前苏联专利SU1373310A3 Pneumatic antiblocking brake system of vehicle

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权利要求

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同族专利

引用文献

法律状态

优先权

专利摘要:
In a fluid-pressure operated anti-skid braking system operation of a brake-applying relay valve is controlled by control pressure in an application chamber. A memory chamber is connected to the application chamber through a one-way valve and an orifice permits pressure in the memory chamber to decay into the application chamber when the pressure in the application chamber reduces. Re-application of the brakes following a skid is controlled by closure of a latch valve which permits only a restricted flow of control pressure into the application chamber. This is sufficient to re-apply the brakes rapidly in a first stage until the pressure in the application chamber becomes equal to that of the decayed pressure in the memory chamber, whereafter brake re-application continues at a slower rate since the restricted flow of control pressure has also to increase the pressure in the memory chamber.
公开号:SU1373310A3
申请号:SU782637549
申请日:1978-07-07
公开日:1988-02-07
发明作者:Мортимер Иван；Томас Лайтон Чарльз
申请人:Гирлинг Лимитед (Фирма)；
IPC主号:

专利说明:

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FIELD: transport engineering.
The purpose of the invention is to simplify the system design.
FIG. Figure 1 shows a pressure modulator built into the brake system, a slit; in fig. 2 — pressure modulator of another modification; figure 3 is the same, top view; in fig. 4 is a section A-A in FIG. 3; in fig. 5 is a view B in FIG. one; FIG. 6 is a section BB in FIG. five.
In the anti-blocking system (Fig. 1), the pressure modulator 1 is adapted to control the compressed air supply from the source 2 to the brake chamber 3 of the wheel 4 brakes.
The modulator 1 consists of a housing 5 having a supply channel 6 connected to a foot brake valve 7 installed in the branch from source 2 for filling the storage chamber 8 and through a shut-off valve 9 which controls the communication between sections 10 and 11 in channel 6. The shut-off valve 9 consists of a valve element 12 for closing the seat 13 and a flexible diaphragm 14. The valve element 12 is equipped with a nozzle 15, which limits the flow into the chamber 16 above the diaphragm 14. When the shut-off valve is closed to block the flow through the channel 6, air pr flowing through a choke formed by a slit 17 in the element 12. The chamber 16 is also Sodin channel 6 downstream of the check valve 18.
The solenoid valve 19 responds to an electrical signal from a device that is sensitive to locking the brake wheel and is connected to a locking element 20 in contact with either the first 21 or the second 22 seat.
The first saddle 21 is located between the channel 6 and the control chamber 23, and the second saddle 22 is located between the control chamber 23 and the outlet 24. The volume of the chamber 23 is small compared with the storage chamber 8.
When the solenoid valve 19 is de-energized, during normal braking the valve 20 is connected to the seat 22 so that the channel 6 is connected to the chamber 23. The spring 25 weakly acts on the element 12 so as to keep the stop valve 9 open. Thus, pressure controlled
the operator is supplied to the chamber 23 through the shut-off valve 9 and the channel 6, and the shut-off valve 9 remains open until the pressure from the opposite sides of the diaphragm 14 is equalized.
A check valve 26 allows air to flow only in one direction from chamber 23 to memory chamber 8 so that the latter maintains the same pressure as in chamber 23, and throttle 27 allows air to pass between two chambers 23 and 8 in obok directions x. An air flow control device is connected to the housing 5, consisting of a relay valve 28 controlling the connection between the inlet supply duct 29, which is connected to the source 2, and the output feeding channel 30, which is connected to the chamber 3 of the brake 4.
The relay valve 28 has a round internal cavity 31 of a stepped appearance, a piston 32 bounding the lower part of the chamber 23. The piston 32 moves in the internal part 33 of the cavity 31, which is of a larger diameter. A valve head on top of the piston 32, opposite to Chamber 23, is connected to the inside of sleeve 34, and sleeve 34 is inserted into the inside of cylinder 35 coaxially with cover 36, which covers the cavity 31. Sleeve 34 has a flange 37, which is a valve head it tends to press against the saddle 38 under the action of the spring 39, and the cap 36 has at least one hole 40 that connects the inner cavity of the sleeve to the atmosphere. The inlet channel 29 is located on the same side as the valve head, and the outlet channel 30 is located on the opposite side of the seat 38. Thus, in a non-working state, the connection between the inlet channel and the chamber 41 in the stepped cavity 31 is blocked by a flange 37 connected to the seat 38, and the chamber 41 is connected to the atmosphere through the opening 40,
while flange 42 is spaced from sleeve 34.
I
In the inoperative position and when the brakes are pressed, the element 20 is held in the connected position with the seat 22 by means of a spring 43 which acts on the measles, 44, non-partings element 20. This isolates the chamber 23
