there is a pressure difference on the two sides of the membrane 4, which creates the force required to open the main valve.

When the plunger 10 is interrupted, it returns to its initial position, blocking the b-hole, the pressure above the intermediate valve A, which, in turn, blocks the d-hole, increasing the pressure above the membrane 4, which leads to the closing of the main valve, and with the help of the spring. return 6, also ensures the contact pressure between valve 2 and the valve seat, necessary to ensure the tightness of the working fluid.

Claims (2)

Claims 5 1. Electromagnetic valve, composed of the valve body and the pre-control valve, characterized in that the actuating electromagnet (7) acts on the intermediate valve 10 (A), which slides into the slot provided in the connecting piece (9), provided with the holes precommand (a and c) and which, driven by the pressure difference, releases the hole (d). Main valve, according to claim 1, characterized in that it is composed of the valve (2) and the disc (5), provided with the inlet port (d), the connecting part between the valve and the actuating membrane is provided with the port main pressurization (s).