GB2027832A – Rotary flywheel skid sensing means for vehicle hydraulic braking systems
– Google Patents
GB2027832A – Rotary flywheel skid sensing means for vehicle hydraulic braking systems
– Google Patents
Rotary flywheel skid sensing means for vehicle hydraulic braking systems
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Info
Publication number
GB2027832A
GB2027832A
GB7928210A
GB7928210A
GB2027832A
GB 2027832 A
GB2027832 A
GB 2027832A
GB 7928210 A
GB7928210 A
GB 7928210A
GB 7928210 A
GB7928210 A
GB 7928210A
GB 2027832 A
GB2027832 A
GB 2027832A
Authority
GB
United Kingdom
Prior art keywords
sensing means
spring
skid sensing
pressure
piston
Prior art date
1978-08-18
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
GB7928210A
Other versions
GB2027832B
(en
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ZF International UK Ltd
Original Assignee
Lucas Industries Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1978-08-18
Filing date
1979-08-14
Publication date
1980-02-27
1979-08-14
Application filed by Lucas Industries Ltd
filed
Critical
Lucas Industries Ltd
1980-02-27
Publication of GB2027832A
publication
Critical
patent/GB2027832A/en
1980-08-05
Priority to GB8025447A
priority
Critical
patent/GB2057613B/en
1982-09-08
Application granted
granted
Critical
1982-09-08
Publication of GB2027832B
publication
Critical
patent/GB2027832B/en
Status
Expired
legal-status
Critical
Current
Links
Espacenet
Global Dossier
Discuss
Classifications
B—PERFORMING OPERATIONS; TRANSPORTING
B60—VEHICLES IN GENERAL
B60T—VEHICLE BRAKE CONTROL SYSTEMS OR PARTS THEREOF; BRAKE CONTROL SYSTEMS OR PARTS THEREOF, IN GENERAL; ARRANGEMENT OF BRAKING ELEMENTS ON VEHICLES IN GENERAL; PORTABLE DEVICES FOR PREVENTING UNWANTED MOVEMENT OF VEHICLES; VEHICLE MODIFICATIONS TO FACILITATE COOLING OF BRAKES
B60T8/00—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force
B60T8/32—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration
B60T8/72—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration responsive to a difference between a speed condition, e.g. deceleration, and a fixed reference
B60T8/74—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration responsive to a difference between a speed condition, e.g. deceleration, and a fixed reference sensing a rate of change of velocity
B—PERFORMING OPERATIONS; TRANSPORTING
B60—VEHICLES IN GENERAL
B60T—VEHICLE BRAKE CONTROL SYSTEMS OR PARTS THEREOF; BRAKE CONTROL SYSTEMS OR PARTS THEREOF, IN GENERAL; ARRANGEMENT OF BRAKING ELEMENTS ON VEHICLES IN GENERAL; PORTABLE DEVICES FOR PREVENTING UNWANTED MOVEMENT OF VEHICLES; VEHICLE MODIFICATIONS TO FACILITATE COOLING OF BRAKES
B60T8/00—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force
B60T8/32—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration
B60T8/34—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration having a fluid pressure regulator responsive to a speed condition
B60T8/42—Arrangements for adjusting wheel-braking force to meet varying vehicular or ground-surface conditions, e.g. limiting or varying distribution of braking force responsive to a speed condition, e.g. acceleration or deceleration having a fluid pressure regulator responsive to a speed condition having expanding chambers for controlling pressure, i.e. closed systems
B60T8/4208—Debooster systems
B60T8/4225—Debooster systems having a fluid actuated expansion unit
Description
1 GB 2 027 832A 1
SPECIFICATION
Improvements in skid sensing means for vehicle anti-skid braking systems This invention relates to skid sensing means for a vehicle anti-skid braking system of the kind comprising a flywheel mechanism rotatable with a shaft and including a flywheel member and a thrust member together with means responsive to relative angular movement between the two said members to cause one of the said members to move axially relative to the other between a first position in which the two members are in a predetermined angular alignement and a second position in which the said one member engages means to actuate a brake pressure control valve, the flywheel mechanism also including means for producing a biassing force to urge the said one member towards the first position.