from the atmosphere. The shut-off valve 9 is also held in the open position by the spring 25.
The control pressure from the pedal tap 7 is fed through the channel 6 into the chamber 23 of the relay valve 28 through the check valve 9, which remains in the open position until the pressure from opposite sides of the diaphragm is equalized. The pressure in the chamber 23 is also transmitted to the storage chamber 8 through the valve 26 so that the pressure in the chamber 8 stops equal to the pressure in the chamber 23
The pressure in the chamber 23 acts on the piston so that it moves downward, as a result of which the flange 42 is connected to the upper end of the sleeve 34 in order to detach the chamber 41 from the atmosphere. After that, further movement of the piston 32 in the same direction will move the flange 37 from the saddle 38 so that the brake will act pressure from the inlet channel 29, which connects to the output channel 30 through the chamber 41.
When the deceleration of the wheel by the action of brake 4 exceeds a certain amount, valve 19 will receive power and the measles 44 will move against the action of spring 43 so that element 20 connects to seat 21. Thus, channel 6 is separated from chamber 23 and chamber 23 is also connected with the atmosphere through the outlet 24, the shut-off valve 9 remains open.
Reducing the pressure in chamber 23 will allow the piston 32 to move away from the locking claws 36 under the action of the spring 39 before contacting the seat 38 to disconnect the channel 29 from the output channel 30. A further movement of the piston 32 in the same direction moves the flange 42 from the sleeve 34 so that air under pressure exits the atmosphere through port 40.
The pressure in the storage chamber 8 also decreases through the chamber 23 and the outlet 24 with a damping rate determined by the throttle 27. Through the valve 26 the air does not pass.
After the slide is removed, the valve 19 will be de-energized so that the element 20 moves away from the seat 22 in order to detach the chamber 23 from the at0
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and communicate it with channel 6. This decreases the pressure acting on the diaphragm 14, so that the shut-off valve 9 closes against the action of the spring 25 and remains closed for the duration of the remaining braking force.
The pressure in the chamber 23 is rapidly increased by the flow through the throttle defined by the gap 17 with the shut-off valve 9 closed. The relay valve 28 operates as described, reacting to the pressure in the chamber 23 to retard.
The pressure in the chamber 23 quickly rises at the first stage of braking until the turning moment is reached, at which the pressure becomes equal to the pressure in the chamber 8, and then it is lowered through the throttle 27.
Thereafter, the control pressure in the chamber 23 may still increase, but at a slower rate, while the limited flow through the slit 17 increases at the same rate. Thus, braking occurs again in the second stage, but with a reduced rate of pressure increase. This continues until either the deceleration stops or the slide comes again, then the deceleration will repeat as described.
Upon termination of the valve 7, the elements will return to the position shown in FIG. 1, and all the chambers are connected to the atmosphere. Valve 18 will open to expel air from chamber 16 and thereby ensure quick opening of valve 9.
In the construction shown in FIG. 2, the supply channel 6 is connected to the input pitakitsy channel 29 inside the housing, the valve 7 itself is connected to the supply channel 29. The valve 18 is absent. The air is discharged from the chamber 41 to the brakes with low pressure. A decrease in pressure in the supply channel 6 will cause the valve 9 to close, while a higher pressure is in chamber 16. The pressure is directed to chamber 23 to keep the relay valve in the open position, while the flange 42 is connected to the top of the sleeve 34, and the flange 37 is spaced from the saddle 38.
The chamber 41 is isolated from the outlet 40.
The pressure in chamber 23 seeps into channel 6 through the throttle defined by slot 17. The pressure also passes through channel 6 through the nozzle 15 in element 12 of the shut-off valve 9 until the pressure on the opposite side of the diaphragm 14 reaches a value sufficient to open by spring 25 of valve 9 When this pressure is reached in chamber 23, the outlet quickly opens and the elements return to the position shown in fig. 2, with the relay valve 28 opening and connecting to the atmosphere, the air from the brake also escapes into the atmosphere through the opening 40.
The construction and operation of the assembly shown in FIG. 2, the same as in FIG. one,
In the slide control device (FIGS. 3-6), the stop valve element 12 has a flat front side for connection to the seat 13, and the nozzle, which operates when the stop valve 9 is closed, is formed by an opening 45 in the element 46, which is located in the bypass channel 47 which bypasses the shut-off valve 9. Thus, after the shut-off valve closes, pressure is applied to the brake system through the opening 45 into the chamber 23 at a reduced speed. Element 46 has the shape of a washer.

