Hydraulic Braking Arrangement For A Trailer

Abstract

A hydraulic arrangement for braking a trailer comprises a brake line connected between a brake system of a trailer and a trailer brake valve. The trailer brake valve is activated via a first control-pressure line which extends between the brake line and the trailer brake valve and via a second control-pressure line which extends between the trailer brake valve and a control-pressure source and acts in opposition to the pressure imposed on the trailer brake valve by the first control-pressure line. An adjustable pressure-reducing means for controlling the control pressure in the second control-pressure line is arranged in the second control-pressure line. It is proposed to design the control-pressure source as part of a hydraulic control of a brake system of a traction vehicle drawing the trailer and to force the pressure-reducing means mechanically into an open basic position by means of an adjustable prestressing force.

Description

BRIEF DESCRIPTION OF THE DRAWING

The invention and also further advantages and advantageous developments and refinements of the invention are described and explained in more detail below with reference to the drawing which shows an exemplary embodiment of the invention.

FIG. 1 shows a combination of a traction vehicle and trailer with a hydraulic arrangement according to the invention.

FIG. 2 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with manual adjustment of a pressure-reducing valve.

FIG. 3 shows a hydraulic circuit diagrams of a hydraulic arrangement according to the invention with manual adjustment of a pressure-reducing valve and

FIG. 4 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with the electronic adjustment of a pressure-reducing valve and bypass line.

FIG. 5 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with electronic adjustment of a switching valve and bypass line.

FIG. 6 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with electronic adjustment of a switching valve without bypass line.

FIG. 7 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with manual adjustment of a pressure-reducing valve without bypass line and with an additional control-pressure line and pressure sensor.

FIG. 8 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with manual adjustment of a pressure-reducing valve with bypass line and with an additional control-pressure line and pressure sensor.

FIG. 9 shows, a hydraulic circuit diagram of a hydraulic arrangement according to the invention with manual adjustment of a switching valve without bypass line and with an additional control-pressure line and pressure sensor.

FIG. 10 shows a hydraulic circuit diagram of a hydraulic arrangement according to the invention with manual adjustment of a switching valve with bypass line and with an additional control-pressure line and pressure sensor.

FIG. 11 shows a graph of a characteristic map for a trailer brake valve with a variable characteristic curve.

Claims

1. In a hydraulic arrangement, for use in a traction vehicle and trailer combination for controlling braking systems of each of said vehicle and trailer, including a source of pressurized hydraulic fluid, a tank, a trailer brake line coupled to said trailer braking system, a hydraulically activatable trailer brake valve connected to said source, tank and trailer brake line for selectively coupling said brake line either to said tank or to said source of pressurized fluid, a first control-pressure line coupled between said brake line and said brake valve for establishing a first control pressure at a first end of said brake valve, a control-pressure source, a second control pressure line coupled between said brake valve and said control-pressure source for establishing a second control pressure at a second end of said brake valve, and an adjustable pressure-reducing valve arranged in said second control pressure line for controlling the second control pressure established in said second control pressure line, the improvement comprising; said control-pressure source being a control pressure used in said vehicle braking system; and said pressure-reducing valve including an adjustable prestressing force working in opposition to said second control pressure so as to place said pressure-reducing valve in a normally open position when said prestressing force exceeds said second control pressure.

2. The hydraulic arrangement, as defined in claim 1, wherein a second brake line is coupled to said braking system of said vehicle; and said second control-pressure line being coupled to said second brake line.

3. The hydraulic arrangement, as defined in claim 1, wherein a bypass line is coupled to said second control-pressure line so as to bypass said pressure-reducing valve: and a non-return valve being located in said bypass line so as to be in parallel with said pressure-reducing valve.

4. The hydraulic arrangement, as defined in claim, 1, wherein said pressure-reducing valve is a hydraulically activatable; and a third pressure-control line being coupled between said second pressure-control line and said pressure-reducing valve for causing the latter to close the second control-pressure line when a pressure beyond a defined control pressure exists in said second control-pressure line.

5. The hydraulic arrangement, as defined in claim 2, wherein said pressure-reducing valve is a two-position switching valve which shifts to a position closing said second control-pressure line for preventing flow toward said trailer brake valve when a pressure beyond a defined pressure exists in said second brake line.

6. The hydraulic arrangement, as defined in claim 1, wherein said pressure-reducing valve has an adjustable prestressing spring, by means of which a prestressing force can be generated which forces the pressure-reducing valve into said normally open position.

7. The hydraulic arrangement, as defined in claim 6, wherein said pressure-reducing valve includes an electronic adjustment device which operates in response to an electrical control signal for either counteracting or for reinforcing the prestressing force of said prestressing spring.

8. The hydraulic arrangement, as defined in claim 7 and further including an electronic controller coupled to said electronic adjustment device for generating and sending said control signal to said electrical adjustment device; and a setting device coupled to said electronic controller for providing an input for causing said electronic controller to send a preset control signal to said electronic adjustment device.

9. The hydraulic arrangement, as defined in claim 8, and further including a pressure sensor coupled to said trailer brake line and to said electronic controller for sending an electrical pressure signal representing a sensed pressure in said brake line to said electronic controller, which causes said electronic controller to modify said preset control signal in accordance with a difference between a desired pressure at said trailer brake line and said sensed pressure.

10. The hydraulic arrangement, as defined in claim 11 and including a further control-pressure line coupled to said second end of said trailer brake valve, by means of which a third control pressure may be conveyed to the trailer brake valve in addition to said first and second control pressures respectively conveyed to the trailer brake valve by said first and second control-pressure lines, an electronically adjustable pressure-reducing valve being connected to said further control-pressure line and to said hydraulic pressure source and said hydraulic tank, with said electronically adjustable pressure reducing valve being selectively shiftable between an un-activated position wherein it connects said further control-pressure line to said hydraulic tank, and an activated position wherein it connects said further control-pressure line to said hydraulic pressure source; and an electronic control device being coupled for selectively sending a control signal to said electronically adjustable pressure reducing valve.

11. The hydraulic arrangement, as defined in claim 10, and further including a first pressure sensor coupled to said trailer brake line and to said electronic control for sending a first electrical pressure signal to said electronic control representing a first sensed pressure in said trailer brake line; a second pressure sensor coupled to said control pressure source used in said tractor brake system and to said electronic control for sending a second electrical signal to said electronic control representing a second sensed pressure existing at said control pressure source used first in said tractor brake system, whereby said electronic control device uses said first and second electrical signals in generating said control signal, which is sent to said electronically adjustable pressure reducing valve.

12. The hydraulic arrangement, as defined in claim 1, wherein said brake valve is a proportional slide valve.