KR101871982B1 - Method for processing part opening and closing of check valve and processed check valve using the same - Google Patents

Abstract

A method for processing an opening and closing part of a check valve of the present invention is disclosed. According to an aspect of the present invention, there is provided a method of processing an opening and closing part of a check valve provided in a filter member provided in a solenoid valve, comprising the steps of: inserting a ball into a ball containing portion of a filter member having an orifice formed therein; And applying heat to the contact surface through the ball to contact the ball and pressing the ball toward the orifice side with the tool to permanently deform the contact surface in contact with the ball, Can be provided.

Description

[0001] The present invention relates to a method for processing an opening and closing part of a check valve,

The present invention relates to a method of machining an opening and closing part of a check valve and a check valve machined by the machining method. More particularly, the present invention relates to a method of machining an opening and closing part of a check valve provided in a filter member provided in a solenoid valve, .

A hydraulic braking system for braking is essentially installed in a vehicle. For example, there is an electronic stability system (ESC) which stably maintains the running state of the vehicle by controlling the brake hydraulic pressure. In order to implement the brake system, a plurality of solenoid valves electronically controlled are installed in the modulator block to open and close a flow path (hydraulic circuit) formed in the modulator block.

In recent years, an automatic vehicle hold (AVH) function and a Hill Start Assist (HSA) function have been added in order to secure a stronger and more stable braking force and stability. These functions include a solenoid valve Sealing performance. ≪ / RTI >

More specifically, the solenoid valve is divided into a normally open type solenoid valve that maintains the normally open state and a normally close type solenoid valve that maintains the normally closed state. This solenoid valve is installed in the bore of the modulator block in which the inlet port and the outlet port communicate with each other. The solenoid valve is provided with an internal flow path communicating with the inlet port and the outlet port, sliding along the power source applied to the excitation coil, Respectively.

On the other hand, the solenoid valve is provided with a filter member for filtering the foreign substances contained in the oil, and the filter member is provided with a check valve allowing unidirectional flow of the oil. That is, the check valve forms an orifice separately from the control of the flow of the oil through the internal flow path, and the oil flows through the orifice through the ball.

In order to perform various functions in controlling the flow of oil through the solenoid valve, a high sealing performance is required. However, when a filter member made of a plastic product is used for a certain period of time, Which is not maintained constantly. That is, there is a problem that sealing performance deteriorates and it is difficult to perform a smooth braking function.

In order to solve this problem in the foreign countries, the portion of the orifice which is contacted by the ball and which is formed by the ball is used as the eccentric portion instead of the circular portion. However, .

The method for processing an opening and closing part of a check valve according to an embodiment of the present invention and the check valve processed by the method enable the opening and closing part of the check valve to be thermally deformed by a ball opening and closing the opening and closing part to improve the sealing performance.

According to an aspect of the present invention, there is provided a method of processing an opening and closing part of a check valve provided in a filter member provided in a solenoid valve, comprising the steps of: inserting a ball into a ball containing portion of a filter member having an orifice formed therein; And applying heat to the contact surface through the ball to contact the ball and pressing the ball toward the orifice side with the tool to permanently deform the contact surface in contact with the ball, Can be provided.

According to another aspect of the present invention, there is provided a method of processing an opening and closing part of a check valve provided in a filter member installed in a solenoid valve, comprising the steps of: heating a ball for opening and closing an orifice formed in the filter member; And inserting the ball into the receiving portion and pressing the ball with a tool for pressing the ball toward the orifice side, thereby permanently deforming the contact surface brought into contact with the ball.

Also, heat may be applied so that the temperature of the ball is 200 ° C to 300 ° C.

In addition, the ball can be pressed with the tool for 1 second to 6 seconds.

According to still another aspect of the present invention, there is provided a check valve including an opening / closing portion of a check valve processed by a method for processing an opening / closing portion of the check valve, wherein the opening and closing portion includes a first inclined portion And a second inclined portion formed to be inclined from the first inclined portion so as to have an inclined surface corresponding to the outer diameter of the ball and being permanently deformed by the ball.

The method for processing the opening / closing part of a check valve according to an embodiment of the present invention and the check valve processed by the method have the effect of improving the sealing performance of the check valve because the opening and closing part opened and closed by the ball is thermally deformed by the heated ball. That is, heat is applied to the article to be deformed over a certain period of time and is permanently deformed, so that the surface quality is maintained constant, thereby improving the sealing performance.

