KR20090051503A - Brake oil flux control typed solenoid valve - Google Patents

Abstract

The present invention is not limited to the configuration in which the flow path 10 communicating with the flow path of the pump housing PH in the solenoid valve pushed into the pump housing PH is formed without using the inside of the valve body 3, A valve cap 5 for supporting a plunger seat 4 which is in contact with and separated from a plunger 2 inserted into the valve body 3 is formed so as to be spaced apart from the valve body 3, The valve body 3 and the valve body 3 together with the flow path 10 are formed while the plunger sheet 4 is stably supported while forming the flow path 10 together with the valve body 3. [ The valve cap 5 is simply made of a press and the filter 7 for filtering the oil circulating through the pump housing PH and the valve body 3 is provided in the pump housing PH, Together, they maintain the same performance as high-cost production valves It is possible that this feature can be manufactured at a low cost.

Valves, forgings, orifices

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a brake oil flow control type solenoid valve,

The present invention relates to a solenoid valve, and more particularly to a solenoid valve for controlling brake oil flow.

Generally, a braking system that brakes a vehicle while it is running by using hydraulic pressure that assists the driver's brake pedal operation force is a simple system that prevents rotation while holding the wheel in rotation, thereby achieving optimal braking performance in accordance with the running condition of the vehicle and the road surface condition You will not be able to implement it.

In order to overcome the limitations of the simple braking system, an anti-lock brake system is provided to prevent the locking of the wheels by appropriately adjusting the braking pressure applied to the wheels according to the slip ratio calculated from the wheel speed. Or a traction control system that adjusts the driving force of the engine to prevent an excessive slip when the vehicle suddenly rises or suddenly accelerates.

However, even in the case of the anti-lock brake system or the traction control system, when the vehicle travels along a straight road, it exerts a good performance. However, when the vehicle turns on a curve road, The understeer which is excessively inclined outwardly and the over steer which is excessively inclined inward can not be completely controlled, thereby decreasing the reliability of the vehicle stability.

Accordingly, in recent years, it has been considered that both the braking and the driving and steering systems are all considered. That is, the oversteer (yaw rate sensor), the yaw rate sensor, the lateral acceleration sensor, Over steer and understeer are determined and comprehensively controlled so that the difference between the vehicle running direction required by the driver and the running direction of the actual vehicle can be minimized so that the running direction of the vehicle ESP (Electronic Stability Program) system is applied to maintain the system.

In the case of the ABS / TCS / ESP system, in addition to the hydraulic (brake) line that supplies the braking hydraulic pressure between the master cylinder and the wheel, pumping oil from the master cylinder provides braking pressure towards the wheel, (For example, in case of an ice path), in which a solenoid valve is used to form an oil flow path between the master cylinder and the pump.

In other words, the solenoid valve is operated for quick release upon braking, as well as for configuring the hydraulic circuit during braking, shutting off the oil line during ABS / TCS / ESP operation, or regulating the oil pressure rising speed.

However, since the solenoid valve that forms the flow path of the hydraulic line between the master cylinder and the pump performs precise control, a very high cost rise due to the valve processing, particularly, the cutting process and the complicated structure of the valve body, .

Accordingly, the present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a solenoid valve constituting a hydraulic circuit during braking and ABS / TCS / ESP operation, The present invention aims to reduce cost and cycle time by manufacturing a solenoid valve, and to change a high-cost manufacturing specification of the components constituting the valve to a low-cost production.

To achieve the above object, according to the present invention, there is provided a solenoid valve comprising: a plunger seat in contact with and spaced from a main ball provided at a tip of a plunger at the time of excitation of an armature;

A front end body positioned outside the pump housing is extended to one end of the fixed expansion flange to be pushed into the front end coupling hole of the pump housing and a rear end portion located at the intermediate coupling hole extending from the front end coupling hole of the pump housing, Wherein a body is extended and a hole is formed through the distal body, the fixed expanding flange and the rear body to insert the plunger,

A valve cap which surrounds an end portion of the plunger sheet at a position spaced apart from the valve body to form a flow path and has an orifice communicating with the oil path of the plunger seat;

A filter which surrounds the valve body and the valve cap and is fitted to the flow hole formed in the pump housing on the axis of the valve body and coupled to the valve body;

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In addition, a lip projected to the outer surface of the filter is formed to extend and tightly adhere to the inner surface in a state of being assembled to the pump housing to maintain airtightness.

