DE3737579A1 - Trailer brake valve - Google Patents

Abstract

The trailer brake valve has a control slide (20) which controls a pressure medium connection from an adjustable pump (14) to loads (25). In addition, a pressure-reducing valve (43) is provided which can be activated by a brake device (78, 74, 68, 65) and then directs part of the stream of pressure medium of the pump to a brake cylinder (83). When the loads are subjected to maximum load and when the brake cylinder is connected, the feed pressure of the pump is higher than the brake pressure by the pretensioning force of a spring (21) acting on the control slide (20). <IMAGE>

Description

State of the art

The registration is based on a trailer brake valve according to the Genus of the main claim. Such known trailer brake valves work very precisely, but they are relatively complicated trained, especially inappropriately in that they are very are voluminous.

Advantages of the invention

The trailer brake valve according to the invention with the characteristic Features of the main claim has the advantage that it with practically the same good function as the known valves a lot builds simpler and, above all, requires very little space. It draws is advantageous primarily from the fact that it z. B. in one Load sensing circle can be applied and thereby a very enables economical operation.

drawing

Two embodiments of the invention are in the following Description and drawing explained in more detail. This shows in each case a longitudinal section through a trailer brake valve.  

Description of the embodiment

The trailer brake valve has a housing 10 with a step-shaped longitudinal bore 11 which is closed on the one hand by a cover 12 and to which on the other hand a pressure line 13 is connected. The pressure line leads to an adjustable pump 14 which sucks pressure medium via a suction line 15 from a container ter 16 . The pump 14 is adjusted with the aid of a power amplifier 17 , which in a known manner has two pistons 17 A , 17 B with different diameters, of which one 17 A is acted upon via a control line 13 A connected to the pressure line 13 , the larger area via a control line 18th

In the front part of the longitudinal bore 11 , an approximately cup-shaped control slide 20 is slidably guided, on which a compression spring 21 acts with a certain pretensioning force and in the rest state presses it against a snap ring 22 arranged in the longitudinal bore. In this case, the connection from the inlet bore 11 A to a channel 23 is blocked, to which a line 24 is connected, which leads to one or more consumers 25 . The compression spring 21 is supported on a spring abutment 27 fixedly arranged in the longitudinal bore.

An alternating check valve 30 is arranged on the consumer or consumers via a control line 28, 29 , from which in turn a line 31 emerges, which leads to an alternating non-return valve 32 to which the line 18 is connected. Furthermore, a line 33 is connected to the alternating check valve 32 , which leads to an outlet 34 formed in the housing 10 , to which a channel 35 is connected.

The channel 35 opens at the longitudinal bore 11 . There is the extension 37 of an insert body 38 which is fixedly arranged in the longitudinal bore 11 , by a nut 39th A central longitudinal bore 41 is formed in the insert body 38 , in which the valve body 42 of a pressure reducing valve 43 is slidably arranged. Whose conical valve head 44 lies on a valve seat 45 , which is designed as a shoulder in the extension 37 ; a compression spring 46 acts on the valve head 44 in the closing direction. The compression spring 46 lies in a space 48 of the extension 37 , the wall of which is penetrated by a continuous transverse bore 49 ; this ends in channel 35 .

On the valve body 42 , a constriction 51 is formed, on which a bore 52 , which penetrates the insert body 38, opens and communicates with a channel 53 formed in the housing 10 , essentially longitudinally running, which opens into the front part of the longitudinal bore 11 , specifically near the inlet hole 11 A. In the valve body 42 an outgoing from the valve head 44, non-through blind bore 54 is formed, although the same the near its valve head 44 facing away from the end in a through transverse bore 55 ends, and a constricted part 56th There, the insert body 38 is in turn penetrated by a transverse bore 58 , which opens into a channel 59 , to which a bore 60 is closed, has the connection to the container 16 . From the Querboh tion 58 extends parallel to the longitudinal bore 41 bore 61 , which opens into an end space 62 on the insert body, in which a sealing body 63 is fixedly arranged with the aid of a washer 64 . Through the sealing body 63 penetrates a slide 65 arranged in the longitudinal bore 41 tend, which on the one hand is able to cooperate with the valve body 42 , on the other hand always abuts a spring abutment 67 which is arranged in a hollow piston 68 , in which there are several compression springs 69 are located, which act on the spring abutment 67 . A stop 70 is provided in the hollow piston 68 for this. The hollow piston slides in a bore extension 71 of the longitudinal bore 11 , that is, it is axially aligned with the same and abuts the cover 12th In this, a blind bore 73 is formed which is the same axis as the longitudinal bore 11 and in which a small piston 74 is arranged in a tightly sliding manner and can be acted upon by a pressure chamber 75 . In this penetrates a transverse bore 76 extending in the cover 12 , to which a line 77 is connected, which leads to a brake pressure transducer 78 which has a piston 79 with a brake pedal 80 . In addition, a venting device 81 is connected to the sack bore 73 .

