KR101032975B1 - solenoid valve - Google Patents

Abstract

The present invention relates to a solenoid valve to minimize the operation noise.

The present invention provides a sleeve (S) inserted into the casing (K), the coil (L) mounted on the outside of the sleeve (S), the core (C) inserted into the inner upper portion of the sleeve (S) and It is composed of a plunger (P) is inserted into the inner lower portion of the sleeve (S) to move up and down, the damping means is operated before the plunger (P) is in contact with the core (C) of the plunger (P) The rising speed is reduced to prevent a sudden collision between the core C and the plunger P at the end.

The damping means is an elastic body (T1) is inserted into the groove (P-2) formed inside the upper end of the plunger (P), the upper end of the elastic body (T1) is in contact with the lower surface of the core (C), The lower end of the elastic body T1 is in contact with the bottom surface of the groove (P-2) to be elastically supported.

Solenoid, valve, plunger, core

Description

Solenoid valve

The present invention relates to a solenoid valve, and more particularly to a solenoid valve to minimize the operation noise generated when the valve is operated.

In general, a solenoid valve is a combination of two basic parts that make up a valve body that includes a solenoid (electromagnet) with a magnetic core and one or more orifices.

The flow of fluid through the orifice is controlled by closing or opening the core by moving the solenoid when the current is applied or when the current is not.

1 is a cross-sectional view showing a conventional solenoid valve.

As shown in FIG. 1, the conventional solenoid valve A includes a sleeve S inserted into the casing K, a coil L mounted on the outside of the sleeve S, and the sleeve The core (C) inserted into the inner upper portion of S) and the plunger (P) inserted into the inner lower portion of the sleeve (S) to move up and down.

In the conventional solenoid valve, when it is operated (when the power is applied), the moment when it comes into contact with the plunger (P) and the core (C), the operating noise is generated.

Such noise is a serious problem in some noise-critical systems.

Therefore, various inventions have been proposed in the past to reduce such noise.

As a prior art, Korean Patent Application No. 10-2006-0075144 entitled `` Operating Noise Reduction Structure of PCSV for Automobile '' is published.

The prior art 10-2006-0075144 has a cylindrical bushing and has a structure for inserting a plunger inside the bushing, thereby reducing the diameter of the plunger, reducing the contact surface of the core, and impact noise by light weight This can be reduced.

 Meanwhile, as another prior art, Korean Utility Model Registration No. 0198093, “Operation Noise Attenuation Device for Solenoid Valve,” has been applied.

The 0198093 is a refrigerant inlet pipe and a refrigerant discharge pipe are respectively coupled to the upper body, the coupling portion is formed, the plunger is installed to be movable up and down inside the coupling portion, coupled to the upper end of the coupling portion It comprises a core and a magnet formed on the upper end of the coupling portion for vertical movement of the plunger.

In addition, the coupling groove of a predetermined depth is formed in the center of the upper end of the plunger, and the lower side of the core is formed in a 'T' shape, and the end part is partially inserted into the coupling groove to install a guider for guiding the up and down linear movement of the plunger. And, inside the coupling groove is to install a spring to apply elasticity in the direction of the plunger descending, the maximum compression height of the spring is greater than the depth of the coupling groove so that the upper surface of the plunger and the bottom of the core does not directly hit when the plunger is raised It is set to be high.

In addition, the Teflon valve body is formed on the lower side of the plunger to reduce the noise generated when the Teflon valve body contacts the outlet when the plunger descends, thereby significantly reducing the operation noise generated when the solenoid valve is operated up and down. I would have to.

 However, the above-mentioned prior arts have a problem that the suction force, initial actuation force, and operating speed of the solenoid are significantly reduced.

The present invention has been made to solve the above problems of the prior art, and provides a solenoid valve that can reduce operating noise by providing a damping means for absorbing a shock before the plunger and the core contact. There is a purpose.

In order to achieve the above object of the present invention, a sleeve inserted into the casing, a coil mounted on the outside of the sleeve, a core inserted into the inner upper portion of the sleeve, and inserted into and lowered from the inner lower portion of the sleeve A solenoid valve composed of an actuating plunger, wherein a damping means is operated before the plunger contacts the core to reduce the ascending speed of the plunger so that the core and the plunger do not strongly collide at the end. Can be achieved by a valve.

The damping means is an elastic body inserted into a groove formed inside the upper end of the plunger, the upper end of the elastic body is in contact with the lower surface of the core, the lower end of the spring is in contact with the bottom surface of the groove to be elastically supported. It is characterized by one.

The damping means is an elastic body formed at the lower end of the plunger, a lower groove formed in the lower portion of the sleeve, and inserted into the lower groove is inserted into the lower groove of the lower portion of the plunger, one end is supported by the round jaw to generate an elastic force It is characterized by that.

