KR102043967B1 - Solenoid valve - Google Patents

Abstract

The present invention relates to a solenoid valve which balances the pressure between a space part disposed in the valve and a high-pressure inlet receiving fluid to hermetically seal the inlet with a small force. According to the present invention, the solenoid valve comprises: a valve body part including the inlet receiving the fluid and an outlet discharging the fluid; a solenoid part disposed in the valve body part; a poppet guide part disposed at the lower end of the solenoid part and having a space formed therein to receive the fluid; a moving part inserting one end part into the poppet guide part, having a communication hole allowing the space part to communicate with the inlet, and inserting the other end part into the solenoid part to be straightly moved by operation of the solenoid part; and an opening/closing part moved by the moving part to open/close the inlet, closely attaching one surface to the inlet, closely attaching the other surface to the moving part, and having a through-hole formed to allow the inlet to communicate with the communication hole to balance the pressure between the inlet and the space part. With the configuration, the pressure is balanced between the space part and the inlet when the inlet is closed, thereby providing an effect of hermetically sealing the space between the high-pressure inlet and the low-pressure outlet with a small force.

Description

Solenoid Valve {SOLENOID VALVE}

The present invention relates to a solenoid valve, and more particularly, to a solenoid valve capable of air-tightening the inlet with a small force by pressure-balancing the space provided inside the valve and the high pressure inlet through which the fluid is introduced.

The throttle valve is installed in the passage for supplying air to the vehicle engine and controls the amount of air supply. At this time, when the passage of the air is blocked because the throttle valve is not operated, the air hits the inoperative throttle valve to generate backflow air that is moved toward the turbocharger, and the backflow air causes output loss of the turbocharger. In order to improve the above, a bypass flow path is formed to prevent turbocharger output loss caused by backflow air supplied to the turbocharger.

The solenoid valve is generally used for the bypass flow path thus formed.

Korean Patent Registration No. 10-1174207 (hereinafter referred to as 'Patent Document 1') discloses a solenoid valve for opening and closing a flow path. When the solenoid valve for opening and closing the flow path disclosed in Patent Literature 1 is installed in the bypass flow path to open and close the inlet, high pressure fluid flows into the inlet so that a large force is required to close the inlet while maintaining airtightness.

Accordingly, there is a need for a solenoid valve capable of hermetically sealing a high pressure inlet and a low pressure outlet with a small force.

Korea Patent Registration No. 10-1174207 (2012.08.08)

The present invention has been made to solve the above problems, the pressure inlet of the high pressure inlet and the low pressure outlet with a small force by balancing the inlet of the high pressure inlet fluid and the space provided inside the valve in the state in which the inlet is closed It is an object of the present invention to provide a solenoid valve capable of hermetic sealing.

Solenoid valve according to a preferred embodiment of the present invention in order to achieve the above object, the valve body portion having an inlet and a discharge port for the fluid flow; A solenoid portion disposed inside the valve body portion; A poppet guide portion disposed below the solenoid portion and having a space portion into which fluid is introduced; A movable part of which one end is inserted into the poppet guide part, a communication hole is formed so that the space part and the inlet communicate with each other, and the other end is inserted into the solenoid part to move linearly by driving the solenoid part; And the moving part opens and closes the inlet, one side is in close contact with the inlet, and the other side is in close contact with the movable part, and the inlet and the communication hole communicate with each other so that the inlet and the space are equalized in pressure. It includes; the formed opening and closing portion.

More specifically, the movable part may move a predetermined distance to close the through hole, but the opening and closing part may be formed to be spaced apart from the opening and closing part by a predetermined distance so that the fluid introduced into the space is discharged to the outlet. In addition, the inlet may be opened by moving the opening and closing part by further moving in the closed state of the through hole.

