CONTROL SYSTEM FOR AUTOMATIC PARKING BRAKE OF RAIL VEHICLE

Abstract

A control valve for an automatic parking brake having an inlet for coupling to a source a brake pipe pressure, an outlet for coupling to a control inlet of the automatic parking brake and a pilot for coupling to the source of brake pipe pressure. The control valve is moveable between a first position where the inlet is in communication with the outlet and a second position where the inlet and the outlet are isolated from each other in response to a predetermined amount of brake pipe pressure at the pilot. The control valve includes a spring biasing the control valve into the first position.

Claims

1. A system for controlling an automatic parking brake, comprising: a control valve having an inlet for coupling to a source a brake pipe pressure, an outlet for coupling to a control inlet of the automatic parking brake, and a pilot for coupling to the source of brake pipe pressure, wherein the control valve is moveable between a first position where the inlet is in communication with the outlet and a second position where the inlet and the outlet are isolated from each other in response to a predetermined amount of brake pipe pressure at the pilot.

2. The system of claim 1, wherein the control valve includes a spring biasing the control valve into the first position.

3. The system of claim 2, wherein the predetermined amount of brake pipe pressure required to move the control valve from the first position into the second position is between 50 and 60 psi.

4. The system of claim 3, further comprising a check valve having a cracking pressure of less than two psi coupled to the source of brake pipe pressure and the automatic parking brake control inlet in parallel with the control valve.

5. The system of claim 4, further comprising a brake cylinder having the automatic parking brake installed therein, wherein the automatic parking brake is coupled to the outlet of the control valve by the control inlet.

6. The system of claim 5, further comprises a brake pipe coupled to the pilot and providing the source of brake pipe pressure.

7. A method of controlling an automatic parking brake, comprising the steps of: providing a control valve having an inlet coupled to a source a brake pipe pressure, an outlet coupled to a control inlet of the automatic parking brake and a pilot coupled to the source of brake pipe pressure; moving the control valve into a first position that isolates the inlet from the outlet when the brake pipe pressure is above a predetermined amount; and moving the control valve into a second position the coupled the inlet and the outlet when the brake pipe pressure is above the predetermined amount.

8. The method of claim 7, wherein the control valves includes a spring biasing the control valve into the first position.

9. The method of claim 8, wherein the predetermined amount of brake pipe pressure is between 50 and 60 psi.

10. The method of claim 9, further comprising the step of providing a check valve having a cracking pressure of less than two psi between the source of brake pipe pressure and the control inlet of the automatic parking brake in parallel with the control valve.

11. The method of claim 10, further comprising the step of coupling the control valve to a brake cylinder having the automatic parking brake installed therein by coupling the outlet of the control valve to the control inlet of the automatic parking brake

12. The method of claim 11, further comprising the step of attaching a brake pipe to the pilot.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

[0006] The present invention will be more fully understood and appreciated by reading the following Detailed Description in conjunction with the accompanying drawings, in which:

[0007] FIG. 1 is a schematic of a control valve for an automatic parking brake according to the present invention in a first position; and

[0008] FIG. 2 is a schematic of a control valve for an automatic parking brake according to the present invention in a second position.

DETAILED DESCRIPTION OF THE INVENTION

[0009] Referring to the figures, wherein like numerals refer to like parts throughout, there is seen in FIG. 1 a control valve 10 for use with an automatic parking brake 12 that is coupled to a brake cylinder 14 for retaining the brake cylinder 14 in the brakes applied position when a train is to be parked, such as the Parkloc system. Control valve 10 is positioned between the source of BP pressure 16, such as the brake pipe, that is used to control the automatic parking brake 12 and the control inlet 18 of automatic parking brake 12 that receives brake pipe pressure so that the parking brake 12 can respond thereto. Control valve 10 includes an inlet 20 in communication with the source of BP pressure 16 and an outlet 22 in communication with the BP pressure inlet 18 of automatic parking brake 12. Control valve 10 is moveable between a first position where inlet 20 is connected to outlet 22, and a second position where inlet 20 and outlet 22 are isolated from each other. Control valve 10 further includes a pilot 24 coupled to a source of BP pressure 16. Pilot 24 may be coupled to sources of pressure in addition to BP pressure 16, such as the emergency or auxiliary reservoir pressures (or combinations thereof), for additional functionality like delaying the release on the first railcar in a train due to the delay in charging of the various reservoirs at the rear of a train.

[0010] Pilot 24 is configured to urge control valve 10 from the first position to the second position against a biasing force, such as a spring 26. Spring 26 is configured to provide a predetermined amount of biasing force so that control valve will shuttle between the first and second positions when BP pressure 16 at pilot 24 is between 50 and 60 psi. A check valve 28 with a cracking pressure of less than 2 psi is positioned in parallel to control valve 10 between the source of BP pressure 16 and the BP pressure control inlet 18 of automatic parking brake 12. FIG. 1 illustrates control valve 10 in a released state, such as when BP pressure is fully charged, i.e., 90 psi in most locations. It should be recognized that the triggering pressures may be varied according to the system to adjust the timing of the locking and unlocking, or to account for the use of additional sources of pressure connected to pilot 24.

[0011] As seen in FIG. 2, when BP pressure is vented to, for example, 10 psi, control valve 10 will shuttle to the second position, thereby isolating the BP pressure inlet 18 of automatic parking brake 12 from the source of BP pressure 16. In the absence of BP pressure at inlet 18, inlet 18 will vent through check valve 28 so that the pressure drops to below 2 psi (as determined by the cracking pressure of check valve 28. As a result of the loss of pressure, the locking mechanism of automatic parking brake 12 will engage and lock brake cylinder 14. When BP pressure is recharged, control valve 10 will not shuttle back to the first position until the BP pressure at pilot 24 reaches the predetermined level set by spring 26, e.g., between 50 and 60 psi. As a result, the charging BP pressure remains isolated from automatic parking brake 12 until this point as no BP pressure is provided to the BP pressure inlet 18 of automatic parking brake 12 until control valve 10 returns to the first position. Automatic parking brake 12 will thus remain engaged until the BP pressure surpasses the predetermined level set by spring 26 and control valve 10 is shuttles to the first position as shown in FIG. 1. Thus, once BP pressure reaches the predetermined level, such as 50-60 psi, control valve 10 move into the first position to connect inlet 20 with outlet 22, thereby allowing BP pressure to flow to BP pressure control inlet 18 of automatic parking brake 12. As a result, the locking mechanism will be released of automatic parking brake 12. It should be recognized that a train having rail cars equipped with control valve 10 according to the present invention will release the locking mechanism of each parking brake of each rail car simultaneously as all automatic parking brakes 12 will not release until the predetermined level of BP pressure is reaches such that each control valve 10 of every rail car shuttles to the first position.

[0012] Control valve 10 may be used with any automatic parking brake 12 that engages in the absence of brake pipe pressure and disengages in response to recharging of the brake pipe, including the Parkloc system. Control valve 10 may be used with any automatic parking brake 12, including those used on ABU type and truck mounted brake cylinders.