In skid sensing means of the kind set forth, angular deceleration of the flywheel produces a torque, the magnitude of which is proportional to deceleration. This torque produces an axial force which overcomes the biassing means and causes actuation of the brake pressure control valve.
According to our invention in skid sensing means of the kind set forth the effective biassing force is responsive to pressure in a brake line which is controlled by the control valve.
This permits the threshold deceleration at which the control valve is actuated to be dependent upon the brake line pressure which, at least during second and subsequent skid control cycles, reflects the magnitude of the prevailing tyre/road surface friction coefficient. The range of surface friction coefficient levels over which optimum antiskid control can be maintained is thereby increased.
The flywheel mechanism preferably includes 110 an over-run clutch to decelerate the flywheel member at a controlled rate following actua tion of the control valve, this rate being inde pendent of the wheel deceleration. The flywheel therefore acts as a memory to pro vide an analogue of vehicle speed which may be used as a reference when determining the brake re-application point.
Conveniently the over-run clutch may be loaded by the said effective biassing force.
Thus the brake re-application point may be controlled in dependence upon the tyre/road surface friction coefficient.
Conveniently the biassing means may corn prise a first pressure responsive spring and a 125 second spring.
This enables the brake pressure control valve to be of the poppet or seat type which only require short actuating travels.
Alternatively the control valve may be of the 130 spool type which would permit the use of a single spring.
Conveniently the pressure in the brake line is applied to the first spring through a piston which is exposed at one end to the pressure and at the opposite end abuts against one end of the spring. In such a construction the control valve actuating means may comprise a lever arranged to act on the opposite end of the spring through p plunger so that the spring is trapped between adjacent ends of the piston and the plunger.
Preferably the piston is exposed to pressure in the brake line through a restricted orifice.
This has the advantage that when the brake is applied the pressure acts on the piston through the restricted passage to increase load of the first spring. Should a skid occur the control valve is operated so that pressure on the upstream side of the restricted orifice which is remote from the piston is reduced, but a trapped pressure acting on the piston can only leak away through the restricted orifice. Finally, after the skid has been cor- rected and the control valve is operated again to permit the pressure on the upstream side of the restricted passage to increase and re-apply the brake, the trapped pressure acts through the restricted passage to augment the braking pressure.
One embodiment of our invention is illustrated in the accompanying drawings in which:- Figure 1 is a transverse section through a combined modulator and anti-skid sensing assembly for an hydraulic anti- skid braking system; and Figure 2 is a longitudinal section through the assembly in a plane normal to the plane of Fig. 1.
The assembly illustrated in Figs. 1 and 2 comprises a housing 1 incorporating a modulator assembly 2, an hydraulic pump 3 and a pressure dump valve 4. A longitudinally extending shaft 5 projecting at opposite ends from the housing 1 is coupled at one end to the wheel and at the other end carries skid sensing means 6 in the form of a flywheel assembly 7 which can be enclosed within a cylindrical guard 8 carried from the adjacent end of the housing 1.
The modulator assembly 2 comprises a signal piston 9 which works in a bore 10 in the housing 1 to control operation of a ball valve 11 which, in turn, controls communication between a master cylinder 12 and the brakes 13. Normally the piston 9 is biassed by a spring 14 in a direction to hold the ball valve 11 open. The piston 9 carries a piston rod 15 which has an enlarged head 16, and the head 16 is adapted normally to hold a pump plunger 17 away from the eccentric cam 18 by means of a sleeve 19 which is a press fit in a bore in the plunger 17. A spring 20 biasses the plunger 17 towards the cam 18. An 2 GB 2 027 832A 2 expansion chamber 21 is defined within the bore 10 between the piston 9, the piston rod 15, and a pair of spaced spring-loaded oneway valves 22 and 22a which are biassed in corresponding directions to prevent fluid in the chamber 21 from flowing back into a reservoir 23.
The dump valve 4 comprises a valve member in the form of a rod 24 which is guided to slide in a bore 25 in a seating member 26 which is received in a recess 27 in the housing 1. Normally the rod 24 is held in engagement with a seating 28 in the member 26 by the flywheel assembly 7. This isolates the expansion chamber 21 from the reservoir 23 through radial ports 29 in the wall of the member 26.