权利要求:
Claims (3)
[1]
1. The pneumatic anti-lock braking system of the vehicle contains a source of compressed air connected through a brake valve and a pressure modulator to the brake chambers of the brake, while a shut-off valve, an electromagnetic valve connected by an electrical circuit to the means reacting
J on the locked wheels, a relay valve for communication of the brake chambers with a source of compressed air, a storage chamber and a check valve and a bypass channel, bypassing the shut-off valve, and a supply channel connecting the brake valve through the shut-off valve to the control chamber over the relay valve piston connected via choke
Q to the storage chamber and communicated with the atmosphere through the electromagnetic
five
valve,
different with
In order to simplify the design, an electromagnetic valve is installed in the supply channel with the possibility of blocking this channel in the area between the shut-off valve and the control chamber, and the check valve is installed parallel to the throttle between the memory and control chamber.
[2]
2. The system of claim 1, wherein a choke is installed in the bypass channel.
[3]
3. The system according to claim 1, characterized in that the bypass channel is formed between the seat and the valve element of the check valve when the valve element contacts
the saddle.
4, a system according to claim 3, characterized in that a slit is formed in the valve element, which, when it is in contact with the saddle, forms a choke.
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类似技术:

公开号 | 公开日 | 专利标题

SU1373310A3|1988-02-07|Pneumatic antiblocking brake system of vehicle

JP2514013B2|1996-07-10|Vehicle brake control device

GB1439293A|1976-06-16|Powered brake system for vehicles

US3907379A|1975-09-23|Control valve for anti-skid air braking system

US5246276A|1993-09-21|Electronically controlled brake effort proportioning system

US3768519A|1973-10-30|Modulator for adaptive braking system

US4109968A|1978-08-29|Tractor-trailer brake system with improved means for assuring application of trailer brakes concomitantly with tractor brakes

US4155603A|1979-05-22|Anti-skid vehicle braking systems

US3950035A|1976-04-13|Relay valve operated skid control system

US3480335A|1969-11-25|Anti-skid brake apparatus for a vehicle

US4210370A|1980-07-01|Anti-skid vehicle braking systems

US3820856A|1974-06-28|Air brake pressure modulator

GB1495917A|1977-12-21|Air brake systems

EP0200413A2|1986-11-05|Vehicle antilock braking systems

US4131326A|1978-12-26|Anti-skid brake control apparatus

GB877745A|1961-09-20|Fluid pressure braking system

US4372620A|1983-02-08|Anti-locking brake system for a vehicle

US5297862A|1994-03-29|Hydraulic brake system controlling slip

US4030759A|1977-06-21|Pneumatic anti-skid brake system having proportional pressure control means