Here, the movable portion, the plunger is inserted into the solenoid portion to move linearly; A poppet which extends in the radial direction from the lower end of the plunger and is bent toward the solenoid portion, a communication hole is formed in the horizontal plane extended in the radial direction, and the bent vertical surface is closely inserted into the poppet guide portion; And one side end is fastened to the plunger, the other end is disposed through the through hole, and the other end of the movable member has a flange extended to have a diameter larger than that of the through hole.

And the opening and closing portion, the through-hole is formed in the center, the opening and closing plate is pressed to the poppet to close the inlet, the movable member is supported by the flange to move the opening to open the inlet; And an elastic member disposed between the poppet and the open / close plate to apply an elastic force so that the poppet and the open / close plate are spaced apart to form a gap.

Here, the opening and closing plate, the through-hole is formed, the first plate is supported by the flange to move when the movable member is moved; A second plate bent from the first plate to the poppet side and inserted into the inlet; And a third plate bent outwardly from the second plate, one side of which is in contact with the inlet and the other of which is in contact with the poppet.

According to the solenoid valve according to the present invention, there is provided a space portion inside the valve and the opening and closing plate formed with a through hole between the movable portion and the inlet port to balance the pressure between the space portion and the inlet in the state in which the inlet is closed, In addition, it is possible to obtain an effect of sealing between the high pressure inlet and the low pressure outlet.

In addition, according to the present invention, it is possible to obtain an effect of improving the response speed by reducing the operating resistance by discharging the fluid stored in the space portion to the discharge port during valve operation.

In addition, according to the present invention, the fluid stored in the space portion is prevented from being discharged to the inlet side through the through-hole during valve operation to obtain the effect of preventing the noise caused by the vortex that can be generated to meet the fluid flowing into the inlet Can be.

1 is a cross-sectional view showing a solenoid valve according to an embodiment of the present invention,
Figure 2 is a cross-sectional view showing a state in which the movable part is moved a certain distance so that the through-hole is closed in the solenoid valve according to an embodiment of the present invention, but the opening and closing part is not moved,
3 is a view showing a state in which the inlet opening is opened by moving the movable part further in the state in which the through-hole is closed in the solenoid valve according to an embodiment of the present invention.

In order to help understand the features of the present invention, the solenoid valve related to the embodiment of the present invention will be described in more detail below.

In order to help understand the embodiments described below, in adding reference numerals to the components of the accompanying drawings, it is noted that the same reference numerals are assigned to the same components as much as possible even if displayed on different drawings. . In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, with reference to the accompanying drawings will be described a specific embodiment of the present invention.

1 is a cross-sectional view schematically showing a solenoid valve according to an embodiment of the present invention, Figures 2 and 3 is a diagram showing the operation state of the solenoid valve step by step.

1, a solenoid valve according to an embodiment of the present invention is a valve body 100 corresponding to the basic body of the valve, a solenoid portion 200 disposed inside the valve body portion 100, A poppet guide portion 300 having a space portion 310 in which fluid is introduced therein, a movable portion 400 that is linearly moved by driving the solenoid portion 200, and a through hole 514 are formed. Is moved by the 400 is composed of an opening and closing portion 500 for opening and closing the inlet (110).

More specifically, the valve body portion 100 is formed through the inlet 110 through which the fluid is introduced, the outlet 120 through which the fluid is discharged is formed through the side of the valve body portion 100.

Here, the inlet 110 is connected to an external fluid inlet line to receive fluid from the outside to the valve body part 100, and the outlet 120 is connected to an external fluid outlet line to open and close the opening 500. If it is provided to be in communication with each other the inlet 110 to discharge the fluid introduced into the valve body portion 100 to the outside.

The poppet guide portion 300 is disposed at the lower end of the solenoid portion 200, and a space portion 310 into which the fluid flows is formed.

More specifically, the poppet guide portion 300 is provided so that the center side is penetrated so that the movable portion 400 moves linearly, and the outer circumferential portion is bent toward the solenoid portion 200 side, and the cross-section is in a '-' shape. Is formed to form the space portion 310 in which the fluid flows.