The flywheel assembly 7 comprises a flywheel 30 which is rotatable on bearings 31 at one end of the shaft 5. The flywheel 30 is driven from the shaft 5 through a collar 32 which is keyed to the shaft 5 for relative axial sliding movement through splines 33. A pressure plate 34 surrounds, and is driven by, the collar 32 through a one-way drive 35, and balls 36 are located in complementary recesses in mating faces of the pressure plate 34 and the flywheel 30. The mating faces are urged towards each other by means of a spring 37 which acts between the collar 33 and a shoulder 38 on the shaft 5. A face clutch 39 is defined by an engagement between an end face 40 of the pressure plate 34 and a radial flange 41 on the collar 32.
A lever 42 is mounted to rock about a fulcrum 43 on the end of the housing 1 which is adjacent to the dump valve 4. One end of the lever 42 acts on the free end of the rod 24 of the dump valve 4 through a sealing boot 44. The other end of the lever 42 is urged away from the housing 1 by a compression spring 45. Finally, at its free end on the side of the fulcrum 43 remote from the spring 45, the lever 42 acts on the collar 32 through a thrust washer 46 and two domed contact points 47 on opposite sideg of the shaft 5.
The spring 45 is housed in a recess 50 in the housing 1 and at opposite ends abuts between a radial flange 51 on a piston 52, and a plunger 53 which carries a stem 54 engaging at its free end with the lever 42. The end of the piston 52 which is remote from the spring 45 is exposed to the pressure applied to the brake 13 through a restricted orifice 55 and a connection.
When the wheel is rotating in a brakes off condition, the spring 14 acts through the piston rod 15 and the sleeve 19 to hold the plunger 17 out of engagement with the cam 18 so that the pump 3 is disabled. The flywheel 30 is driven by, and at the same speed as, the shaft 5, through the one-way drive 35, the balls 36 and the recesses in which they are located. The spring 45 pivots the lever 42 in a direction to hold the dump valve 4 closed.
During normal braking, fluid from the cylinder is supplied to the brake 13 through a chamber 56 above the sensing piston 9 since the valve 11 is held open by the sensing piston 9. The pressure applied to the brake 13 acts against the upper surface of the signal piston 9 which is unable to move because fluid in the expansion chamber 21 between the piston 9 and the rod 15 is trapped between the pressure dump valve 4 and the one-way valve 22. The spring 45 is pre-loaded between the piston 52 and the plunger 53 at an initial threshold setting of say.3g and, as the brake is applied, the piston 52 is moved towards the plunger 53 by the pressure in the brake line which is applied to it through the connection 57 and the restricted orifice 55. This has the effect of increasing the setting of the flywheel assembly 7 since a correspondingly greater force will have then to be applied by the assembly 7 to overcome the effective force in the spring 45 before the dump valve 4 can be opened.
For example, at a pressure of 1000 p.s.i. when a deceleration of 1 g would be expected, the setting of the flywheel assembly 7 has increased to 1.3g from the original.3g.
When the pressure from the master cylinder 12 applied to the brake 13 is sufficient to cause the wheel to decelerate by an amount to cause a skid, the braked wheel will have almost certainly decelerated at greater than the threshold value of the flywheel assembly 7. The flywheel 30, moves angularly through a greater distance than the pressure plate 34 and then continues to rotate due to its inertia, on the one-way drive 35. This causes the balls 36 to tend to ride out of their recesses, causing the pressure plate 34 and the collar 32 to move axially on the splines 33 away from the flywheel 30 and pivot the [ever 42 against the loading in the springs 45. The flywheel 30 and the pressure plate 34 now run on against the clutch 39.
The closing force applied to the dump valve 4 is thereby relieved and the dump valve 4 opens so that fluid from the expansion chamber 21 can escape to the reservoir 23 thus allowing the signal piston 9 to retract under the effect of the pressure applied to the brake. The piston 9 moves towards the cam 18 to a limit determined by a stop defined by a shoulder in the bore 10 at the lower end of the chamber 21. During this movement the ball valve 11 is permitted to close thus isolating the master cylinder 12 from the brake 13. Further movement of the piston 9 in the same direction and beyond the point at which the valve 11 closes serves to reduce the pressure in the line to the brake 13 by expansion in the effective volume of the chamber 56 above the piston 9 and leading to the brake 13. However the pressure acting on the piston 52 is trapped and can only leak away through the 1 restricted orifice 55.
