Fluid pressure controller

US 5,018,797 A
Filed: 11/14/1989
Issued: 05/28/1991
Est. Priority Date: 11/14/1988
Status: Expired due to Fees

First Claim

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1. A fluid pressure controller comprising a housing formed with a bore and an input port, a discharge port and an output port, a spool axially slidably mounted in said bore of the housing, a first chamber and a second chamber defined by the inner peripheral surface of said bore and both end faces of said spool, said spool being formed with an internal passage connecting said first and second chambers together and having its intermediate portion throttled to form a fixed-size orifice and with a peripheral channel disposed on the surface of said spool and communicating with said internal passage at a point between said first chamber and said fixed-size orifice, a spring for holding said spool in its initial position, and an electricity/power converter for imparting to said spool an axial driving force corresponding to the amplitude of an electric signal, said output port communicating with said second chamber, said spool being movable among a first position where said peripheral channel communicates with said input port, a second position where said peripheral channel communicates with neither said input port nor said discharge port and a third position where said peripheral channel communicates with said discharge port, so that when said output port is brought into communication with either said input port or said discharge port through said peripheral channel, hydraulic fluid will flow through said fixed-size orifice, thereby creating a pressure difference at both ends of said fixed-size orifice, a force acting on said spool by said pressure difference being equal to the driving force of said converter minus the biasing force of said spring.

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Abstract

A fluid pressure controller includes a housing formed with an input port, a discharge port and an output port, a spool axially slidably mounted in a bore provided in the housing, a spring for keeping the spool in its inoperative position, and an electricity/power converter for imparting to the spool an axial driving force corresponding to the amplitude of an electric signal applied to the converter. First and second chambers are defined by the inner peripheral surface of the bore and both end faces of the spool. The spool is formed with an internal passage connecting the first and second chambers together and having its intermediate portion throttled to form a fixed-size orifice and with a peripheral channel at a point between the first chamber and the fixed-size orifice so as to communicate with the internal passage. The output port normally communicates with the second chamber. The spool is movable among a first position where the peripheral channel communicates with the input port, a second position where it is shut off from both the input port and the output port and a third position where it communicates with the discharge port. Thus when the output port is brought into communication with either the input port or the discharge port through the peripheral channel, hydraulic fluid will flow through the fixed-size orifice, thereby creating a pressure difference at both ends of the orifice, the pressure difference being equal to the output of the converter minus the biasing force of the spring.

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12 Claims

1. A fluid pressure controller comprising a housing formed with a bore and an input port, a discharge port and an output port, a spool axially slidably mounted in said bore of the housing, a first chamber and a second chamber defined by the inner peripheral surface of said bore and both end faces of said spool, said spool being formed with an internal passage connecting said first and second chambers together and having its intermediate portion throttled to form a fixed-size orifice and with a peripheral channel disposed on the surface of said spool and communicating with said internal passage at a point between said first chamber and said fixed-size orifice, a spring for holding said spool in its initial position, and an electricity/power converter for imparting to said spool an axial driving force corresponding to the amplitude of an electric signal, said output port communicating with said second chamber, said spool being movable among a first position where said peripheral channel communicates with said input port, a second position where said peripheral channel communicates with neither said input port nor said discharge port and a third position where said peripheral channel communicates with said discharge port, so that when said output port is brought into communication with either said input port or said discharge port through said peripheral channel, hydraulic fluid will flow through said fixed-size orifice, thereby creating a pressure difference at both ends of said fixed-size orifice, a force acting on said spool by said pressure difference being equal to the driving force of said converter minus the biasing force of said spring.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A fluid pressure controller as claimed in claim 1, wherein said spool is adapted to be held in said second position by said spring while said electricity/power converter is deactivated, to be moved toward said first position if one of two different inputs (i.e. plus or minus) is applied to said electricity/power converter and to be moved toward said third position if the other input is applied to said converter.
  - 3. A fluid pressure controller as claimed in claim 1, wherein said spool is adapted to be held in said first position by said spring while said electricity/power converter is deactivated, to be moved to said second position if an electric command of first level is applied to said converter and to be moved to said third position if an electric command of second level which is larger in amplitude than said first level is applied to said converter.
  - 4. A fluid pressure controller as claimed in any of the claims 1 to 3, wherein said discharge port is not provided.
  - 5. A fluid pressure controller as claimed in any of the claims 1 to 3, wherein said input port is not provided.
  - 6. A fluid pressure controller as claimed in any of claims 1 to 3, wherein a bypass channel is formed in said housing or in both of said housing and said spool so as to bring said input port and said output port into direct communication with each other therethrough, when said spool is in a position toward said input port more than a predetermined distance from a transient point between said first position and said second position
  - 7. A fluid pressure controller as claimed in any of claims 1 to 3, wherein a bypass channel for reducing fluid pressure is formed in said housing or in both of said housing and said spool so as to bring said discharge port and said output port into direct communication with each other therethrough, when said spool is in a position toward said discharge port more than a predetermined distance from a transient point between said second position and said third position.
  - 8. A fluid pressure controller as claimed in claim 6, wherein said discharge port is not provided.
  - 9. A fluid pressure controller as claimed in claim 7, wherein said discharge port is not provided.

