KR101402715B1 - Hydraulic pump for electronic control brake system - Google Patents

Abstract

A bore formed in the modulator block and communicated with the suction port and the discharge port; and a constituent unit provided on the bore so as to pressurize the fluid on the suction port and discharge the fluid to the discharge port side, A suction valve unit installed at one side of the bore to open and close the outlet side of the suction passage according to the position of the piston; And the discharge valve portion includes a valve seat having a discharge passage, a pump cap coupled to the valve seat to enclose the valve seat to block the bore from the outside, A discharge ball provided between the valve seat and the pump cap so as to open and close the discharge passage; And a pulsation reducing member provided between the valve seat and the pump cap around the discharge ball for discharging the fluid.

Description

Technical Field [0001] The present invention relates to a hydraulic pump for an electronically controlled brake system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic pump for an electronically controlled brake system, and more particularly, to a hydraulic pump for an electronically controlled brake system that is capable of effectively reducing pulsation of a fluid while simplifying an assembling process.

Generally, an electronically controlled brake system is provided for effectively preventing a slip phenomenon that may occur during braking, sudden acceleration, or rapid acceleration of a vehicle. As shown in Fig. 1, a braking force transmitted to the hydraulic brake 1 side A pair of low-pressure accumulators 3 and a high-pressure accumulator 4 for temporarily storing the fluid that has escaped from the hydraulic brake 1, and a low-pressure accumulator 3 for temporarily storing the fluid discharged from the hydraulic brake 1. The solenoid valves 2a, (Not shown) for controlling the driving of the solenoid valves 2a, 2b and the motor 5, a pair of hydraulic pumps 6 provided between the high pressure accumulator 4 and the high pressure accumulator 4 and driven by the motor 5, And these components are embedded in the modulator block 10.

The pair of hydraulic pumps 6 performs a role of forcibly pumping the low-pressure fluid on the low-pressure accumulator 3 side to the high-pressure accumulator 4 side and transmitting the fluid to the hydraulic brake 1 or the master cylinder 7 side.

2, the conventional hydraulic pump A employed in the electronically controlled brake system includes a suction port 21 connected to the low-pressure accumulator 3 side, a discharge port 22 connected to the high-pressure accumulator 4 side, A bore 20 formed in the modulator block 10 so as to open in the transverse direction and a constituent unit provided inside the bore 20 to pressurize the fluid on the suction port 21 and to pump the fluid toward the discharge port 22 Respectively.

A constituent unit provided inside the bore 20 will be described as follows.

A piston 30 is disposed in the bore 20 so as to be in contact with the spindle 5a of the motor 5 through one end of the bore 20 so as to be linearly reciprocated laterally. A valve seat 40 for forming a pressurizing chamber 41 is disposed on the tip end side of the piston 30 and a piston 30 operated for advancing to pressurize the fluid in the pressurizing chamber 41 is provided in the valve seat 40. [ A return spring 50 for returning the return spring 50 is provided.

The piston 30 is installed to be supported by the bore 20 through a sealing housing 60 provided on one side of the outer circumference and the valve seat 40 is fixed to the front end of the piston 30 by being coupled to the sealing housing 60 .

A suction passage 31 is formed in the piston 30 to allow the fluid toward the suction port 21 to flow into the pressure chamber 41. The valve seat 40 is provided with a pressure chamber 41 An outlet valve 70 is provided at the front end of the valve seat 40 for opening and closing the discharge passage 42 and a discharge passage 42 for guiding the pressurized fluid to the discharge port 22 side. An inlet valve 80 for opening and closing the suction passage 31 is provided at the tip of the piston 30 in which the outlet of the piston 30 is formed to operate reciprocally to the outlet valve 70 in accordance with the reciprocating movement of the piston 30 . An outlet plate 90 is coupled to the end of the valve seat 40 to fix the outlet valve 70 and a communication hole 91 is formed in the outlet plate 90 to communicate with the discharge port 22 .