As the signal piston 9 moves towards the eccentric cam 18, the pump plunger 17 is allowed to engage the eccentric cam 18 and starts to pump fluid through the valve 23, into a working chamber 60 above the plunger 17, and thence out through the valve 22 and back to the reservoir 23 by way of the pressure dump valve 4.
When the skid has been corrected the pressure dump valve 4 closes, and fluid from the working chamber 60 pressurises the expansion chamber 21. This urges the signal piston 9 back towards its original position, thus re- pressurising the brake line by reducing the effective volume of the chamber 56, and subsequently re-opening the ball valve 11.
If the surface over which the motor cycle or four wheel vehicle is travelling only permits a 20.5g stop the pressure is cycled around substantially 500 p.s.i. and the setting of the flywheel assembly reduces at.8g.
After the pressure applied to the brake 13 has fallen and the valve 11 has closed, re- application of the brake by the pump as described above is assisted by the volume of fluid trapped behind the piston 24 by the restricted orifice 55. This volume could be increased by the inclusion of a small accumu- lator.
In the embodiment described above the spring 45 is used in conjunction with the clutch spring 37 to tailor the deceleration threshold and the over-run deceleration of the flywheel 30 to probable vehicle deceleration.
In a modification the rod 24 in the dump valve 4 may be replaced by a member of the spool type. This would permit one of the springs 45 or 37 to be omitted.
Claims (10)
1. Skid sensing means of the kind set forth in which the effective biassing force is responsive to pressure in a brake line which is controlled by the control valve.
2. Skid sensing means as claimed in claim 1, in which the flywheel mechanism includes an over-run clutch to decelerate the flywheel member at a controlled rate following actua- tion of the control valve, this rate being inde- pendent of the wheel deceleration.
3. Skid sensing means as claimed in claim 2, in which the over-run clutch is loaded by the said effective biassing force.
4. Skid sensing means as claimed in any preceding claim in which the means for pro ducing the biassing force comprises at least one spring.
5. Skid sensing means as claimed in claim 4, in which a single spring is incorporated, and the control valve is of the spool type.
6. Skid sensing means as claimed in claim 4, in which a first pressure responsive spring and a second spring are incorporated.
7. Skid sensing means as claimed in claim GB2027832A 3 6, in which the pressure in the brake line is applied to the first spring through a piston which is exposed at one end to the pressure and at the opposite end abuts against one end of the spring.
8. Skid sensing means as claimed in claim 7, in which the means for retaining the control valve comprise a lever arranged to act on the opposite end of the spring through a plunger so that the spring is trapped between adjacent ends of the piston and the plunger.
9. Skid sensing means as claimed in claim 7, in which the pressure acts on the piston through a restricted passage.
10. Skid sensing means substantially as described herein with reference to and as illustrated in the accompanying drawings.
Printed for Her Majesty’s Stationery Office by Burgess & Son (Abingdon) Ltd.-1 980. Published at The Patent Office, 25 Southampton Buildings, London, WC2A 1 AY, from which copies may be obtained.