In addition, the quality requirement of the customer can be satisfied through a simple processing method, thereby improving the reliability of the product and stabilizing the mass production quality of the product.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in detail with reference to the following drawings, which illustrate preferred embodiments of the present invention, and thus the technical idea of the present invention should not be construed as being limited thereto.
1 is a sectional view showing a solenoid valve provided with a check valve according to an embodiment of the present invention.
2 is a view showing a state in which an opening and closing part of a check valve provided in a filter member according to an embodiment of the present invention is machined.
3 is a partially enlarged view showing an opening / closing part of a check valve processed by a method for processing an opening / closing part of a check valve according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

1 is a sectional view showing a solenoid valve provided with a check valve according to an embodiment of the present invention.

1, a solenoid valve 100 for a brake system includes a filter member 120 accommodated in a bore 111 of a modulator block 110, a magnet core 140 coupled with the filter member 120, A sleeve 170 coupled to the outside of the magnet core 140, an armature 180 provided in the sleeve 170, and a plunger 160 installed in the armature 140. The valve seat 150, the plunger 160, A return spring 190 for applying an elastic force to the sleeve 180 and an excitation coil assembly (not shown) provided outside the sleeve 170.

The solenoid valve 100 having the above-described configuration is provided as one assembly and installed in the bore 111 of the modulator block 110. That is, the solenoid valve 100 is installed in the modulator block 110 to control the flow of oil between the inflow passage 112 communicating with the bore 111 and the discharge passage 113.

More specifically, a filter member provided with a check valve according to an aspect of the present invention will be described with reference to FIGS. 1 and 2. FIG.

The filter member 120 is made of a plastic material and is manufactured by injection molding. The filter member 120 is installed to enter the bore 111 of the modulator block 110 while being coupled to the magnet core 140. The filter member 120 includes a circumferential portion 121 surrounding the lower outer surface of the magnet core 140 and a through hole 141 formed in the lower surface of the magnet core 140 to be press- And an insertion portion 125 integrally formed with the peripheral portion 121. The peripheral portion 121 receives the lower portion of the magnet core 140 and the outer surface thereof is supported on the inner surface of the bore 111 of the modulator block 100. The inserting portion 125 is formed at the center with a coupling flow path 126 connected to the through hole 141 of the magnet core 140 and inserted into the through hole 141 of the magnet core 140.

A separate bypass passage 123 is formed in the peripheral portion 121 of the filter member 120 on the outer side of the coupling passage 126. The circumferential portion 121 is provided with a first filter portion 121a for filtering the oil flowing through the inflow channel 112 of the modulator block 110 and a second filter portion 121b for filtering foreign matter 2 filter portion 121b. The first and second filtration units 121a and 121b are provided in the circumferential portion 121 facing the inflow conduit 112 and the discharge conduit 113, respectively.

The bypass passage 123 formed in the filter member 120 is formed so that the hydraulic pressure transmitted through the inlet passage 112 flows into the discharge passage 113 between the inlet passage 112 and the discharge passage 113 . That is, the bypass flow path 123 is formed so that oil can flow separately from the flow path that allows the radial flow path 142 and the through hole 141 of the magnet core 140 to flow during the braking operation, (130). The check valve 130 includes a ball 133 installed in the bypass flow path 123 so as to be movable forward and backward. The bypass flow path 123 is divided into an orifice 123a through which the oil passes and a ball receiving portion 123b through which the ball 133 is received so that the orifice 123a is opened and closed by the ball 133 . That is, in the braking operation, the ball 133 opens the orifice 123a of the bypass flow passage 123 and the ball 133 closes the orifice 123a at the end of braking.

In order to improve the sealing performance of the check valve 130, the opening / closing portion before the filter member 120 is assembled to the magnet core 140, that is, the portion where the orifice 123a is opened and closed by the ball 133 is processed .

A method of processing the opening and closing portions of the check valve 130 provided in the filter member 120 will now be described.

First, the ball 133 is inserted into the ball receiving portion 123b of the filter member 120 in which the orifice 123a is formed.

Next, a tool 200 for coining the ball 133 toward the orifice 123a is prepared, and the tool 200 is provided in contact with the ball 133. Next, Here, a coining pin may be used as an example of the tool 200 for pressing the ball 133.

Heat is applied to the tool 200 in a state where the ball 133 and the tool 200 are in contact with each other and heat is transmitted to the contact surface contacting the ball 133 through the ball 133. At this time, as a method of applying heat to the tool 200, a heating method using a high frequency coil may be used.