The hydraulic pump A is inserted into the bore 20 in such a state that the valve seat 40 to which the outlet plate 90 is coupled is coupled to the sealing housing 60 and connected to the piston 30, And the other end of the bore 20 is assembled to the modulator block 10 by engaging a pump cap 95 for blocking the bore 20 from the outside.

The conventional hydraulic pump A configured as described above is configured such that the piston 30 linearly reciprocates by the spindle 5a of the eccentrically rotating motor 5 and the inlet valve 80 And the outlet valve 70 are opposed to each other so that the fluid on the suction port 21 flows into the pressurizing chamber 41 and then pressurized and pumped to the discharge port 22 side.

However, in the conventional hydraulic pump A constructed as described above, the work of fixing the outlet plate 90 to the valve seat 40 is added, so that the assembling time of the hydraulic pump A is long There was a problem to be overcome.

As described above, in the conventional hydraulic pump A, the fluid in the pressurizing chamber 41 is discharged through the communication hole 91 of the outlet plate 90 to the discharge port 22, In the structure in which the fluid pressurized in the chamber 41 is rapidly discharged to the discharge port 22, the pressure pulsation of the fluid can not be effectively reduced, so that a large operating noise due to the discharge of the fluid often occurs.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hydraulic pump for an electronically controlled brake system which is capable of effectively reducing the pressure pulsation of a fluid while simplifying the assembling process.

In order to solve this problem, a hydraulic pump for an electronically controlled brake system according to the present invention includes a bore formed in a modulator block and communicating with a suction port and a discharge port, and a bore communicating with the bore to pressurize the suction port- A suction valve unit that opens and closes the outlet side of the suction passage in accordance with the position of the piston; And a discharge valve unit provided at one side of the bore and operating in a manner opposite to the suction valve unit according to the operation of the piston, wherein the discharge valve unit includes a valve seat having a discharge passage, A pump cap coupled to the valve seat so as to surround the end portion of the seat; A discharge ball provided between the valve seat and the pump cap, and a pulsation reducing member provided between the valve seat and the pump cap around the discharge ball for reducing pulsation of the fluid.

Wherein the pulsation reducing member is provided in a ring shape and one end connecting the inner diameter and the outer diameter of the pulsation reducing member is provided in close contact with the valve seat, And an end supporting portion provided so as to support the other end connecting the inner diameter and the outer diameter of the pulsation reducing member in tight contact with each other, wherein an inner diameter of the pulsation reducing member corresponding to the inner diameter supporting portion and the end supporting portion, And a bypass guide groove is formed on the side surface of the valve seat so as to guide the bypass of the fluid so that the fluid discharged through the flow path of the valve seat is bypassed along the surface of the pulsation reduction member when the discharge ball is opened.

A first guide passage for guiding a fluid discharged through a flow path of the valve seat to the bypass guide groove at the time of opening the discharge ball is provided between the valve seat and the inner diameter support portion, And a second guide passage for guiding the fluid of the bypass guide groove to the discharge port is provided between the pump caps.

As described above, the hydraulic pump for an electronically controlled brake system according to the present invention comprises a discharge ball for opening and closing a discharge passage of a valve seat, and a pump cap for coupling a support spring for elastically supporting the discharge ball toward the discharge passage, So that a separate part for fixing the discharge ball and the support spring is eliminated, thereby improving the assemblability.

In addition, in the present invention, a pulsation reducing member is provided between the valve seat and the pump cap for bypassing the fluid discharged through the discharge path to reduce the pressure pulsation of the fluid. The pulsation reducing member is also connected to the valve seat And is fixed between the valve seat and the pump cap in the process.

Therefore, according to the present invention, the pulsation reducing member reduces the pulsation of the fluid inside the hydraulic pump and thus the flow noise, and this pulsation reducing member is simply assembled between the valve seat and the pump cap together with the discharge ball and the support spring.