GB7928210A
1978-08-18
1979-08-14
Rotary flywheel skid sensing means for vehicle hydraulic braking systems
Expired
GB2027832B
(en)
Priority Applications (1)
Application Number
Priority Date
Filing Date
Title
GB8025447A
GB2057613B
(en)
1979-08-14
1980-08-05
Hydraulic anti-skid braking systems for vehicles
Applications Claiming Priority (1)
Application Number
Priority Date
Filing Date
Title
GB7833788
1978-08-18
Publications (2)
Publication Number
Publication Date
GB2027832A
true
GB2027832A
(en)
1980-02-27
GB2027832B
GB2027832B
(en)
1982-09-08
Family
ID=10499134
Family Applications (2)
Application Number
Title
Priority Date
Filing Date
GB7928209A
Expired
GB2029914B
(en)
1978-08-18
1979-08-14
Hydraulic anti skid braking systems for vehicles
GB7928210A
Expired
GB2027832B
(en)
1978-08-18
1979-08-14
Rotary flywheel skid sensing means for vehicle hydraulic braking systems
Family Applications Before (1)
Application Number
Title
Priority Date
Filing Date
GB7928209A
Expired
GB2029914B
(en)
1978-08-18
1979-08-14
Hydraulic anti skid braking systems for vehicles
Country Status (7)
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US
(2)
US4340258A
(en)
JP
(2)
JPS5536186A
(en)
CS
(1)
CS212238B2
(en)
DE
(4)
DE2954162C2
(en)
FR
(2)
FR2433445A1
(en)
GB
(2)
GB2029914B
(en)
IT
(2)
IT1122762B
(en)
Cited By (4)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
EP0079200A1
(en)
*
1981-11-09
1983-05-18
LUCAS INDUSTRIES public limited company
Flywheel mechanisms for anti-skid braking systems
DE3318284A1
(en)
*
1982-05-19
1983-11-24
Lucas Industries P.L.C., Birmingham, West Midlands
Slip sensor with flywheel for hydraulic vehicle brake systems
GB2185792A
(en)
*
1986-01-24
1987-07-29
Teves Gmbh Alfred
Anti-skid brake system
GB2185794A
(en)
*
1986-01-24
1987-07-29
Teves Gmbh Alfred
Slip-controlled brake system
Families Citing this family (53)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
IT1122762B
(en)
1978-08-18
1986-04-23
Lucas Industries Ltd
IMPROVEMENTS IN SLIP DETECTION MEANS FOR VEHICLE ANTI-SLIP BRAKING SYSTEMS
DE3030621A1
(en)
*
1979-08-14
1981-03-26
Lucas Industries Ltd., Birmingham, West Midlands
HYDRAULIC BRAKE SYSTEM WITH ANTI-BLOCKING DEVICE FOR VEHICLES
US4456309A
(en)
*
1979-09-18
1984-06-26
Lucas Industries Limited
Wheel slide protection system
EP0034449B1
(en)
*
1980-02-16
1984-01-25
LUCAS INDUSTRIES public limited company
Improvements in hydraulic anti-skid braking systems for vehicles
DE3161066D1
(en)
*
1980-02-16
1983-11-10
Lucas Ind Plc
Improvements in hydraulic anti-skid braking systems for vehicles
JPS56160247A
(en)
*
1980-06-13
1981-12-09
Honda Motor Co Ltd
Antiskid brake apparatus of autobicycle
JPS5733052A
(en)
*
1980-08-05
1982-02-23
Honda Motor Co Ltd
Skid control device
US4475774A
(en)
*
1981-02-21
1984-10-09
Dunlop Limited
Vehicle braking systems
GB2109069B
(en)
*
1981-11-09
1985-08-07
Lucas Industries Ltd
Modulators in hydraulic anti-skid braking systems for vehicles
US4556261A
(en)
*
1982-10-21
1985-12-03
Lucas Industries Public Limited Company
Hydraulic anti-skid braking systems for vehicles
DE3330483A1
(en)
*
1983-08-24
1985-03-07
Alfred Teves Gmbh, 6000 Frankfurt
BRAKE SLIP-CONTROLLED BRAKE SYSTEM FOR MOTOR VEHICLES
GB2146080B
(en)
*
1983-09-02
1988-01-20
Lucas Ind Plc
Vehicle anti-skid braking systems
US4648664A
(en)
*
1984-03-07
1987-03-10
Lucas Industries Public Limited Company
Hydraulic anti-skid braking systems for vehicles
DE3565079D1
(en)
*
1984-03-07
1988-10-27
Lucas Ind Plc
Improvements in hydraulic anti-skid braking systems for vehicles
AU577829B2
(en)
*
1984-03-07
1988-10-06
Lucas Industries Public Limited Company
Hydraulic anti-skid braking systems for vehicles
DE3566874D1
(en)
*
1984-03-07
1989-01-26
Lucas Ind Plc
Rotary flywheel skid sensing means for vehicle hydraulic braking systems
GB8408165D0
(en)
*
1984-03-29
1984-05-10
Lucas Ind Plc
Flywheel mechanisms
CA1262753A