Finally, when heat is transmitted to the contact surface contacting the ball 133 through the ball 133, the ball 133 is pressed by the tool 200 to deform the contact surface contacting the ball 133. That is, the contact surface contacting with the ball 133 is permanently deformed due to the heat deformation, and the permanently deformed contact surface is deformed to have a shape corresponding to the outer diameter of the ball 133. Thus, not only is the sealing performance improved when the ball 133 is opened and closed, but also when the opening and closing part opened and closed by the ball 133 is permanently deformed and the shrinkage phenomenon occurs when the filter member 120 is used for a long period of time, The surface quality is maintained constant, and the sealing function can be smoothly performed.

In the method of processing the opening and closing part of the check valve 130, the temperature of the ball 133 is 200 ° C. to 300 ° C. when the temperature is transmitted to the ball 133 through the tool 200. If the temperature of the ball 133 is less than 200 ° C., the amount of deformation of the contact surface contacting the ball 133 is small and the sealing effect is reduced. If the temperature of the ball 133 exceeds 300 ° C., And the sealing function can not be performed in a severe case.

Further, the ball 133 is pressed through the tool 200 for 1 second to 6 seconds. This is because when the ball 133 is pressed for less than 1 second, the sealing effect of the contact surface contacting the ball 133 is small and the sealing effect is decreased. When the ball 133 is pressed for more than 6 seconds, the sealing effect is reduced due to excessive deformation.

As described above, in the method of processing the opening and closing parts of the check valve 130 according to one aspect of the present invention, the tool 200 is heated to transfer heat to the ball 133. According to another aspect of the present invention, It is possible to process the opening / closing part by pressing the ball 133 with the tool 200 after heating the ball 133 first.

For example, the processed ball 133 is heated, and the heated ball 133 is inserted into the ball receiving portion 123b in which the orifice 123a is formed. At this time, the ball 133 may be pre-processed and heated in a carrier (not shown) that accommodates the ball 133. The heated ball 133 is inserted into the ball receiving portion 123b and presses the ball 133 through the tool 200 to permanently deform the contact surface brought into contact with the ball 133. [ Here, the temperature of the ball 133 and the conditions for pressing the ball 133 are the same as the temperature and pressurizing conditions of the ball 133 described above in the previous embodiment, and thus a detailed description thereof will be omitted.

As described above, the state in which the contact surface contacting the heated ball 133 is permanently deformed is shown in Fig. 3, the check valve 130 includes a first inclined portion 131 provided at a portion where the orifice 123a is opened and closed by being in contact with the ball 133, And a second inclined portion 132 formed to be sloped from the first inclined portion 131 so as to have an inclined surface corresponding to the outer diameter of the ball 133. That is, the first inclined portion 131 is formed to guide the ball 133 to the orifice 123a side so that the orifice 123a is opened and closed by the ball 133 during the braking operation, and the second inclined portion 132 And is sloped from the first inclined portion 131 so as to have a slope corresponding to the outer diameter of the ball 133 so as to perform a close sealing function with the outer surface of the ball 133. Accordingly, not only the sealing performance of the check valve 130 is improved but also the contact surface contacting with the ball 133, that is, the second inclined portion of the opening and closing portion 132 are permanently deformed, the surface quality is maintained constant and a stable sealing function can be performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: Solenoid valve 110: Modulator block
120: filter member 123a: orifice
123b: ball receiving portion 130: check valve
131: first inclined portion 132: second inclined portion
133: Ball 200: Tool

Claims (5)

In a method for opening and closing a check valve provided in a filter member provided in a solenoid valve,
A ball is inserted into a ball receiving portion of a filter member having an orifice formed therein,
Heat is applied to a tool that presses the ball toward the orifice side to transfer heat to the contact surface that is in contact with the ball through the ball,
And pressing the ball toward the orifice side with the tool to permanently deform the contact surface in contact with the ball. The method according to claim 1,
And heat is applied so that the temperature of the ball is 200 占 폚 to 300 占 폚. The method according to claim 1,
And pressing the ball with the tool for 1 second to 6 seconds when the ball is pressed. In a method for opening and closing a check valve provided in a filter member provided in a solenoid valve,
Heating the ball opening and closing the orifice formed in the filter member,
The heated ball is inserted into a ball receiving portion in which the orifice is formed,
And pressing the ball with a tool that presses the ball toward the orifice side to permanently deform the contact surface in contact with the ball. 5. A check valve comprising an opening and closing part of a check valve fabricated by the method of any one of claims 1 to 4,
The opening and closing part includes a first inclined part provided at a portion where an orifice to be opened and closed by being in contact with the ball is formed, and a second inclined part formed by being sloped from the first inclined part to have an inclined surface corresponding to the outer diameter of the ball, A check valve provided with a second ramp portion.

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