10. A brake system for use in a motor vehicle, comprising:
- a control means;
  
  a static pressure generator for producing a static pressure in at least one brake line by manually operating said control means;
  
  a dynamic pressure source having a reservoir;
  
  an electronic control unit for producing a command to control the dynamic pressure so that the extent of manual operation on said control means and a deceleration of the vehicle will be in a predetermined relationship with each other; and
  
  a fluid pressure controller having a housing formed with a bore and an input port connected to a static pressure line, a discharge port connected to the reservoir of said dynamic pressure source and an output port connected to said dynamic pressure source, a spool axially slidably mounted in said bore of the housing, a first chamber and a second chamber defined by the inner peripheral surface of said bore and both end faces of said spool, said spool being formed with an internal passage connecting said first and second chambers together and having its intermediate portion throttled to form a fixed-size orifice and with a peripheral channel disposed on the surface of said spool and communicating with said internal passage at a point between said first chamber and said fixed-size orifice, a spring for holding said spool in its initial position, and an electricity/power converter for imparting to said spool an axial driving force corresponding to the amplitude of an electric signal given by said electronic control unit, said output port communicating with said second chamber, said spool being movable among a first position where said peripheral channel communicates with said input port, a second position where said peripheral channel communicates with neither said input port nor said discharge port and a third position where said peripheral channel communicates with said discharge port, so that when said output port is brought into communication with either said input port or said discharge port through said peripheral channel, hydraulic fluid will flow through said fixed-size orifice, thereby creating a pressure difference at both ends of said fixed-size orifice, a force acting on said spool caused by said pressure difference being equal to the driving force of said converter minus the biasing force of said spring;
  
  the pressure in the static pressure line being controlled by changing over the communication of said output port with either said input port or said discharge port.

11. A brake system for use in a motor vehicle, comprising a fluid pressure controller having a housing formed with a bore and an input port, a discharge port and an output port, a spool axially slidably mounted in said bore of the housing, a first chamber and a second chamber defined by the inner peripheral surface of said bore and both end faces of said spool, said spool being formed with an internal passage connecting said first and second chambers together and having its intermediate portion throttled to form a fixed-size orifice and with a peripheral channel disposed on the surface of said spool and communicating with said internal passage at a point between said first chamber and said fixed-size orifice, a spring for holding said spool in its initial position, and an electricity/power converter for imparting to said spool an axial driving force corresponding to the amplitude of an electric signal, said output port communicating with said second chamber, said spool being movable among a first position where said peripheral channel communicates with said input port, a second position where said peripheral channel communicates with neither said input port nor said discharge port and a third position where said peripheral channel communicates with said discharge port, so that when said output port is brought into communication with either said input port or said discharge port through said peripheral channel, hydraulic fluid will flow through said fixed-size orifice, thereby creating a pressure difference at both ends of said fixed-size orifice, the force acting on said spool caused by said pressure difference being equal to the driving force of said converter minus the biasing force of said spring;
- said controller having said input port connected to a static pressure generator such as a master cylinder, said output port connected to a wheel brake, and said discharge port connected to a reservoir for temporarily storing brake fluid to be returned into an input of said static pressure generator by means of a pump.

12. A brake system for use in a motor vehicle, comprising a fluid pressure controller having a housing formed with a bore and an input port, a discharge port and an output port, a spool axially slidably mounted in said bore of the housing, a first chamber and a second chamber defined by the inner peripheral surface of said bore and both end faces of said spool, said spool being formed with an internal passage connecting said first and second chambers together and having its intermediate portion throttled to form a fixed-size orifice and with a peripheral channel disposed on the surface of said spool and communicating with said internal passage at a point between said first chamber and said fixed-size orifice, a spring for holding said spool in its initial position, and an electricity/power converter for imparting to said spool an axial driving force corresponding to the amplitude of an electric signal, said output port communicating with said second chamber, said spool being movable among a first position where said peripheral channel communicates with said input port, a second position where said peripheral channel communicates with neither said input port nor said discharge port and a third position where said peripheral channel communicates with said discharge port, so that when said output port is brought into communication with either said input port or said discharge port through said peripheral channel, hydraulic fluid will flow through said fixed-size orifice, thereby creating a pressure difference at both ends of said fixed-size orifice, the force acting on said spool caused by said pressure difference being equal to the driving force of said converter minus the biasing force of said spring;
- said controller having said input port connected to a dynamic pressure generator having a manual control means for control thereof, said output port connected to a wheel brake, and said discharge port connected to a reservoir of a dynamic pressure source which is pressurized by a pump for supplying hydraulic fluid to said dynamic pressure generator.

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Litigation Campaign Assessment

Current Assignee
Sumitomo Electric Industries Limited (Sumitomo Corporation)
Original Assignee
Sumitomo Electric Industries Limited (Sumitomo Corporation)
Inventors
Takata, Koji
Primary Examiner(s)
Oberleitner, Robert J.
Assistant Examiner(s)
Muratori, Alfred

Application Number

US07/435,836
Time in Patent Office

560 Days
Field of Search

188/181 A, 137/593, 137/596.16, 137/825, 137/827, 137/831, 137/832, 251/129.07, 251/129.15, 303/113, 303/115, 303/117, 303/119
US Class Current

303/117.1
CPC Class Codes

B60T 13/686   in hydraulic systems or par...

B60T 8/00   Arrangements for adjusting ...

B60T 8/364   switching between a number ...

B60T 8/3665   Sliding valves

B60T 8/4275   Pump-back systems

B60T 8/4809   Traction control, stability...

B60T 8/5025   in hydraulic brake systems

B60T 8/5093   in hydraulic brake systems

G05D 16/2024   the throttling means being ...

Fluid pressure controller

First Claim

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Abstract

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12 Claims

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Fluid pressure controller

First Claim

1 Assignment

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Abstract

Citations

12 Claims

Specification

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Solutions

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