A brake cylinder 83 with brake actuating pistons 84 for the trailer brake is connected to line 33 via a line 82 .

If the pump 14 promotes pressure medium, then the spool 20 is moved against the force of the spring 21 , so that the pressure medium can pass through the channel 23 in the line 24 and thus to the United States. When the brake pedal 80 is not operated, the valve body is 32 A of the changeover check valve 32 in its upper position, so that the consumer pressure via the lines 28, 31 can propagate in the line 18 and acts on the piston 17 B of the power amplifier 17th On the other, smaller area piston 17 A, the delivery pressure always acts via line 13 A. Depending on how the pressures behave, the pump 14 is now set accordingly. These processes are known per se in the so-called load-sensing system and are therefore not described further. The pump is always set for the most economical operation according to the consumer performance.

The pressure medium penetrating into the longitudinal bore 11 also reaches the transverse bore 52 via the channel 53 . From here it can't get any further. However, if the brake pedal 80 is actuated, a control pressure builds up in the line 77 , which acts on the hollow piston 68 via the piston 74 , which now acts on the pressure spring 69 and the spring abutment 67 and on the tappet 65, the valve body 42 against Force of the spring 46 moved to the left. Pressure medium can now penetrate from the transverse bore 52 and via the valve seat 45 into the space 48 , from this via the transverse bore 49 into the channel 35 and then via the lines 34, 82 into the brake cylinder 83 . The connection from the space 48 via the valve body through the urging bore 54 to the return duct 59 is interrupted by the plunger 65 , since this blocks the transverse bore 58 .

If the maximum output of the pump is reached at some point through appropriate connection of the consumers, it can no longer react to a load-sensing signal via the alternating check valves 29, 30 and increase its pressure. Is braked during this state and the brake pressure should reach the level of the pump pressure, then the compression spring 21 moves the control slide 20 to the left. As a result, the pressure medium flow from inlet 11 A to channel 23 is throttled to a greater or lesser extent. The pump pressure is thereby always higher than the prevailing brake pressure in the line 34 by the biasing force of the spring 21 . The pressure reducing valve 43 can now - as described above - feed pressure medium from the pump circuit into the brake circuit via the channel 53 , and both pressures continue to rise in this way. In this operating state, the delivery pressure of the pump 14 is determined by the brake pressure, and thus also the maximum pump delivery pressure.

When the brake pedal 80 is withdrawn, the hollow piston 68 returns to its previous starting position, the tappet 65 is also pushed back by the closing valve body 42 , so that it releases the mouth of the transverse bore 58 . Pressure fluid can now flow out of the brake cylinder via the lines 33, 34 and the space 48 as well as via the longitudinal bore 54 in the valve body and the transverse bore 58 , the channel 59 and the line 60 to the container 16 . The pump delivery pressure then moves the spool 20 again against the force of the compression spring 21 to the right, so that the United consumers can now be fully operated again.

The embodiment of FIG. 2 differs from that before only in that it is not a load-sen sing system, but a constant pressure system. Here, the exchange check valves 30, 32 and the associated control lines are missing. The pump is now set only by the pressure prevailing in the pressure line 13 against the force of a spring 86 . The entire remaining structure of the valve is exactly as described above.

Claims (5)

1. Trailer brake valve with a control slide ( 20 ) acted upon by the flow of an adjustable pump ( 14 ) and displaceable against the force of a spring in a housing bore ( 11 ) for controlling the flow of the pump to consumers ( 25 , 83 ), and with a Pressure reducing valve ( 43 ) which can be actuated via a braking device ( 78 , 68 , 65 ) and thereby produces a pressure medium connection from the pump to a brake cylinder ( 83 ), characterized in that the delivery pressure is at the highest load on the consumer and when the brake cylinder is switched on the pump by the preload force of the pressure spring ( 21 ) acting on the control slide ( 20 ) is higher than the brake pressure. 2. Valve according to claim 1, characterized in that the control slide ( 20 ) and the pressure reducing valve ( 43 ) coaxially and in a common housing bore ( 11 ) are arranged. 3. Valve according to one of claims 1 and / or 2, characterized in that it is arranged in a load-sensing circuit in which the highest consumer pressure via alternating check valves ( 30 , 32 ) of the adjusting device ( 17 ) is fed to the pump . 4. Valve according to one of claims 1 to 3, characterized in that the pressure reducing valve ( 43 ) is activated by a plunger ( 65 ) which can be actuated by the braking device. 5. Valve according to claim 1, characterized in that the adjustable pump ( 14 ) is a constant pressure pump.