1 is a hydraulic circuit diagram of a typical electronically controlled brake system.
2 is a cross-sectional view showing the structure of a conventional hydraulic pump for an electronically controlled brake system.
3 is a cross-sectional view illustrating the structure of a hydraulic pump for an electronically controlled brake system according to a preferred embodiment of the present invention.
Fig. 4 is an enlarged sectional view of the pulsation reducing member side structure in Fig. 3;
5 is a perspective view of a hydraulic pump for an electronically controlled brake system according to a preferred embodiment of the present invention, which is an excerpt of a pulsation reducing member.

Hereinafter, a structure of a hydraulic pump for an electronically controlled brake system according to a preferred embodiment of the present invention will be described in detail.

For reference, since the electronically controlled brake system has already been described above, the same reference numerals and the same names will be used for the configurations related to the electronically controlled brake system hereinafter.

The hydraulic pump B according to the embodiment is basically composed of a pair arranged opposite to each other with the spindle 5a of the motor 5 as a center and is rotated 180 degrees by eccentric rotation of the spindle 5a of the motor 5 The pumping operation is performed with the phase difference of FIG. Since the pair of hydraulic pumps B have the same structure, only the structure of one hydraulic pump B will be described below.

3, the hydraulic pump B according to the present embodiment includes a bore 120 formed in the modulator block 10 and a constituent unit provided in the bore 120. As shown in Fig.

The constituent unit includes a piston 130 inserted into the bore 120 by reciprocating movement of the spindle 5A of the motor 5 and having a suction passage 131 formed therein, And a discharge valve unit 150 provided on the open end side of the bore 20 and operating in a reciprocal relationship with the suction valve unit 140.

The modulator block 10 is provided with a suction port 121 for communicating the inlet side of the suction passage 131 formed in the piston 130 with the side of the low pressure accumulator 3 and a suction port 121 for connecting the inlet side of the high pressure accumulator 4, A discharge port 122 for communicating the outlet side of the discharge port 150 is formed.

One end of the piston 130 is provided in contact with the spindle 5a so that the piston 130 reciprocates in the bore 120 according to the rotation of the spindle 5a. The suction valve 140 is installed at the other end of the piston 130 and a fluid is circulated around the piston 130 between both ends of the piston 130 through a clearance between the outer periphery of the piston 130 and the inner wall of the bore 120. [ A seal 123 is provided to prevent leakage. A filter 124 for filtering the fluid flowing into the suction passage 131 from the suction port 121 and a filter 124 for fixing the filter 124 are provided on the outer periphery of the inlet- A housing 125 is provided.

The suction valve unit 140 includes a suction ball 141, a support spring 142 for supporting the suction ball 141, a spring fixing member 143 for fixing the suction ball 141 and the support spring 142, .

The suction ball 141 is provided at the outlet side end of the suction passage 131 of the piston 130 to open and close the suction passage 131 and the spring fixing member 143 is connected to the outlet piston 130 of the suction passage 131, And the support spring 142 is disposed so that both ends thereof are supported by the spring fixing member 143 and the suction ball 141 so that the suction ball 141 is brought into close contact with the suction passage 131 Elastic support. At the end of the spring fixing member 143, a communication hole 143a is provided.

The discharge valve unit 150 provided on the open end side of the bore 20 includes a valve seat 151 on which the discharge passage 151a is provided and a discharge valve 151 for opening and closing the discharge passage 151a of the valve seat 151 And a pump cap 153 fixed to the valve seat 151 and blocking the bore 120 from the outside.

The valve seat 151 is disposed so as to surround the spring fixing member 143 so that a pressurizing chamber 151b for pressurizing the fluid is formed therein and the discharge passage 151a is disposed at the center of the end of the valve seat 151 .

The piston 130 is installed to be supported on the inner wall of the bore 120 through a sealing housing 161 provided on one side of the outer circumference of the bore 120. The valve seat 151 has an outer diameter opposite to the discharge passage 151a, So that it can be fixed to the distal end of the piston 130. A return spring 162 is provided in the valve seat 151 to exert an elastic force to push the piston 130 toward the spindle 5a.

The discharge valve unit 150 includes a support spring 154 for elastically supporting the discharge ball 152 so as to be in close contact with the discharge passage 151a and the support spring 154 and the discharge ball 152 are connected to each other through a bore 120 between the pump cap 153 and the valve seat 151 through the pump cap 153.