GB1358117A|1974-06-26|Vehicle anti-skid braking system

US4063785A|1977-12-20|Fail safe bypass for a skid control system

CA1127689A|1982-07-13|Anti-locking with fail safe system

SU1258733A2|1986-09-23|Electromagnetic modulator for automobile antiskid braking system

SU1068311A1|1984-01-23|Pressure modulator for pneumatic skidding-proof braking system of a vehicle

SU872343A2|1981-10-15|Electro-pneumatic modulator for anti-skid braking device of motor vehicle

同族专利:

公开号 | 公开日

GB2002471A|1979-02-21|

US4175795A|1979-11-27|

JPS5419058A|1979-02-13|

IT7825443D0|1978-07-07|

IT1097494B|1985-08-31|

JPH0156937B2|1989-12-01|

FR2396676A1|1979-02-02|

FR2396676B1|1984-08-17|

DE2829978A1|1979-01-18|

DE2829978C2|1984-01-12|

AU518421B2|1981-10-01|

GB2002471B|1982-01-27|

AU3754878A|1980-01-03|

HU179477B|1982-10-28|

ES471570A1|1979-02-01|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

CA1004711A|1971-03-17|1977-02-01|John A. Urban|Relay compensator valve|

US3768519A|1971-11-16|1973-10-30|Bendix Corp|Modulator for adaptive braking system|

US3929383A|1974-04-08|1975-12-30|Eaton Corp|Skid control system including a relay compensator valve for rapid brake pressure re-application followed by slower rate of pressure re-application|

US3857614A|1973-10-12|1974-12-31|Midland Ross Corp|Air brake antiskid control|

GB1527902A|1974-09-26|1978-10-11|Eaton Corp|Skid control system|

US3902764A|1974-04-22|1975-09-02|Bendix Corp|Adaptive braking modulator|

US3950035A|1974-10-25|1976-04-13|Kelsey-Hayes Company|Relay valve operated skid control system|

US3941428A|1975-05-08|1976-03-02|General Motors Corporation|Air brake wheel lock control valve mechanism|

GB1591166A|1976-12-15|1981-06-17|Girling Ltd|Anti-skid vehicle braking systems|US4580849A|1982-11-23|1986-04-08|Lucas Industries Public Limited Company|Fluid-pressure operated braking systems for vehicles|

GB8422711D0|1984-09-07|1984-10-10|Lucas Ind Plc|Fluid-pressure operated anti-skid braking systems|

DE3526559A1|1985-07-25|1987-01-29|Wabco Westinghouse Fahrzeug|ANTI-BLOCKING SYSTEM|

GB8608959D0|1986-04-12|1986-05-14|Lucas Ind Plc|Anti-skid braking systems|

GB8719550D0|1987-08-19|1987-09-23|Lucas Ind Plc|Anti-skid braking systems|

DE3728463A1|1987-08-26|1989-03-09|Wabco Westinghouse Fahrzeug|CONTROL VALVE DEVICE|

GB8905311D0|1989-03-08|1989-04-19|Lucas Ind Plc|Electronic braking system|

DE3921078A1|1989-06-28|1991-01-03|Bosch Gmbh Robert|COMPRESSED AIR BRAKE SYSTEM WITH AN ANTI-BLOCKING DEVICE|

DE69103515T2|1990-01-31|1995-02-02|Grau Ltd|VEHICLE BRAKE SYSTEM.|

US5171069A|1990-04-23|1992-12-15|Rockwell International Corporation|Antilock brake system and method incorporating a pressure feedback|

US6386649B1|1999-10-01|2002-05-14|Alliedsignal Truck Brake Systems|Two solenoid pressure modulated relay valve with integral quick release function for ABS|

GB2407131B|2003-10-18|2007-04-11|Haldex Brake Products Ltd|Modulator|

US20050110342A1|2003-11-24|2005-05-26|Eberling Charles E.|Brake actuator with integral antilock modulator|

CN102267446B|2011-05-11|2013-05-08|淄博亿伟汽车科技有限公司|Axle-control integrated ABSdevice|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

GB2888577|1977-07-09|

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