KR200322083Y1 - all-purpose solenoid valve - Google Patents

Abstract

The present invention is to control the air solenoid valve, that is, the flow of air by the force of the electromagnetic force, and to control the low-pressure air in addition to the medium and high pressure air.

Its structure consists of an electromagnet in which coils are wound at both ends, and a valve is mounted at the center so that the O-ring with permanent magnet can move left and right inside the valve cylinder. The permanent magnet is pushed and pulled by the force of the magnetic field. At this time, the O-ring moves in the same manner as the permanent magnet in the valve cylinder, and the O-ring opens and closes the through hole to control air. When the electric signal boils, the permanent magnet is fixed to the electromagnet, so it will work even if you send an electric signal for a certain time.

This can be used at all pressures, unlike conventional solenoid valves operating above a certain pressure, which also saves energy.

Description

All-purpose solenoid valve

The present invention can control the air at all pressures, unlike conventional solenoid valves operating above a certain pressure.

In general, the existing air solenoid valve moves the O-ring by the force of air when an electric signal is applied to the solenoid valve. At this time, the O-ring needs a certain pressure or more to operate. Have become

The present invention has been proposed to solve the above problems, the purpose of which is that the structure is simple, it is operated only by the instantaneous electrical signal, and to control the air at all pressures.

1 is an internal cross-sectional view of a multipurpose solenoid valve

2 is an internal cross-sectional view of a modified multipurpose solenoid valve

3 is an exemplary view of a conventional solenoid valve

<Explanation of symbols for main parts of drawing>

1.valve body 5.valve cylinder

20.21. Permanent Magnet A.B 2.3.4. Through Hole (A.B.C)

22.24. O-ring (A.B) 25.O-ring Support

30.31. Coil (A.B) 32.33 Electromagnet (A.B)

In order to achieve the above object, the O-rings 22 and 24 are mounted inside the O-rings 22 and 24 so that the valve body 1 is fixed to the center and the left and right linear movements are performed inside the valve cylinder 5. Permanent magnets AB (20, 21) are fixed at both ends by an O-ring support (25). Fix the electromagnet AB (32,33) wound coil (30,31) at a certain distance on both ends of the valve body and push the permanent magnet to the electrical signal and pull it through the movement of the O-ring (22,24) It is characterized by opening and closing a sphere.

Below. The multipurpose air solenoid valve according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawings, the multi-purpose air solenoid valve according to the embodiment of the present invention is composed of the valve body 1, the flow portion, the electromagnetic valve. The valve body 1 is generally made of aluminum, but may be of different materials depending on the special use. The valve body 1 is cylindrically penetrated and surface-treated so that the O-rings 22 and 24 can reciprocate. And through the through holes (2, 3, 4) at a certain distance so that the air flows are arranged. The through holes 2, 3 and 4 can be increased or decreased in number depending on the intended use. The air solenoid valve illustrated in FIG. 1 is provided with three through holes, and FIG. 2 may be provided with five through holes to control air.

In the flow part, the permanent magnets 20 and 21 are disposed at both ends of the O-ring support 25, and the O-rings 22 and 24 are arranged in the center by the distance of the through-hole 3 and the through-hole 4. do. For example, when the center distance between the through hole 3 and the through hole 4 is 20 mm, the center distance between the O-ring 22 and the O-ring 24 may be 20 mm.

The electromagnets 32 and 33 wound around the coils 30 and 31 are fixedly installed at both ends of the valve body 1 at both ends, and the coils 30 and 31 may be wound in accordance with the intended use.

As shown in FIG. 1, when a DC power is applied to the coils 30 and 31, a magnetic field of the S pole is generated at the end of the electromagnet 33 when N magnetic field is generated at the end of the electromagnet 32. Permanent magnets 20 and 21 installed at both ends of the negative are attached with the same polarity facing each other, so that the magnetic field of N generated in the electromagnet 32 pushes the N magnetic field of the permanent magnet 20, and the electromagnet 33 S magnetic field generated in) will attract the N magnetic field of the permanent magnet (21). At this time, the positions of the O-rings 22 and 24 are as shown in FIG. 1: A, so that air may flow into the through hole 2 and the through hole 4, and the through hole 3 may flow to the right side of the valve body. When the DC power is applied to the coils 30 and 31 in reverse as shown in Fig. 1B, the magnetic field of the S pole is generated in the electromagnet 32, and the permanent magnet 20 of the N pole is pulled, and the N pole is provided to the electromagnet 33. The magnetic field is generated to push the permanent magnet 21, the position of the O-ring is reversed, the air flows through the through hole 2 and the through hole 3, the through hole 4 is the right side of the valve body (1) To flow. At this time, when the current applied to the electromagnets 32 and 33 boils, the magnetic field of the permanent magnet 20 is fixed to the iron core of the electromagnet 33. As such, the moving part is fixed by the momentary current force.

As illustrated in FIG. 3, when an electrical signal is applied to the solenoid valve 40, the solenoid valve 40 pulls the iron core 47 to open and close the opening / closing 50. At this time, the O-ring 49 is pushed by the pressure of the air, and when the electrical signal is boiled, the opening and closing port 50 is closed and the air pressure is lost in the O-ring 49. At this time, the flow portion is restored by the force of the spring 46. As such, the existing solenoid valve 40 needs more than a predetermined air pressure and must supply continuous electricity to move the flow part.

As described above, the conventional solenoid valve has a problem in that it is necessary to supply a predetermined pressure or continuous electricity.

Multi-purpose solenoid valve according to the present invention as described above is to control all the air, there is an effect of operating by the momentary electric power

The present invention has been described with reference to the embodiments shown in the accompanying drawings, which are exemplary and will be understood by those of ordinary skill in the art that various modifications and equivalent embodiments thereof are possible. . Therefore, the true scope of the present invention should be defined only by the appended claims.

Claims (3)

A multipurpose solenoid valve for controlling air at all pressures; Permanent magnet placed in the valve cylinder with an O-ring facing the same magnetic field at both ends of the O-ring support; Install the electromagnet at a certain distance on both ends of the permanent magnet and apply DC power to generate the opposite magnetic field at the inner end of the electromagnet. When the power is momentarily applied, the O-ring support on which the permanent magnet is attached by the opposite magnetic field is pushed in the opposite direction, and the O-ring opens and closes the through hole to control the flow of air. The method of claim 1, In addition to the multi-purpose solenoid valve body-a multi-purpose solenoid valve for controlling the air by installing a plurality of through-holes and O-rings; delete