In addition, the end of the poppet guide portion 300 may be further provided with a sealing cap 320 in close contact with the outer circumferential surface of the movable part 400 to seal the space 310. The space portion 310 may be prevented from communicating with the outlet 120 through the sealing cap 320 to maintain a pressure balance of the space portion 310.

One side end of the movable part 400 is inserted into the poppet guide part 300, and a communication hole 421 is formed such that the space part 310 and the inlet 110 communicate with each other, and the other end of the solenoid part Is inserted into the (200) is provided to be moved linearly by the drive of the solenoid portion (200).

More specifically, the movable part 400 has a plunger 410 having one side end inserted into the solenoid part 200 and linearly moving, and extending from the other end of the plunger 410 to the outside, and having a communication hole at one side. Poppet 420 is formed, and the movable member 430 is fastened to the other end of the plunger 410.

The plunger 410 is provided in a cylindrical shape and is inserted into the solenoid part 200 so as to be linearly moved in the vertical direction by a change in the magnetic field of the solenoid part 200.

The poppet 420 extends radially outwardly from the other end of the plunger 410 and is bent toward the solenoid part 200, and the communication hole 421 is formed in a horizontal plane extending in the radial direction. The vertical surface bent to the solenoid portion 200 is provided to be in close contact with the poppet guide portion 300. Here, the communication hole 421 may be formed in a plurality of radially in the circumferential direction around the movable member 430.

One side end of the movable member 430 is fastened to the plunger 410, the other end is disposed through the through hole 514 and the other end has a flange (higher than the through hole 514) ( 431 is expanded. In addition, the flange 431 formed at the other end of the movable member 430 is disposed to have a gap g1 spaced apart from the opening / closing plate 510 by a predetermined distance while the inlet 110 is closed. The fluid is provided to flow through the through hole 514.

In this configuration, the space part 310 and the inlet 110 communicate with each other through the communication hole 421 and the through hole 514 while the inlet 110 is closed. The fluid is introduced into the pressure inlet 110 and the pressure inlet can be hermetically sealed with a high pressure with a small force.

In addition, when the solenoid part 200 is driven to open the inlet 110 and the flange 431 moves by the gap g1, the flange 431 closes the through hole 514. The fluid introduced into the space 310 may be prevented from being discharged through the through hole 514 to the inlet 110. That is, when the fluid introduced into the space 310 is discharged to the inlet 110, the operation noise due to the vortex generated by mixing with the fluid introduced into the inlet 110 may occur. In the present invention, it is possible to prevent the fluid introduced into the space 310 is discharged to the inlet 110 to prevent the operation noise due to vortex.

In addition, when the flange 431 is further moved after the through hole 514 is closed, the flange 431 supports the opening and closing part 500 to move the opening and closing part 500 to move the inlet 110. Can be opened.

The opening and closing part 500 is pressed by the poppet 420 to close the inlet 110, and is supported by the flange 431 when the movable member 430 moves to open and close the inlet 110. The plate 510 and the poppet 420 and the opening and closing plate 510 is composed of an elastic member 520 for applying an elastic force in the direction spaced apart.

More specifically, the opening and closing plate 510 has the through hole 514 formed at the center for balancing the inlet 110 and the space 310 with the flange (when the movable member 430 is moved). A first plate 511 supported and moved by the 431, a second plate 512 bent from the first plate 511 toward the poppet 420, and inserted into the inlet 110, and the first plate 511. The second plate 512 is bent outwardly, and when the inlet 110 is closed, one side of the second inlet 110 contacts the inlet 110, and the other side of the poppet 420 includes a third plate 513.

The elastic member 520 is disposed between the poppet 420 and the opening / closing plate 510. When the movable part 400 moves in the direction of opening the inlet 110, the poppet 420 and the first agent are moved. The gap g2 is formed by applying an elastic force in the direction in which the three plates 513 are spaced apart.