The damping means, the annular jaw formed in the lower end of the plunger, the lower end of the plunger is inserted into the lower end is supported on the annular jaw, the upper end is an elastic body that is supported by the lower end surface of the sleeve to generate an elastic force do.

The elastic body is characterized in that the alternative of the coil spring, plate spring, rubber spring.

According to the present invention, it is possible to reduce operating noise by providing a damping means for absorbing the impact before the plunger and the core abut.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 to 4 is a view showing a solenoid valve according to the present invention.

2 to 4, the solenoid valve according to the present invention, the sleeve (S) inserted into the casing (K), the coil (L) mounted on the outside of the sleeve (S), and The core C is inserted into the inner upper portion of the sleeve S, and the plunger P is inserted into the inner lower portion of the sleeve S to move up and down.

According to the present invention, when an operation signal is given, the plunger P is raised so that its upper surface is in contact with the lower surface of the core C.

At this time, the damping means is operated before the plunger (P) and the core (C) contact to reduce the rising speed of the plunger (P) so that the core (C) and the plunger (P) at the end do not collide The noise is reduced.

The damping means can be implemented in various embodiments, the present invention proposes three embodiments.

Example 1

2 is a view showing a solenoid valve according to a first embodiment of the present invention.

As shown in FIG. 2, the solenoid valve A1 of the present invention includes a sleeve S inserted into the casing K, a coil L mounted outside the sleeve S, and the sleeve. The core (C) inserted into the upper portion of the inner (S) and the plunger (P) is inserted into the inner lower portion of the sleeve (S) to move up and down.

The damping means is operated before the plunger P and the core C come into contact with each other.

The damping means is an elastic body (T1) is inserted into the groove (P-2) formed inside the upper end of the plunger (P), the upper end of the elastic body (T1) is in contact with the lower surface of the core (C), The lower end of the elastic body T1 is configured to be elastically supported in contact with the bottom surface of the groove (P-2).

The plunger P is provided with a return spring R that provides a force to move downward when the electromagnetic force is released.

The return spring (R) is inserted into the insertion hole (P-1) formed in the center of the plunger (P), the lower end is supported inside the insertion hole (P-1) and the upper end is the lower surface of the core (C) It is supported by the to provide an elastic force.

The groove (P-2) is formed in the upper portion of the insertion hole (P-1), the diameter is larger than the insertion hole (P-1) is formed, the upper portion is formed by opening.

Therefore, the elastic body T1 is inserted through the opened groove P-2, and the inserted elastic body T1 is coupled to the outside of the return spring R.

The elastic body T1 is preferably a coil spring, but is not necessarily limited thereto, and a plate spring or a rubber spring may be applied.

The plate spring is processed to have an elastic force by processing the metal plate in a coil shape, and the inside of the plate spring is similar in shape to a conventional spring washer having a passage through which the return spring R is inserted.

The rubber spring is a rubber material having elasticity and has a cylindrical shape formed therein with a passage into which the return spring R is inserted.

Therefore, according to the first embodiment A1, when the plunger P rises, the return spring R is first compressed, and after passing a certain point, the elastic body T1, which is a damping means, starts to be compressed. While reducing the ascending speed, the top of the plunger (P) is decelerated until just before reaching the bottom surface of the core (C) is almost no noise that the core (C) and the plunger (P) hit the end. .

Example 2

3 is a view showing a solenoid valve according to a second embodiment of the present invention.

As shown in FIG. 3, the solenoid valve A2 of the present invention includes a sleeve S inserted into the casing K, a coil L mounted on the outside of the sleeve S, and the slab. The core C is inserted into the inner upper portion of the rib S, and the plunger P is inserted into the inner lower portion of the sleeve S to move up and down.

The damping means is operated before the plunger P and the core C are contacted.

The damping means may include a round projection (P-3) formed at a lower end of the plunger (P), a lower groove (S-2) formed at a lower portion of the sleeve (S), and a lower outer side of the plunger (P). It is inserted into the lower groove (S-2) is inserted into the one end is supported by the annulus (P-3) is composed of an elastic body (T2) for generating an elastic force.

Since the round step P-3 has a larger diameter than the plunger P, the lower end of the elastic body T2 may be supported.

The lower groove (S-2) is formed slightly larger than the diameter of the annulus (P-3) so that the plunger (P) and the annulus (P-3) is inserted into the lower groove (S-2) to enable operation. Is set.

The elastic body T2 is selected from a coil spring, a plate spring or a rubber spring.

Since the operation relationship of the solenoid valve according to the second embodiment (A2) is also similar to the first embodiment (A1) described above, a detailed description thereof will be omitted.

