DE4230088A1 - Hydraulic brake installation with antislip regulation - has self-priming pump drawing on pressure medium container via main brake cylinder with suction connection following flow chamber of brake circuit - Google Patents

Abstract

The hydraulic brake installation has a pedal-operated main cylinder connected to at least one pressure chamber of a brake circuit with at least one wheel brake fitted to a driven wheel. The pressure medium flows from the pressure medium tank into a pressure-compensated run-out chamber in the main brake cylinder which, via a pedal path-dependent closing connection, is connected to a pressure chamber of the main brake cylinder. A self-priming pump for the purpose of a drive slip regulation draws pressure medium through the main brake cylinder out of the pressure medium tank and delivers it into the wheel brake of the driven wheel. The suction side of the pump (52) is connected to one of the run-out chambers (6) of the main brake cylinder (1). ADVANTAGE - No additional pump suction connection to pressure medium tank necessary.

Description

The invention is based on a hydraulic brake system according to the preamble of the main claim.

A generic brake system is from DE 41 00 389 A1 known. This brake system works during one Brake slip control according to the return feed principle. For Traction control system has the suction side of the self-priming pump with a suction line hydraulic switching valve is provided and to the Brake line connects. Via this suction line, the Brake line, the pressure chamber of the master cylinder, the Central valve and the connection of the master cylinder on The pump sucks pressure medium tank and promotes it in the wheel brake which is excessive Traction slip is determined. It is from Advantage that no additional on the pressure medium container Suction port for the pump must be attached and that the pump used for brake slip control is designed to be self-priming, so that it can also be used for Traction control system can be used.

However, two drawbacks have emerged.  

On the one hand, suction results from the Central valves high throttle losses at the Pump output. On the other hand, for each brake circuit, the is equipped for traction control, a Switching valve required, which the suction line at every pedal-operated braking locks.

The object of the present invention is a Generic brake system to create, in which no Additional pump suction connection on the pressure medium tank is required, but with which Pump delivery line is improved. In addition, should the brake system can be manufactured inexpensively.

This object is achieved by the Features of the characterizing part in the main claim.

The principle of the invention is the suction side the pump to the constantly with the pressure medium tank in Connected trailing chamber of the To connect the master brake cylinder. That enables one Suck directly from the pressure medium container without one Detour via the central valves. In addition, the Installation of a switching valve in the suction line, because at a pedal-operated braking the depressurized Follow-up chambers through the central valve from the Pressure chambers of the master brake cylinder are separated.

In brake systems, which all driven wheels with supplying a single brake circuit is only one Suction connection required.  

Further advantageous features result from the following description of a preferred Embodiment with reference to a drawing.

The single figure shows a brake system according to the invention with a tandem master brake cylinder, with only one of the two brake circuits is shown.

Since the braking system shown is a diagonal Has brake circuit division, is not shown Secondary brake circuit constructed exactly like the one shown Primary brake circuit. All were electronic Switching elements, such as sensors and electronic Control unit, for better clarity omitted.

The master brake cylinder 1 has two container connections 2 and 4 , each to a chamber of a pressure medium container, not shown. Here, the container connection 2 is assigned to the primary brake circuit and opens out accordingly into the trailing chamber 6 . The container connection 4 is connected to the trailing chamber 8 of the secondary brake circuit. From each of the trailing chambers 6 and 8 , a suction connection 10 or 12 leads to the suction side of a self-priming pump. These suction ports 10 and 12 are each mounted in the master cylinder bore 14 so that they are not run over by any of the sleeve seals 16 , 18 , 20 and 22 . The brake line 24 of the primary brake circuit and the brake line of the secondary brake circuit, not shown, are connected to the pressure chambers 26 and 28 in a known manner.

The basic position shown of the push rod-actuated primary piston 30 and of the secondary piston 32 is determined by the force of compression springs, the primary piston 30 abutting the stop pin 34 , while the secondary piston 32 is pressed against the stop pin 36 . The plungers of the central valves 38 and 40 each abut the associated stop bolts 34 and 36 , respectively, so that the central valves are kept open in the basic position. When the pedals are braked, the pistons 30 and 32 are shifted to the left side of the figure, so that the central valves 38 and 40 can close. The trailing chambers 6 and 8 are separated from the associated pressure chambers 26 and 28 .