A coupling portion 153a is formed at one end of the pump cap 153 corresponding to the valve seat 151 so as to be press-fitted into the valve seat 151 so as to surround the outer circumference of the valve seat 151, And the support spring 154 are fixed between the valve seat 151 and the pump cap 153 in the process of coupling the pump cap 153 to the valve seat 151 through the engagement portion 153a. A receiving groove 153b for receiving the support spring 154 is formed at the center of the end of the pump cap 153 on the valve seat 151 side and the pump cap 153 has an outer diameter, And is press-fitted into the inner wall to cut off the bore 120 from the outside. The fluid discharged from the discharge passage 151a when the discharge passage 151a is opened is guided toward the discharge port 122 through the space between the valve seat 151 and the pump cap 153. [

Accordingly, since the hydraulic pump B configured as described above can fix the discharge ball and the support spring by using the pump cap, the separate parts for fixing the discharge ball and the support spring are eliminated, and the assemblability is improved.

The hydraulic pump B is configured such that the piston 130 and the valve seat 151 are coupled with each other in such a manner that the valve seat 151 to which the hermetic cap 153 is coupled is coupled with the piston 130 through the sealing housing 161, The sealing cap 153 can be assembled to the outside of the bore 120 and the piston 130 and the valve seat 151 and the sealing cap 153, The installation of the hydraulic pump B is completed while the outer diameter of the sealing cap 153 is press-fitted into the inner wall of the open end of the bore 120. Thus, according to the present embodiment, .

In the hydraulic pump according to the present embodiment, the discharge valve unit 150 is provided to reduce the pulsation of the fluid in the oil chamber pump B, and the valve seat 151 around the discharge ball 152, And a ring-shaped pulsation reducing member (170) provided between the ring gear (153).

4 and 5, one end connecting the inner diameter and the outer diameter of the pulsation reduction member 170 is supported so as to be in close contact with the valve seat 151 around the outlet of the discharge passage 151a, The insertion hole 153c for inserting the pulsation reducing member 170 is provided at the end of the sealing cap 153 around the sealing cap 153. [

An inner diameter supporting portion 153d is formed between the insertion groove 153c and the receiving groove 153a to support the inner diameter of the pulsation reducing member 170 in a close contact state. The inner side portion is formed with an end supporting portion 153e which is provided so as to support the other end connecting the inner diameter and the outer diameter of the pulsation reducing member 170 in close contact with each other.

The fluid discharged through the discharge passage 151a in the opening operation of the discharge ball 152 is discharged to the inner diameter side and the end side surface of the pulsation reduction member 170 corresponding to the inner diameter support portion 153d and the end support portion 153e, A bypass guide groove 171 for guiding the bypass of the fluid to bypass the surface of the member 170 is formed. The bypass guide groove 171 is constituted by an inner diameter side first bypass guide groove 171a and an end side second bypass guide groove 171b.

Between the valve seat 151 and the inner diameter support portion 153d is provided a first guide passage 181 for guiding the fluid discharged through the discharge passage 151a to the bypass guide groove 171 in the opening operation of the discharge ball 152, And a second guide passage 182 is provided between the outer diameter of the pulsation reducing member 171 and the pump cap 153 to guide the fluid in the bypass guide groove 171 toward the discharge port 122.

The fluid discharged from the discharge passage 151a during the opening operation of the discharge passage 151a through the pulsation reducing member 170 is guided to the bypass guide groove 171 through the first guide passage 181, And the fluid guided to the bypass guiding groove 171 becomes longer in the process of bypassing along the bypass guiding groove 171, so that the pressure pulsation is reduced. The fluid passing through the bypass guide groove 171 is continuously guided toward the discharge port 122 along the second guide passage 182 and discharged.