(en)
*
1984-05-09
1989-11-07
Tsutomu Hayashi
Antilock brake device for vehicles
GB2160937B
(en)
*
1984-05-22
1987-08-26
Honda Motor Co Ltd
Antilock braking system arrangement
US4733757A
(en)
*
1984-05-26
1988-03-29
Honda Giken Kogyo Kabushiki Kaisha
Brake device for vehicles
JPS60252084A
(en)
*
1984-05-26
1985-12-12
本田技研工業株式会社
Support and driving device for wheel angular deceleration sensor
JPS60252054A
(en)
*
1984-05-30
1985-12-12
Honda Motor Co Ltd
Braking device for vehicles
JPS60261765A
(en)
*
1984-06-07
1985-12-25
Honda Motor Co Ltd
Brake apparatus for car
JPS6112459A
(en)
*
1984-06-26
1986-01-20
Honda Motor Co Ltd
Rear wheel braking device for motorcycle
GB8416991D0
(en)
*
1984-07-04
1984-08-08
Lucas Ind Plc
Anti-skid hydraulic braking systems
US4664233A
(en)
*
1984-09-27
1987-05-12
Honda Giken Kogyo Kabushiki Kaisha
Antilock brake device for vehicles
JPS61113584A
(en)
*
1984-11-06
1986-05-31
本田技研工業株式会社
Anti-lock brake gear for front wheel of two-wheel barrow
GB8506707D0
(en)
*
1985-03-15
1985-04-17
Lucas Ind Plc
Hydraulic anti-skid braking systems
GB8506706D0
(en)
*
1985-03-15
1985-04-17
Lucas Ind Plc
Skid-sensing means
GB8507620D0
(en)
*
1985-03-23
1985-05-01
Lucas Ind Plc
Braking systems
JPH035165Y2
(en)
*
1985-04-05
1991-02-08
JPS6232369A
(en)
*
1985-08-02
1987-02-12
Honda Motor Co Ltd
Angular deceleration sensor
US4770473A
(en)
*
1985-08-21
1988-09-13
Honda Giken Kogyo Kabushiki Kaisha
Brake device for vehicles
JPS6246750A
(en)
*
1985-08-23
1987-02-28
Honda Motor Co Ltd
Brake device of vehicle
GB8522064D0
(en)
*
1985-09-05
1985-10-09
Lucas Ind Plc
Anti-skid braking systems
GB8529777D0
(en)
*
1985-12-03
1986-01-08
Lucas Ind Plc
Vehicle anti-skid braking systems
JPS62147363A
(en)
*
1985-12-20
1987-07-01
Honda Motor Co Ltd
Wheel angular acceleration sensor of vehicle anti-locking device
JPS62170362U
(en)
*
1986-04-18
1987-10-29
JP2527716B2
(en)
*
1986-06-06
1996-08-28
トキコ株式会社
Anti-skidding device
GB8618674D0
(en)
*
1986-07-31
1986-09-10
Lucas Ind Plc
Hydraulic anti-skid braking systems
JPS6483443A
(en)
*
1987-09-25
1989-03-29
Honda Motor Co Ltd
Rear-wheel braking device for motor-cycle
GB8811013D0
(en)
*
1988-05-10
1988-06-15
Lucas Ind Plc
Improvements in hydraulic anti-lock braking systems for vehicles
DE4027848A1
(en)
*
1990-09-03
1992-03-05
Teves Gmbh Alfred
PISTON PUMP
DE4100966A1
(en)
*
1991-01-15
1992-07-16
Teves Gmbh Alfred
WHEEL BRAKE ASSEMBLY FOR MODULAR BRAKE SYSTEM
DE4104504A1
(en)
*
1991-02-14
1992-08-20
Teves Gmbh Alfred
Accumulator for blockage-protected hydraulic braking circuit – has two seal groups on piston, one comprising inner elastic and outer PTFE seals, and second comprising soft elastic material
DE4132930A1
(en)
*
1991-10-04
1993-04-08
Teves Gmbh Alfred
Variable output compact hydraulic pump for brake circuit – has array of spring mounted pistons with non-return valves and operated by solenoids in programmed pattern
DE19529664A1
(en)
*
1995-08-11
1997-02-13
Siemens Ag
Brake system for a motor vehicle
DE19615186C1
(en)
*
1996-04-17
1997-08-21
Siemens Ag
Wheel-selective braking system for motor vehicle
DE19629936C1
(en)
*
1996-07-24
1997-11-20
Siemens Ag
Motor vehicle brake-by-wire brake system
DE19639686A1
(en)
*
1996-09-26
1998-04-16
Siemens Ag
Brake system for a motor vehicle
DE19843178C1
(en)
*
1998-09-21
2000-03-16
Siemens Ag
Braking system for motor vehicle
DE19854715A1
(en)
*
1998-11-26
2000-05-31
Continental Teves Ag & Co Ohg
Piston pump
US8075066B2
(en)
2009-04-02
2011-12-13
GM Global Technology Operations LLC
Metering check valve for active brake pads retraction system
Family Cites Families (22)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
FR628744A
(en)
*
1926-02-17
1927-10-28
Mecanique Lyonnaise
Regulator for vehicle brakes particularly applicable to motor vehicles
NL157130B
(en)
*
1949-11-17
Sony Corp
MAGNETIC RECORDING AND / OR DISPLAY DEVICE.