The primary brake circuit shown is as follows built up:

The brake line 24 leads from the pressure chamber 26 via the inlet valve 42 to the wheel brake 46 of a non-driven wheel as well as via the isolating valve 50 and the inlet valve 44 to the wheel brake 48 of a driven wheel. In the event of a brake slip control from the low-pressure accumulator 56 and at the beginning of a traction control from the overflow chamber 6, the pump 52 draws in pressure medium via a check valve 54 and conveys it via the pressure line 70 with the check valve 58 into the brake line 24 between the isolating valve 50 and the inlet valve 44 of the wheel brake 48 of the driven wheel. The low-pressure accumulator 56 is filled in that, in the event of a slip control, the outlet valves 60 and 62 open and discharge pressure medium via the return line 64 . The admission pressure valve 66 , via which the low-pressure accumulator 56 is filled, has an admission pressure which corresponds approximately to the atmospheric pressure and prevents a negative pressure which occurs in the wheel brakes 46 and 48 when the traction control system is in operation. The low-pressure accumulator 56 is also as already described connected to the suction side of the pump 52 and also connected to the pressure side of the pump 52 via the valve inlet pressure 68th This admission pressure valve 68 also has an admission pressure which corresponds approximately to the atmospheric pressure and, together with the check valve 58, limits the residual pressure remaining in the low pressure accumulator 56 after a slip control has ended. The pressure of the low-pressure accumulator 56 is then reduced via the pre-pressure valve 68 , the check valve 58 , the opened isolation valve 50 and the brake line 24 through the master brake cylinder 1 .

The isolating valve 50 remains open with each pedal-operated braking, that is to say also with a brake slip control. In the case of traction control, the isolating valve 50 is closed, so that only the wheel brake 48 of the driven wheel is then filled by the pump 52 . To limit control noises, the isolation valve 50 is connected in parallel with the pressure relief valve 72 , which opens at a pressure which is sufficient for traction control. Since the full pump pressure is then no longer at the inlet valve 44 , the switching noise is reduced. In addition, the check valve 74 is connected in parallel with the isolating valve 50 , which ensures that even during a traction control, when the isolating valve 50 is closed, the wheel brake 48 can be braked. The wheel brake 46 is unaffected by the traction control system and can also be actuated at any time.

A master brake cylinder is included in this figure Central valves shown, however, is the invention not limited to such master brake cylinders. Much more it can also be analogous to such master brake cylinders are used, for example with von Cuff seals traversed overrun bores the pressure chambers are provided.

Reference list

1 master brake cylinder
2 tank connection
4 tank connection
6 trailing chamber
8 trailing chamber
10 suction connection
12 suction connection
14 master cylinder bore
16 sleeve seal
18 sleeve seal
20 sleeve seal
22 sleeve seal
24 brake line
26 pressure chamber
28 pressure chamber
30 primary pistons
32 secondary pistons
34 stop bolts
36 stop bolts
38 central valve
40 central valve
42 inlet valve
44 inlet valve
46 wheel brake
48 wheel brake
50 isolation valve
52 pump
54 check valve
56 low pressure accumulators
58 check valve
60 exhaust valve
62 exhaust valve
64 return line
66 pre-pressure valve
68 pre-pressure valve
70 pressure line
72 pressure relief valve
74 check valve

Claims (2)

1. Hydraulic brake system with brake slip control and traction control, with a pedal-operated master cylinder, which is connected with at least one pressure chamber to a brake circuit with at least one wheel brake assigned to a driven wheel, and which is provided for each brake circuit with a connection to a pressure medium container, the pressure medium being off the pressure medium container gets into a pressure-compensated follow-up chamber in the master brake cylinder, which communicates with a pressure chamber of the master brake cylinder via a connection that closes depending on the pedal travel, with a self-priming pump that draws pressure medium through the master brake cylinder from the pressure medium container for the purpose of traction control and into the wheel brake of the relevant one promotes driven wheel, characterized in that the suction side of the pump ( 52 ) is connected to one of the trailing chambers ( 6 ) of the master brake cylinder ( 1 ). 2. Hydraulic brake system according to claim 1, characterized in that the pump ( 52 ) of each having a wheel brake ( 48 ) of a driven wheel brake circuit through the same brake circuit associated with the trailing chamber ( 6 ).