According to the present invention, the solenoid valve constituting the hydraulic circuit at the time of braking and ABS / TCS / ESP operation is manufactured from a simplified valve body by a forging method, and the function of each component is made complex, This simplifies the process and reduces the cost.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms without departing from the scope of the present invention. The present invention is not limited to the embodiment described.

Fig. 1 is a block diagram of a solenoid valve for controlling brake oil flow according to the present invention. In the present invention, a valve body 3 constituting a solenoid valve for circulating oil to a brake hydraulic circuit is processed by a forging process, The valve 10 is formed in the pump housing PH and the valve cap 5 forming the internal flow path 10 together with the valve body 3 is inserted into the valve body A filter 7 is disposed inside the pump housing PH so as to have a position spaced apart from the valve body 3 and a filter 7 for filtering the oil circulated to the inside of the pump housing PH, (5).

In addition, the solenoid valve is inserted into the valve body 3 and is provided with a plunger 2 positioned outside the pump housing PH. The armature 1, which moves the plunger 2 according to the excitation, The valve body 3 and the valve cap 5 are connected to the main ball 6 provided at the end of the plunger 2 so as to be separated from each other, And a plunger seat 4 for blocking or forming the oil supply toward the flow path 10 to be formed.

The valve body 3 is formed in a simple structure so as to be formed by a forging process. The valve body 3 has a structure in which the pump housing PH is fixed to one end of the fixed expansion flange 3b, And a rear end body positioned at an intermediate coupling hole b extending to the front end coupling hole a of the pump housing PH at a side opposite to the front end body 3a. A hole extending through the distal body 3a and the fixed expanding flange 3b and the rear body 3c is formed and the plunger 2 is inserted.

The valve cap 5 covers the plunger seat 4 which is in contact with and spaced from the main ball 6 provided at the end of the plunger 2, An orifice 5a is formed at a portion where the end of the plunger sheet 4 is closely contacted to form a passage.

At this time, the valve cap 5 is shaped to support the plunger seat 4 in a vertical plane so that the end of the plunger seat 4 is completely in contact with the plunger seat 4, so that the supporting force against the plunger seat 4 is sufficiently maintained.

The valve cap 5 is positioned such that the end portion of the plunger seat 4 is in close contact with the narrow engaging hole c extending to the intermediate engaging hole b of the pump housing PH and the plunger seat 4 And has a position spaced apart from the rear end body 3c of the valve body 3 so as to form a flow path 10 together with the valve body 3. [

The filter 7 extends from the intermediate coupling hole b of the pump housing PH to the narrow coupling hole c so as to surround the rear end body 3c of the valve body 3 and the valve cap 5 And a rear end engaging hole d formed on the axis of the valve body 3 and connected to the flow passage hole.

To this end, the filter 7 is formed to have the same shape as the stepped intermediate engaging hole b, the narrow engaging hole c and the rear engaging hole d so as to be gradually narrowed inside the pump housing PH , And is formed in a substantially cone shape.

In addition, the filter 7 forms a lip projecting to the outer surface. The lip 7 is closely attached to the inner surface of the intermediate coupling hole b in a state of being assembled to the pump housing PH, And the like.

The present invention is not limited to the configuration in which the flow path 10 communicating with the flow path of the pump housing PH in the solenoid valve pushed into the pump housing PH is formed without using the inside of the valve body 3, A valve cap 5 for supporting a plunger seat 4 which is in contact with and separated from a plunger 2 inserted into the valve body 3 is formed so as to be spaced apart from the valve body 3, The valve body 3 and the valve body 3 together with the flow path 10 are formed while the plunger sheet 4 is stably supported while forming the flow path 10 together with the valve body 3. [ The valve cap 5 is simply made of a press and the filter 7 for filtering the oil circulating through the pump housing PH and the valve body 3 is provided in the pump housing PH, Together, they maintain the same performance as high-cost production valves It is possible that this feature can be manufactured at a low cost.

To this end, the solenoid valve of the present invention comprises a plunger housing 4 (PH), as shown in Fig. 1, according to the actuation of the plunger 2, the plunger seat 4 and the main ball 6 of the armature 1, The valve body 3 in which the plunger 2 is inserted and the valve cap 5 for supporting the plunger seat 4 are formed.

In addition, the filter 10, which filters the substance, while covering the valve body 3 and the valve cap 5, is formed with a lip which is in close contact with the inner surface of the pump housing PH, .

The valve body 3 in which the flow path 10 is not formed forms a hole into which the plunger 2 is inserted so that the diameter of the fixed expansion flange 3b, which is pressed into the pump housing PH as a whole, The front end body 3a is extended to one side and the rear end body 3c is extended to the other side. Thus, the valve body 3 can be easily machined by the forging method.