Fluid stored in the space 310 through the gap g2 is discharged to the outlet 120 to reduce the operating load due to the fluid introduced into the space 310 when the movable unit 400 moves. .

1 to 3, the operation sequence of the present invention will be described. In the state in which the inlet 110 is closed, referring to FIG. 1, the flange 431 and the first plate 511 are constant. Spaced apart and a gap g1 is formed; The inlet 110 and the space 310 is in fluid communication with the through-hole 514 and the communication hole 421 through the fluid flows into the space 310 and the inlet 110 and Pressure is balanced.

When the solenoid part 200 is operated and the movable part 400 moves linearly by the gap g1 by the operation of the solenoid part 200, as shown in FIG. 2, the through hole 514 is the Closed by the flange 431, the third plate 513 is maintained in close contact with the inlet 110 by the elastic member 520 and the poppet 420 is the third plate 513 A gap g2 is formed to be spaced apart from and communicate with the space 310 and the outlet 120. The fluid stored in the space 310 is discharged to the outlet 120 through the gap g2.

When the movable part 400 is further moved, as shown in FIG. 3, the flange 431 moves the opening and closing plate 510 to open the inlet 110, and thus the inlet 110. Fluid introduced into the outlet is discharged to the outlet 120.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

100: valve body portion 110: inlet
120 outlet 200 solenoid portion
300: poppet guide portion 310: space portion
320: sealing cap 400: moving part
410: Plunger 420: Poppet
421: communication hole 430: movable member
431 flange 500: opening and closing portion
510: opening and closing plate 511: first plate
512: second plate 513: third plate
514: through hole 520: elastic member

Claims (6)

A valve body part having an inlet port through which the fluid is introduced and an outlet port through which the fluid is discharged;
A solenoid portion disposed inside the valve body portion;
A poppet guide portion disposed below the solenoid portion and having a space portion into which fluid is introduced;
A movable part of which one end is inserted into the poppet guide part, a communication hole is formed so that the space part and the inlet communicate with each other, and the other end is inserted into the solenoid part to move linearly by driving the solenoid part; And
It moves by the movable part to open and close the inlet, one side is in close contact with the inlet and the other side is in close contact with the movable part, the through hole is in communication with the inlet and the communication hole so that the inlet and the space portion is pressure balanced. It includes; opening and closing portion,
The movable part,
The solenoid valve to close the through-hole by moving a predetermined distance but the opening and closing portion is separated from the opening and closing portion by a predetermined distance to form a gap so that the fluid introduced into the space is discharged to the outlet.
delete The method of claim 1,
The movable part,
The solenoid valve, characterized in that to move further in the closed state of the through-hole to move the opening and closing the inlet.
The method of claim 1,
The movable part,
A plunger inserted into the solenoid part and linearly moving;
A poppet which extends in the radial direction from the lower end of the plunger and is bent toward the solenoid portion, a communication hole is formed in the horizontal plane extended in the radial direction, and the bent vertical surface is closely inserted into the poppet guide portion; And
One end is fastened to the plunger, the other end is disposed through the through hole, and the other end of the movable member has a flange extended to have a larger diameter than the through hole;
Solenoid valve comprising a.
The method of claim 4, wherein
The opening and closing portion,
An opening and closing plate formed at a center thereof, the opening / closing plate being pressed by the poppet to close the inlet, and moving to open the inlet by being supported by the flange when the movable member is moved; And
An elastic member disposed between the poppet and the opening / closing plate to apply an elastic force to space the space between the poppet and the opening / closing plate;
Solenoid valve comprising a.
The method of claim 5,
The opening and closing plate,
A first plate formed with the through hole and supported by the flange when the movable member moves;
A second plate bent from the first plate to the poppet side and inserted into the inlet; And
A third plate bent outwardly from the second plate, one side of which is in contact with the inlet and the other of which is in contact with the poppet;
Solenoid valve comprising a.

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