US2766853A
(en)
*
1953-05-30
1956-10-16
Dunlop Rubber Co
Automatic braking apparatus for aircraft
DE932843C
(en)
*
1953-09-26
1955-09-12
Knorr Bremse Gmbh
Outlet valve for anti-skid regulator of pressure-operated brake systems for rail vehicles
DE1028154B
(en)
*
1955-12-09
1958-04-17
Knorr Bremse Gmbh
Coupling device on anti-skid controllers
US3172505A
(en)
*
1962-10-15
1965-03-09
Kelsey Hayes Co
Anti-skid brake control
GB1019104A
(en)
1963-06-26
1966-02-02
Nat Res Dev
Braking of motor vehicles
DE1947012U
(en)
1966-08-06
1966-09-29
Krups Fa Robert
ELECTRIC DRY SHAVER WITH LONG HAIR TRIMMERS.
US3433535A
(en)
*
1967-10-11
1969-03-18
Gen Motors Corp
Dual flywheel anti-lock sensing unit
SE341600B
(en)
*
1968-02-26
1972-01-10
L Swiden
GB1248787A
(en)
*
1968-12-13
1971-10-06
Mullard Ltd
Improvements in or relating to anti-lock brake systems
GB1252674A
(en)
*
1969-02-18
1971-11-10
DE1947012B2
(en)
*
1969-09-17
1977-03-17
Robert Bosch Gmbh, 7000 Stuttgart
ANTI-SKID DEVICE FOR MOTOR VEHICLE BRAKES
GB1359487A
(en)
*
1971-09-24
1974-07-10
Mullard Ltd
Brake antilock mechanism
GB1356485A
(en)
*
1972-01-15
1974-06-12
Gen Motors France
Diaphragm pumps
US3913984A
(en)
*
1973-08-24
1975-10-21
Kelsey Hayes Co
Skid control system embodying automatic cycling and fail safe device
US3922021A
(en)
*
1973-08-24
1975-11-25
Kelsey Hayes Co
Hydraulic skid control system embodying regulator
DE2433092C2
(en)
*
1974-07-10
1986-10-23
Robert Bosch Gmbh, 7000 Stuttgart
Anti-lock control system for four-wheel vehicles
US4046247A
(en)
*
1976-01-26
1977-09-06
Teletype Corporation
Printer ribbon cartridge
US4046427A
(en)
*
1976-06-21
1977-09-06
General Motors Corporation
Mechanical wheel lock control
JPS5450763A
(en)
*
1977-09-15
1979-04-20
Girling Ltd
Hydraulic antiiskid brake system
IT1122762B
(en)
*
1978-08-18
1986-04-23
Lucas Industries Ltd
IMPROVEMENTS IN SLIP DETECTION MEANS FOR VEHICLE ANTI-SLIP BRAKING SYSTEMS
1979
1979-08-14
IT
IT25113/79A
patent/IT1122762B/en
active
1979-08-14
GB
GB7928209A
patent/GB2029914B/en
not_active
Expired
1979-08-14
GB
GB7928210A
patent/GB2027832B/en
not_active
Expired
1979-08-14
CS
CS795556A
patent/CS212238B2/en
unknown
1979-08-14
IT
IT25111/79A
patent/IT1122761B/en
active
1979-08-17
FR
FR7920854A
patent/FR2433445A1/en
active
Granted
1979-08-17
DE
DE2954162A
patent/DE2954162C2/de
not_active
Expired
1979-08-17
DE
DE19792933410
patent/DE2933410A1/en
active
Granted
1979-08-17
DE
DE19792933409
patent/DE2933409A1/en
not_active
Withdrawn
1979-08-17
JP
