HU195933B - Mechanism for connecting the brake circuits of towing vehicle and trailer - Google Patents

Abstract

The subject of the invention is a device for coupling the brake circuits of a tractor vehicle 2 and a trailer 9, a coupling brake cylinder 3 being provided on the tractor vehicle, to which cylinder a limit stop can be assigned. A working brake cylinder 13 arranged on the trailer 9 can be connected to this coupling brake cylinder. A coupling piston stop 5 for reciprocal mechanical connection of the brake cylinders is provided between the coupling brake cylinder 3 and the working brake cylinder 13. …<IMAGE>…

Description

The present invention relates to a device for connecting the brake circuits of a towing vehicle cs trailer.

Multi-hauling traction units, particularly lorries, and their trailers are usually fitted with air brakes and are interconnected for operation. Known structures of this type are not economically advantageous due to their complexity and weight, since they are particularly costly on towing vehicles such as tractors which are not equipped with a pneumatic brake for their own braking. They must be equipped with a compressor, air reservoir, filter and pressure relief valve to connect the trailer. Apart from the material requirements, the price, the manufacturing and the energy requirements, these devices require relatively large space. known; also systems in which the trailer is fitted with a mechanical brake actuator, which may in some cases be hydraulic. This mechanical operation is based on the principle of the inertia brake, which is controlled by the inertia of the trailer. Operating the trailer brake circuits in this manner is very difficult to set and maintain operating parameters in order to maintain the correct ratio between the two operating modes of the coupled vehicle. A major disadvantage of these systems is that the trailer braking effect on the slopes of the trailer when the trailer is stationary is minimal or non-existent, which can be very dangerous in some cases, especially on slippery road surfaces, due to insufficient adhesion of the towing vehicle.

This drawback can be eliminated by a device according to the invention for connecting the tractor and trailer brake circuits, which essentially consists in providing the tractor brake circuit with a coupling brake cylinder which is connected to the trailer brake cylinder by means of coupling elements and a coupling piston stop. which rests on the piston of the brake cylinder, which is integrated into a separate braking system of the trailer.

The purpose of the linkage between the towing vehicle and the trailer brakes is to provide a simple and practically usable connection between the hydraulic braking systems of multiple passenger, freight and traction vehicles. The device of the present invention eliminates the possibility of system failure due to improper handling due to human factors, as well as malfunction of the towing vehicle system due to damage to the flexible connecting hose. Preferably, the connecting hose is mounted on the trailer, not on the towing vehicle, on which only a rigidly fixed coupling cylinder is provided with a coupling socket. The two brake circuits of the towing vehicle and the trailer can thus be connected in a simple, quick and safe manner, as well as the connection of the electric light signaling systems to a seven-pin plug and socket. The device according to the invention provides a reliable and perfect connection between the two braking systems, especially hydraulic braking systems, which can be operated in all conditions, even on the tractor and on the truck.

Exemplary embodiments of the structure of the present invention are schematically illustrated in the drawing, where Figure 1 is a partial sectional view, side view, and Figure 2 is a similar view of another embodiment of the structure of the invention.

The brake circuit 1 of the towing vehicle 2 shown in Figure 1 has a switch brake cylinder 3 which is provided with a switch piston stop 5. This is based on the piston piston 13 of a brake cylinder 12 which extends into a separate brake system 8 of the trailer 9, which has a separate brake fluid reservoir 24. The brake cylinder 12 is mounted on the drawbar 14 of the trailer 9. Switch 3 is mounted on a cover plate 4. For example, when the coupling brake cylinder 3 is connected to the brake cylinder 12 by a bayonet lock 19, the cover plate 4 extends into the space 10 above the coupling pin 11 for coupling the trailer 9 to the towing vehicle 2. The trailer 2 ^- 6 ójárművön a socket similar to the wheel cylinder 12, but not shown is equipped with a mechanical lock. The socket 6 has a stop surface 7 inside it for receiving the switch piston stop 5 for detaching the tractor vehicle 2.

Alternatively, as shown in Fig. 2, the towing vehicle E can also be fitted with a bearing sleeve 15, which preferably has a spring-loaded locking mechanism 27. The piston stop 5 of the coupling cylinder 3, firmly fixed to the tractor vehicle 2, extends into the bearing sleeve 15. The coupling brake cylinder 3 is connected to the brake circuit 1 of the towing vehicle 2, which is preferably dual-circuit. However, this is not a prerequisite, since the clutch brake cylinder 3 can extend into the single-circuit braking system of the towing vehicles 2. The switch piston stop 5 may preferably be configured as the piston rod of the switch cylinder 3, but may also be provided directly on the piston of the switch cylinder 3 not shown. The towing vehicle 2 also has a stop stop 16 of the coupling brake cylinder 3, which can be formed, for example, as an inner stop ring, which is embedded in an annular groove on the inner surface of the bearing sleeve 15. In the example illustrated, the buffer brake cylinder 3 is provided with a buffer 17 for the horse barrier stopper 5 on the coupling piston stop 5. At the same time, this buffer 17 may be mounted or completely omitted, and the stop stop 1G may serve as a direct contact for the switch brake cylinder piston 3. (Not shown). The bearing sleeve 15 is provided with a bayonet lock 18 which is required for the ion-coupling member 19 of the brake sleeve 12 of the trailer 9. There is a contact 21 between the brake cylinder 12 or its piston 13 and the tractor brake cylinder 3 or its switch piston stop 5 or the brake cylinder piston 3 (not shown), which is fitted with the brake cylinder 12. can also be trained as a wand. 9 fékmunkahengere trailer 12 by means of a flexible pipe 22 with the nine connecting a trailer brake system 3 \ ^r and do connects flexible pipe 23 connecting the 2-1 fékfolj'adék Lartállyal 9-trailer. The flexible connecting tube 23, together with the flexible tube 22, may also be arranged in a flexible protective tube 25. The coupling sleeve 20 of the brake cylinder 12 may preferably be located where the towing vehicle 2 is connected to the bearing sleeve 15, above the towing link 2G of the towing vehicle 2 and the trailer 9, but at least above the drawbar 14 of the trailer 9. Preferably, the opening of the bearing sleeve 15 or its bayonet lock 18 is covered by a snap-action spring-loaded lock 27.

