RU77827U1 - TRAIL-HANDLE DEVICE FOR TRAIN TRAINS - Google Patents

Abstract

The utility model relates to the field of automotive industry and can be used, for example, in high-cross-country vehicles. The technical result is an improvement in performance. The towing device of the road train contains two forks 7 and 8, interconnected by an axis 6, one of which is attached to the tractor, two hydraulic cylinders 11 and 12 mounted in a horizontal plane from two sides of the axis 6, one ends of which are connected to the trailer, and the second - with the tractor, a sliding pipe 18 having a fixed link 19, rigidly attached to the tractor, and a sliding link 20, rigidly connected to the fork 7. The latter is connected by a tension spring 21 with the tractor. A pressure source 24 connected to the hydraulic tank 25 and a hydraulic distributor 26 .. are installed on the road train. The rod cavities of each hydraulic cylinder are paired with the piston cavities of the opposing hydraulic cylinder. The rod and piston cavities of each hydraulic cylinder are interconnected via a hydraulic damper 17. The hydraulic valve 26 is configured to communicate a pressure source with all cavities 13-16 of the hydraulic cylinders 11 and 12 simultaneously.

Description

The utility model relates to the field of automotive industry and can be used, for example, in high-cross-country vehicles.

A towing device for a road train is known having separate hydraulic cylinders for the brakes of the tractor and trailer, comprising a guide and sliding parts interconnected by a power hydraulic cylinder connected to a fluid distributor of the hydraulic system of the tractor, while the rod and piston cavities of the power hydraulic cylinder are connected by pipelines respectively to the separate cylinders of the separate brakes tractor and trailer (USSR author's certificate No. 575236, IPC B60D 1/14, 1975).

This device allows you to increase the patency of the road train, however, its disadvantage is the inconvenience of operation, since the installation and removal of the locking finger is carried out manually. The disadvantages of this device can also be attributed to the lack of damping devices in the coupling device, which can lead to rapid wear of parts of the coupling device and, as a result, to a decrease in its service life.

A towing device for a road train is known, comprising two forks connected to each other by an axis mounted on the tractor’s and trailer’s semi-frames, hydraulic cylinders mounted on two sides of the axle in the horizontal plane, attached to the tractor and trailer half-frames, and dampers (USSR author's certificate No. 1085857, IPC B60D 1 / 00, 1983). The vertical, longitudinal-angular and transverse-angular oscillations arising in the coupling device of this road train are suppressed by the joint

the action of torsion springs of hydraulic dampers and the power cylinder, which increases the operational characteristics of the road train.

The disadvantage of this road train is the lack of a damping mechanism and blocking of the longitudinal bend of the road train, which can lead to horizontal-plane fluctuations and the bend of the road train during maneuvers and during sharp braking.

Closest to the proposed one is a towing device of a road train, comprising first and second coupling elements made in the form of loops, the last of which are mounted in the grooves of the locking mechanism, to which a longitudinally mounted rigid element and hydraulic cylinders symmetrically placed relative to the longitudinal axis are connected pivotally at the same time, moreover the second ends of the rigid element and hydraulic cylinders are pivotally connected to the cross member, while the device is equipped with an additional hydraulic cylinder located in the rigid an element, the rod of which is connected to the first coupling element, and the rigid element is connected to the cross member by a ball joint (RF patent No. 2101196, IPC B60D 1/00, 1998)

The disadvantage of this device is the inability to move the road train connected with it along a steep slope.

The technical result of the claimed device is to improve performance by eliminating the possibility of horizontal-plane vibrations and excesses of the road train during maneuvers and during sudden braking.

This goal is achieved by the fact that the towing device comprises a sliding pipe having a fixed link rigidly attached to the tractor and a sliding link rigidly connected to the fork, while the pipe additionally has a tension spring fixed at one end to the frame, and the second to fork.

Figure 1 shows the installation diagram of the coupling device;

Figure 2 is a structural diagram of the coupling device.

