SU994321A1 - Pneumoelectric braking system - Google Patents

Description

(54) ELECTROPNEUMATIC BRAKE SYSTEM

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This invention relates to rail vehicle braking systems.

Closest to the invention is an electropneumatic braking system comprising brake cylinders, a brake valve and a shut-off electro-pneumatic valve having inlet, outlet, and atmospheric connections, the brake cylinders are connected to the source of compressed air through a switch, and through the output and atmospheric connections brake the cylinders are connected to the atmosphere, the coil of the electropneumatic valve being connected to the electrical circuit through the contacts electrically x sensors 1.

The disadvantage of the system is that if an electropneumatic valve fails, when its valves do not return to the initial state when the winding is de-energized, a brake failure occurs. Thus, when the sensors are triggered, emergency braking can be activated, which can create an emergency situation (run, derailment, etc.).

The purpose of the invention is to increase reliability.

This goal is achieved due to the fact that an electropneumatic brake system containing brake cylinders, a brake valve and a shut-off electro-pneumatic valve having inlet, outlet and atmospheric nozzles are connected to the source of compressed air through a switch by means of inlet nozzles and atmospheric nozzles brake cylinders are associated with the atmosphere, and

10 electropneumatic valve coil is included in the electrical circuit through the contacts of electrical sensors, while the system is equipped with an additional electro-pneumatic shut-off valve (type 5, the inlet of which is connected to a source of compressed air, and the outlet to the atmospheric port of the first electropneumatic valve and its coil is included in circuit parallel to the coil of the first valve.

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FIG. 1 shows a pneumatic electro-schematic diagram of the brake system; in fig. 2 is a table illustrating the functional reliability of the brake system.

The brake system contains a compressor 1, which through a check valve 2 is connected to a tank 3, which is a source of compressed air for the brake system. Through pipe 4 tank 3 is connected to the supply hole of the brake valve 5, the outlet of which pipe b is connected to one of the inputs of the switching valve 7. The other input of this valve through pipes 8 and 9, as well as an electropneumatic valve 10 is connected to pipe 4, i.e. . with a source of compressed air.

In addition, there is an additional electro-pneumatic valve 11, the inlet of which, like that of the valve 10, is connected to the source of compressed air by the nozzle 12, and the outlet is muffled by atmospheric. main valve port 13 10. Atmospheric port 14 valve 11 is in communication with the atmosphere.

The electrical windings of the valves 10 and 11 are connected in parallel and connected to the power supply V via the contacts of 15 different sensors. As these sensors, a safety pedal, an electric driver controller, an electrodynamic brake circuit current relay, a train rupture sensor, an impact sensor and other emergency sensors can be used. All of them should have normally closed contacts, which open when a train needs to be braked.

The outlet of the switching valve 7 by the nozzle 16 is connected to the brake cylinders 17-20, which realize the mode of pneumatic braking of the car, which are actuated by the brake pads.

Brake system works as follows.

Normally, tank 3 is filled with compressed air. In the absence of braking mode, the valve 5 is closed, the valves 10 and 11 are turned on, since all the contacts in the power supply circuit of their windings are closed. In addition, each of the valves 10 and 11 separates the inlet from the outlet and the atmospheric and connects the outlet to the atmospheric (see the solid lines in Fig. 1). In this case, compressed air does not enter the brake cylinders - there is no brake force.

When manually activating the brake, the driver uses the crane 5 together with the pipes 4 and 6 between them, as a result of which the compressed air from the tank 3 flows into the brake cylinders. The filling of the cylinders is manually controlled by the valve 5.

Automatic activation of the brake system occurs when the contacts of 15 sensors are opened. At the same time, valves 10 and 11 are turned off, together with their outlets with the inlet and separating them from

atmosphere (see the dashed lines in Fig. 1). When this compressed air from the tank 3 through the valve 10 and the valve 7 enters the brake cylinders, realizing the braking of the car.

If, however, when the contacts 15 are tapped, the mechanical system of the valve 10 does not work, then its outlet opening remains disconnected from the inlet, i.e. its state will correspond to that shown in fig. 1 solid line. However, compressed air will nevertheless enter the brake cylinders through pipe 12, valve 11, pipe 13, valve 10, pipe 9 and valve 7. Thus, even if valve 10 fails, the brake will be activated.

If valve 11 failed, and valve 10 is working normally, the brake will be activated by valve 10, as discussed above. Only when both valves 10 and 11 fail, the brake is turned off. To further increase the reliability of the brake system.

one additional valve can be used.

The above variants of the braking system operation with various combinations of normal H and failure states of the valves 10 and 11 are shown in FIG. 2

The technical and economic efficiency of the invention is determined by the increase in the functional reliability of the brake system, which remains operable in the event of failure of any of the valves.

Claims (1)

Invention Formula An electro-pneumatic brake system containing brake cylinders, a brake valve and an electro-pneumatic shut-off valve having inlet, outlet, and atmospheric connections by means of inlet connections brake Qi. The cylinders are connected to a compressed air source through a switch, and through output and atmospheric nozzles the brake cylinders are connected to the atmosphere, and the electropneumatic valve is connected to the electrical circuit through the contacts of electrical sensors, which, in order to increase reliability, have an electropneumatic braking system an additional electro-pneumatic shut-off valve, the inlet of which is connected to the source of compressed air, and the outlet to the atmospheric air supply cutting a first electropneumatic valve, and its coil is included in an electrical circuit across the coil of the first gate. Sources of information taken into account in the examination of L Patent of Germany No. 2160879, cl. In 60 T 13/68 pub. 1979 (prototype). dt tu -0 ten Bx. / (GN Out 3 12 W LGM naB 1820 . one Functional /} reliability of the brake: in case of failures 8ent / 1th Wu 11 FIG. 2