Accordingly, the hydraulic pump B according to the present embodiment can effectively reduce the pressure pulsation of the fluid in the hydraulic pump B and thus the noise of the fluid through the configuration of the pulsation reducing member 170. [ Since the pulsation reducing member 170 is positioned between the seal cap 153 and the valve seat 151 and is fixed therebetween when the valve seat 151 and the sealing cap 153 are engaged, There is no fear of deteriorating the sex. In FIG. 4, a thick solid line arrow indicates a movement path of the fluid discharged through the discharge passage 151a.

Next, the operation of the hydraulic pump B configured as described above will be described.

As the spindle 5a of the motor 5 rotates, the piston 130 linearly reciprocates within the bore 120, and thus the suction path 131 and the discharge path The hydraulic pump B presses the fluid on the suction port 121 and pumps the fluid to the discharge port 122. [

That is, when the piston 130 moves toward the hermetic cap 153 through the rotation of the spindle 5a of the motor 5, the fluid pressure in the pressurizing chamber 151b rises, And the discharge passage 151a is opened by the discharge valve 152. [ The fluid pressurized in the pressurizing chamber 151b is guided to the bypass guide groove 171 through the first guide passage 181 after being discharged to the discharge passage 151a and the fluid guided to the bypass guide groove 171 The pressure pulsation can be reduced in the process of detouring along the bypass guiding groove 171. The fluid that has passed through the bypass guide groove 171 is pumped to the high-pressure accumulator 4 via the second guide passage 182 and the discharge port 122.

On the other hand, when the piston 130 moves toward the motor 5, a low pressure is formed in the pressurizing chamber 151b at this time, and the suction passage 131 is opened and the discharge passage 151a is closed. Therefore, at this time, the fluid on the side of the low pressure accumulator 3 flowing into the suction passage 131 through the suction port 121 is filled into the pressurizing chamber 151b through the suction passage 131.

In this state, the piston 130, which is moved toward the pump cap 153 by the spindle 5a again, presses the fluid in the pressure chamber 151b to pump it toward the discharge port 122, The pumping operation of the pump is continuously performed through the repetition of this process.

140: Suction valve unit 150: Discharge valve unit
151: valve seat 151a:
151b: Pressure chamber 152: Discharge ball
153: sealing cap 153a:
153b: receiving groove 153c: insertion groove
153d: inner diameter supporting portion 153e: end supporting portion
154: support spring 170: pulsation reduction member
171: Round-trip guide home

Claims (3)

A bore formed in the modulator block and communicated with the suction port and the discharge port; and a constituent unit provided on the bore to pressurize the suction port side fluid and discharge the fluid to the discharge port side, characterized in that the hydraulic pump for an electronically controlled brake system ,
A suction valve unit provided on one side of the bore to open and close the outlet side of the suction passage in accordance with a position of the piston; And a discharge valve portion that operates in an opposite manner to the suction valve portion according to the operation of the suction valve portion,
The discharge valve unit includes a valve seat having a discharge passage, a pump cap coupled to the valve seat to surround the end of the valve seat to block the bore from the outside, And a pulsation reducing member provided between the valve seat and the pump cap around the discharge ball for reducing pulsation of the fluid,
Wherein the pulsation reducing member is provided so as to pass through the inside thereof and to allow the fluid to flow therethrough,
One end connecting the inner diameter and the outer diameter of the pulsation reduction member is provided in close contact with the valve seat,
Wherein the pump cap includes an inner diameter support portion configured to support the inner diameter of the pulsation reducing member in a tightly closed state and an end support portion configured to support the other end connecting the inner diameter and the outer diameter of the pulsation reduction member in close contact,
The fluid discharged through the flow path of the valve seat during the opening operation of the discharge ball is supplied to the inner surface of the pulsation reducing member opposed to the inner diameter of the pulsation reducing member corresponding to the inner diameter support portion and the end support portion, And a bypass guide groove is formed to guide bypass of the fluid to bypass the surface of the reducing member. delete The method according to claim 1,
A first guide passage for guiding a fluid discharged through a flow path of the valve seat through the bypass guide groove in the opening operation of the discharge ball is provided between the valve seat and the inner diameter support portion, And a second guide passage for guiding the fluid of the bypass guide groove to the discharge port is provided between the pump cap and the pump cap.

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