Example 3

4 is a view showing a solenoid valve according to a third embodiment of the present invention.

As shown in FIG. 4, the solenoid valve A3 of the present invention includes a sleeve S inserted into the casing K, a coil L mounted outside the sleeve S, and the sleeve. The core (C) inserted into the upper portion of the inner (S) and the plunger (P) is inserted into the inner lower portion of the sleeve (S) to move up and down.

The damping means is operated before the plunger P and the core C are contacted.

The damping means, the round projection (P-3) formed at the lower end of the plunger (P), the lower end of the plunger (P) is inserted into the lower end is supported by the round projection (P-3), the upper end of the It is composed of an elastic body (T3) is supported on the bottom surface of the sleeve (S) to generate an elastic force.

Unlike the second embodiment A2, the third embodiment A3 does not form the lower groove S-2 in the sleeve S.

Especially important is to use a rubber spring as the elastic body (T3), the thickness of the rubber spring should be much smaller than the moving distance of the plunger (P).

Therefore, when the plunger P descends, the elastic body T3 descends, and when the plunger P rises, the upper end of the elastic body T3 collides with the lower end of the core C and starts to decelerate. Since the launcher (P) slowly rises until it is completely raised, noise can be suppressed.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be readily apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, all such modifications and modifications being attached It is obvious that the claims belong to the claims.

1 is a cross-sectional view showing a conventional solenoid valve.

2 is a view showing a solenoid valve according to a first embodiment of the present invention.

3 is a view showing a solenoid valve according to a second embodiment of the present invention.

4 is a view showing a solenoid valve according to a third embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

K: Casing S: Sleeve

L: Coil C: Core

P: Plunger T1-T3: Elastic Body

Claims (10)

The sleeve S inserted into the casing K, the coil L mounted on the outside of the sleeve S, the core C inserted inside the upper portion of the sleeve S, and the sleeve In the solenoid valve composed of the plunger (P) which is inserted into the inner lower portion of (S) to move up and down, It is installed between the plunger (P) and the core (C), and includes a damping means for reducing the rising speed of the plunger (P) so that the core (C) and the plunger (P) do not collide, The damping means is an elastic body (T1) is inserted into the groove (P-2) formed inside the upper end of the plunger (P), the upper end of the elastic body (T1) is in contact with the lower surface of the core (C), The lower end of the elastic body (T1) is elastically supported in contact with the bottom surface of the groove (P-2), Insertion hole (P-1) is formed in the center of the plunger (P), the return spring (R) is inserted into the insertion hole (P-1), The groove (P-2) is formed in the upper portion of the insertion hole (P-1), the diameter is formed larger than the insertion hole (P-1), the upper portion is formed by opening, The elastic body (T1) is a solenoid valve, characterized in that the alternative of the coil spring, plate spring, rubber spring. delete delete The sleeve S inserted into the casing K, the coil L mounted on the outside of the sleeve S, the core C inserted inside the upper portion of the sleeve S, and the sleeve In the solenoid valve composed of the plunger (P) which is inserted into the inner lower portion of (S) to move up and down, It is installed between the plunger (P) and the core (C), and includes a damping means for reducing the rising speed of the plunger (P) so that the core (C) and the plunger (P) do not collide, The damping means may include a round projection (P-3) formed at a lower end of the plunger (P), a lower groove (S-2) formed at a lower portion of the sleeve (S), and a lower outer side of the plunger (P). Is inserted into the lower groove (S-2) is inserted into the one end is supported by the annulus (P-3) includes an elastic body (T2) for generating an elastic force, The lower groove (S-2) is formed larger than the diameter of the round jaw (P-3) can be operated by inserting the plunger (P) and the round jaw (P-3) into the lower groove (S-2). Formed to The elastic body (T2) is a solenoid valve, characterized in that the alternative of the coil spring, plate spring, rubber spring. delete delete delete delete The sleeve S inserted into the casing K, the coil L mounted on the outside of the sleeve S, the core C inserted inside the upper portion of the sleeve S, and the sleeve In the solenoid valve composed of the plunger (P) which is inserted into the inner lower portion of (S) to move up and down, It is installed between the plunger (P) and the core (C), and includes a damping means for reducing the rising speed of the plunger (P) so that the core (C) and the plunger (P) do not collide, The damping means, the round projection (P-3) formed at the lower end of the plunger (P), the lower end of the plunger (P) is inserted into the lower end is supported by the round projection (P-3), the upper end of the Is composed of an elastic body (T3) is supported on the bottom surface of the sleeve (S) to generate an elastic force, The elastic body (T3) is a rubber material having an elastic solenoid valve, characterized in that the cylindrical rubber spring formed with a passage in which the return spring (R) is inserted. delete

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