The structure of the invention operates as follows:

When the trailer 9 is uncoupled from the towing vehicle 2 and the latter is moving or standing alone, the clutch brake cylinder 3 is pressed into the socket 6 where its clutch piston stop 5 rests on the spacer surface 7 (Fig. 1), or the coupling sleeve 20 of the trailer brake cylinder 12 is detached from the coupling brake cylinder 3 of the towing vehicle 2 and stored or secured on the trailer 9 in a similar location (not shown) (Fig. 2). In this case, the piston of the brake cylinder 3 of the towing vehicle 2 is in a position where the stop stop 16 is in contact with the buffer 17 and the position of the piston of the brake cylinder 3 of the tractor 2 is in this case its working point. The amount of brake fluid 1 in the brake circuit 1 of the tractor vehicle 2 is added from a container not shown in the figure. The arrow of the bearing sleeve 15, or possibly its housing lock 18, is also covered by a spring lock 27. The towing vehicle 2 operates normally during brake circuit 1, the piston of the brake cylinder 3 is locked.

When coupled to the trailer 9, the towing vehicle 2 is also connected to its brake actuator cylinder 12 by pushing the clutch brake cylinder 3 into the aperture of the trailer 9 brake actuator 12 (Fig. 1), cut off the coupling sleeve 20 by the spring lock 27 After this, the bearing 15 is inserted into the sleeve arrow (Figure 2). In this case, by pushing the contact stop 21 on the piston stop 5, the piston of the brake cylinder 3 is pushed out of its locked end position and brought into its initial cam position, whereby the coupling sleeve 20 is biased by the bayonet lock 18 and bayonet coupling 19. When the brake cylinder piston of the switch 3 is depressed, excess brake fluid is pushed back into the brake fluid reservoir (not shown in the drawing). This connection creates a synchronous coupling between the brake cylinder 3 of the switch 3 and the brake cylinder 12, whereby all of the tractor vehicle 2 can be braked synchronously. It is also no problem to set the brake actuation time of the trailer 9 slightly earlier than when the brakes of the towing vehicle 2 are applied. This setting will remain constant and unchanged in the long run, especially when the brakes of the towing vehicle 2 and the trailer 9 are self-adjusting.

Claims (8)

PATENT CLAIMS A device for coupling the brake circuits of a tractor vehicle and a trailer, characterized in that the tractor vehicle (2) is provided with a brake cylinder (3) which is connected to the brake cylinder (12) of the trailer (9) and a switch piston stop (9). 5) provided with a piston rod (13) of the brake cylinder (12), which is incorporated into a separate brake system (8) of the trailer (9). Device according to Claim 1, characterized in that the bearing sleeve (15) with a burner-actuating brake cylinder (3) is firmly fixed on the towing vehicle (2), which is provided with a stop stop (16), wherein the bearing sleeve (15) (12) is connected via a flexible pipe (22) connected to the braking system (8) of the trailer (9) and between the clutch brake cylinder (3) and the brake cylinder (12). a contact stop (21) is installed. (11/1/1933) A device according to claim 1, characterized in that a cover plate (4) is attached to the coupling brake cylinder (3), which, together with the coupling brake cylinder (3), is the connecting pin of the towing vehicle (2) and the trailer (9). Extends over the space (10). (04.03.1933) A device according to claim 1, characterized in that a buzzer (2) is provided on the towing vehicle (2) with an abutment surface (7). (April 1, 1983) Structures according to claim 2, characterized in that the bearing sleeve (15) is provided with a buffer (J7) delimiting the buffer (J7) mounted on the coupling piston stop 15). (January 11, 1983) Device according to Claim 1, characterized in that the brake working fluid (12) of the trailer (9) on a dwelling, by means of a connecting pipe (23), is the brake fluid reservoir (24) of the trailer (9). is connected. (11/1/1983) A device according to claim 2 or 6, characterized in that the flexible conduit (22) is guided together with the flexible connecting conduit (23) in a common flexible conduit (25). (11/1/1983) Device according to Claim 2, characterized in that the bearing sleeve (15) is provided with a bayonet lock (18) which is connected to the bayonet connection (19) of a coupling sleeve (20) in which the brake actuator cylinder (12) is mounted. embedded. (1983, 11. ¹⁰ 01) 9. Device according to claim 1, characterized in that (5) is provided for collision contact caliper (12, coupling the cylinder (3), switch stop ¹⁵ zővel piston (21). (1983. 11. 01.)