The towing device 1 is designed to connect the parts of the road train: tractor 2 and trailer 3, all of whose wheels 4 are equipped with brakes (not shown). The towing device is made in the form of a hinge 5, consisting of an axis 6 and two forks 7 and 8, which are mounted, respectively, on the half frame 9 of the tractor 2 and on the half frame 10 of the trailer 3. The hydraulic cylinders 11 are installed on both sides of the hinge 5 in a horizontal plane and 12, respectively, with the rod cavities 13 and 14 and the piston cavities 15 and 16. The hydraulic cylinders 11 and 12 are pivotally attached to the half frames 9 and 10 of the tractor 2 and the trailer 3. The rod cavity 13 of the hydraulic cylinder 11 is in direct communication with the piston cavity 16 of the hydraulic cylinder 12. The rod cavity 14 of the hydraulic cylinder 12 is in communication with the piston cavity 15 of the hydraulic cylinder 11 also directly. The rod and piston cavities of each hydraulic cylinder 11 and 12 are interconnected via a hydraulic damper 17. A two-link telescopic pipe 18 is attached to the half frame 9, consisting of a fixed link 19 and a movable link 20. The link 19 is fixed to the half frame 9 of the tractor 2, and the link 20 to the plug 7 of the hinge 5. In the pipe 18, a tension spring 21 is installed, fixed at one end 22 to the half frame 9, and the second end 23 to the fork 7, to which the retractable link 20 is rigidly connected. There is also a pressure source 24, which is in communication with the hydraulic tank 25 and connected with all four Four cavities 13, 14, 15, 16 of differential hydraulic cylinders 11 and 12 directly, a directional control valve 26, a hydro-pneumatic accumulator 27, a pressure sensor 28 with a check valve 29, check valves 30, 31, 32, 33 and two safety valves 34 and 35.

The device operates as follows.

When moving along the highway, the towing device 1 provides damping of horizontal-plane fluctuations of the road train. It happens as follows

way. In the process of horizontal movements of the road train, the angular position of the trailer 3 relative to the tractor 2 changes, which causes the displacement of the rods of the hydraulic cylinders 11, 12, one to retract, the other to extend. The working fluid from the piston cavity 15 of the hydraulic cylinder 11 and the rod cavity 14 of the hydraulic cylinder 12 through the check valve 33, the hydraulic damper 17 and the check valve 30 flows into the piston cavity 16 of the hydraulic cylinder 12 and into the rod cavity 13 of the hydraulic cylinder 11. The resistance to flow movement is determined by the conductivity of the hydraulic damper 17 The value of conductivity, selected depending on a number of parameters of the movement of the road train, is determined by the control system, which is not considered in this application. A special case of this system is the complete locking of the hydraulic damper 17 when there is a danger of “folding" the train, for example, in the case of sudden braking. The continuity of the flow of the working fluid in the coupling device 1 of the road train is ensured by the presence of constant boost created by the hydropneumatic accumulator 27 and is controlled by the pressure sensor 28.

When the road train moves up the slope with a steepness exceeding the ability of the tractor to move, work occurs in the following mode. In the initial position, all the wheels 4 of the trailer 3 are braked and the wheels 4 of the tractor 2 are braked. The pressure source 24 is turned on and the valve 26 is moved to the left position, as a result of which the working fluid from the hydraulic tank 25 is supplied under high pressure through the check valves 29, 30, 32 simultaneously to all working cavities 13, 14, 15, 16 of hydraulic cylinders 11, 12. Due to the difference in the areas of the piston 15, 16 and rod 13, 14 cavities of the differential hydraulic cylinders 11, 12, their rods are simultaneously extended, which causes the spring 2 to stretch 1 and the extension of the link 20 of the telescopic pipe 18 from the link 19. As a result, the link 19, mounted on the frame 9 of the tractor 2, causes the tractor to move

up the hill. After the extension of link 20 to the maximum value, the brakes of the wheels 4 are switched. On the tractor 2 they turn on, on the trailer 3 they turn off. After that, the control valve 26 switches to the right position, as a result of which the working fluid opens the controllable check valve 29 under high pressure and communicates all the working cavities 13, 14, 15, 16 of the hydraulic cylinders 11, 12 through the check valves 31, 33 and the hydraulic damper 17 with the hydraulic tank 25 As a result, the spring 21 is compressed, pulling the trailer 3 to the tractor 2. Upon reaching the boost pressure, determined by charging the hydraulic accumulator 27, the sensor 28 gives a signal to turn off the valve 26. The alternation of the described modes provides There is the movement of a road train on a slope that is insurmountable for known road trains.

Claims (5)

1. A towing device of a road train, comprising two forks connected to each other by an axis, one of which is attached to the tractor, two hydraulic cylinders mounted in a horizontal plane on both sides of the axis, one ends of which are connected to the trailer, and the second to the tractor, characterized in that the device is equipped with a sliding pipe having a fixed link rigidly attached to the tractor and a pull-out link rigidly connected to the second fork, and a tension spring is installed in the pipe. 2. The device according to claim 1, characterized in that the tension spring is fixed at one end with a tractor, the second with a fork. 3. The device according to claim 1, characterized in that it is equipped with a pressure source in communication with the hydraulic tank and the control valve. 4. The device according to claim 1, characterized in that the rod cavities of each hydraulic cylinder are paired with the piston cavities of the opposing hydraulic cylinder, the rod and piston cavities of each hydraulic cylinder are interconnected via a hydraulic damper. 5. The device according to claim 1, characterized in that the valve is configured to communicate a pressure source with all the cavities of the hydraulic cylinders simultaneously.