JP10490379A
patent/JPS5536186A/en
active
Pending
1979-08-17
JP
JP10490479A
patent/JPS5536187A/en
active
Granted
1979-08-17
DE
DE2954163A
patent/DE2954163C2/en
not_active
Expired
1979-08-17
FR
FR7920853A
patent/FR2433443A1/en
active
Granted
1980
1980-11-20
US
US06/208,642
patent/US4340258A/en
not_active
Expired – Lifetime
1981
1981-06-08
US
US06/271,105
patent/US4353440A/en
not_active
Expired – Fee Related
Cited By (11)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
EP0079200A1
(en)
*
1981-11-09
1983-05-18
LUCAS INDUSTRIES public limited company
Flywheel mechanisms for anti-skid braking systems
US4602705A
(en)
*
1981-11-09
1986-07-29
Lucas Industries Public Limited Company
Flywheel mechanism for anti-skid braking systems
DE3318284A1
(en)
*
1982-05-19
1983-11-24
Lucas Industries P.L.C., Birmingham, West Midlands
Slip sensor with flywheel for hydraulic vehicle brake systems
US4745995A
(en)
*
1986-01-02
1988-05-24
Alfred Teves Gmbh
Slip-controlled brake system
GB2185792A
(en)
*
1986-01-24
1987-07-29
Teves Gmbh Alfred
Anti-skid brake system
GB2185794A
(en)
*
1986-01-24
1987-07-29
Teves Gmbh Alfred
Slip-controlled brake system
DE3602128A1
(en)
*
1986-01-24
1987-07-30
Teves Gmbh Alfred
SLIP-CONTROLLED BRAKE SYSTEM FOR MOTOR VEHICLES
DE3602133A1
(en)
*
1986-01-24
1987-07-30
Teves Gmbh Alfred
SLIP-CONTROLLED BRAKE SYSTEM
FR2593449A1
(en)
*
1986-01-24
1987-07-31
Teves Gmbh Alfred
BRAKE SYSTEM WITH SLIDER CONTROL.
US4789207A
(en)
*
1986-01-24
1988-12-06
Alfred Teves Gmbh
Slip-controlled brake system for automotive vehicles
GB2185794B
(en)
*
1986-01-24
1989-11-01
Teves Gmbh Alfred
Slip-controlled brake system for automotive vehicles
Also Published As
Publication number
Publication date
DE2933410C2
(en)
1988-05-26
DE2933410A1
(en)
1980-02-28
DE2954162C2
(en)
1987-06-11
FR2433445A1
(en)
1980-03-14
FR2433443B1
(en)
1984-04-27
US4353440A
(en)
1982-10-12
IT1122761B
(en)
1986-04-23
FR2433443A1
(en)
1980-03-14
FR2433445B1
(en)
1984-03-23
DE2933409A1
(en)
1980-02-28
DE2954163C2
(en)
1986-01-30
JPS5536187A
(en)
1980-03-13
US4340258A
(en)
1982-07-20
IT7925113D0
(en)
1979-08-14
CS212238B2
(en)
1982-03-26
GB2029914B
(en)
1983-05-05
IT7925111D0
(en)
1979-08-14
JPS5536186A
(en)
1980-03-13
GB2027832B
(en)
1982-09-08
GB2029914A
(en)
1980-03-26
IT1122762B
(en)
1986-04-23
JPH0127901B2
(en)
1989-05-31
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Legal Events
Date
Code
Title
Description
1993-04-14
PCNP
Patent ceased through non-payment of renewal fee
Effective date:
19920814