The valve cap 5 which is spaced apart from the front end of the valve body 3 in the pump housing PH and forms the flow path 10 is formed simply in the form of a cup, 6 of the plunger seat 4 so as to stably support the distal end portion of the plunger seat 4 that is in contact with and spaced apart from the plunger seat 4 while holding the end portion of the plunger seat 4 in close contact with the orifice 5a The valve cap 5 can be manufactured by a simple press method since the simple structure in which the oil is pierced and discharged is formed.

The filter 7 is structured so as to surround the valve cap 5 which supports the plunger seat 4 by being separated from the valve body 3 at the valve body 3, A lip is formed so as to protrude from the outer circumferential surface of the filter 7 and is assembled into the pump housing PH, And is in close contact with the inner surface of the intermediate engaging hole (b) to maintain airtightness.

The filter 7 is formed in a cone shape as the valve cap 5 is wrapped around the valve body 3 so that the pump housing PH, in which the filter 7 is assembled,

Is engaged with the rear end engaging hole (d) extending from the intermediate engaging hole (b) to the narrow engaging hole (c) and extending to the flow passage hole formed on the axis of the valve body (3).

The filter 7 has an intermediate coupling hole b and a narrow coupling hole c and a rear coupling hole d extending from the outermost front coupling hole a to the inside of the pump housing PH, So that the stepped section has a cross-sectional structure.

The valve body 3 is forged and the valve cap 5 forming the flow path 10 is pressed while supporting the plunger sheet 4 in contact with the plunger 2, The valve body 3 and the valve cap 5 can be manufactured at a low cost and the filter 7 can be provided at a low cost while the airtightness of the valve body 3 and the valve cap 5 is reduced. The number of components required as a whole can be reduced.

The operation of the solenoid valve includes a general valve, that is, an armature 1, a plunger 2 having a main ball 6 at its tip, and a plunger seat 4 The entire operation of the solenoid valve of the present invention is omitted.

1 is a block diagram of a solenoid valve for brake oil flow control according to the present invention.

    Description of the Related Art

1: amateur 2: plunger

3: Valve body 3a: Front body

3b: fixed expansion flange 3c: rear end body

4: Plunger sheet 5: Valve cap

5a: Orifice

6: Main Ball 7: Filter

8: Spring 10: Euro

a: leading end coupling hole b: intermediate coupling hole

c: narrow coupling hole d: rear coupling hole

PH: pump housing

Claims (6)

A plunger seat 4 contacting and spaced from the main ball 6 provided at the tip of the plunger 2 at the excitation of the armature 1; A front end body 3a positioned outside the pump housing PH is formed at one end of a fixed expansion flange 3b which is inserted into the front end fitting hole a of the pump housing PH, A rear end body 3c positioned at an intermediate coupling hole b extending to the front end fitting hole a of the pump housing PH is extended to the opposite side of the front end body 3a and the fixed expansion flange 3b, And a valve body (3) formed with a hole penetrating the rear end body (3c) and into which the plunger (2) is inserted: An orifice 5a which communicates with the oil passage of the plunger seat 4 is provided to surround the end portion of the plunger seat 4 at a position spaced apart from the valve body 3 to form the oil line 10, A valve cap 5 formed; A filter 7 which is inserted into and coupled to the flow passage hole formed in the pump housing PH on the axis of the valve body 3 while covering the valve body 3 and the valve cap 5; And a solenoid valve for controlling the brake fluid flow. The solenoid valve for controlling brake oil flow according to claim 1, wherein the valve body (3) is surrounded by a filter (7) at the rear end body (3c). The solenoid valve for controlling brake oil flow according to claim 1, wherein the valve cap (5) supports the plunger seat (4) in a vertical plane so that the end of the plunger seat (4) is completely in close contact. The filter (7) according to claim 1, wherein the filter (7) has the same shape as the stepped intermediate engaging hole (b), the narrow engaging hole (c) and the rear engaging hole (d) so as to be gradually narrowed inside the pump housing And a solenoid valve for controlling the flow of brake oil. The solenoid valve for controlling brake oil flow according to claim 1, wherein the filter (7) is formed with a lip projecting outwardly. The solenoid valve for controlling brake oil flow according to claim 5, wherein the lip acts to maintain the airtightness by closely contacting the inner surface of the pump housing (PH) while being assembled with the pump housing (PH).

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