RU2725355C1 - Recuperative pneumohydraulic fifth-wheel coupling of road-train - Google Patents

Abstract

FIELD: transport machine building.SUBSTANCE: invention relates to devices for coupling semitrailer with tractor. Recuperative pneumohydraulic fifth-wheel coupling comprises two semi-trailers arranged in semitrailer frame between its crosswise front and rear beams, a body consisting of a support plate, from below of which there fixed is a pin, hydraulic cylinders fixed parallel to each other on a support plate between longitudinal plates, with their bottoms resting against braces. Free ends of hydraulic cylinders rods are supported by bushings on front and rear bars. Head ends of hydraulic cylinders are connected via pipeline to the first pneumohydraulic accumulator. Rod ends by means of pipeline communicate with hydraulic tank by means of check valve and suction pipeline, and with second pneumohydraulic accumulator by means of check valve and pressure pipeline. By means of pressure pipeline the second pneumohydraulic accumulator is connected both with hydraulic tank by means of adjustable safety valve, and with port of working fluid supply to consumer by means of controlled reduction valve.EFFECT: broader functional capabilities of the fifth-wheel coupling device of the road train and higher efficiency of its operation.1 cl, 4 dwg

Description

The invention relates to the field of transport engineering, in particular to devices for coupling a semi-trailer with a tractor.

Known fifth wheel coupling device (AS No. 515683 USSR; B62D 53/08; publ. 05/30/1976) containing a frame, a support sheet, a pin, thrust posts, guides, friction linings, stops, buffers, elastic elements, stiffeners, sockets, mounting parts for buffer elements and kingpin, stops.

The disadvantage of this fifth wheel coupling device is the inability to suppress longitudinal vibrations, which, when the tractor with the semitrailer is suddenly braked, lead to its folding and the creation of emergency situations.

Known fifth wheel coupling of a road train (US Patent No. 4418934; B62D 53/08; publ. 12/06/1983), comprising a rotatable base plate, king pin, support elements, shaft, thrust bearings, flange, spacer bars, central bearing, trapezoidal mounting plates , brass bushings, reinforcing elements.

The disadvantage of this fifth wheel coupling of a road train is the lack of ability to change its damping characteristics with a variety of external dynamic component forces.

Known fifth wheel coupling of a road train (Patent No. 3606120 Germany; B62D 53/08; published on 08/06/1987) containing hydraulic cylinders, a pin, a wedge, a sliding plate of coupling, a vertical pin, a lever, a support flange, a hinge pin, a pin, an arcuate guide rail, brackets, eye, console flange, limit switches.

The disadvantage of this fifth wheel coupling device is the limited use, which consists in its use only with tractors of a certain configuration.

Known fifth wheel coupling of a road train (Patent No. 101314368 China; B62D 53/08; published 03.12.2008) containing two guides placed in the frame of the semi-trailer between its transverse front and rear bars, a housing consisting of a base plate, from the bottom of which a king pin is fixed . Taken as a prototype.

The said fifth wheel coupling device does not provide for the use of kinetic energy, which inevitably arises from the inertia of the mass of the semitrailer during acceleration, braking, turning, and moving along roughnesses on the road by converting it into potential energy of the working fluid in a pneumohydraulic accumulator for further useful use.

The invention extends the functionality of the fifth wheel coupling device and increases its efficiency.

This is achieved by the fact that the recuperative pneumohydraulic fifth wheel hitch of a road train containing two guides placed in the frame of the semi-trailer between its transverse front and rear rails, a housing consisting of a base plate, from the bottom of which a king pin is fixed, according to the invention, further comprises parallel mounted to each other on the base plate between the longitudinal plates is a hydraulic cylinder with bottoms abutting the spacers, the free ends of the hydraulic cylinder rods resting on the front and rear bars by means of bushings, the piston cavities of the hydraulic cylinders are connected via a pipeline to the first pneumatic-hydraulic accumulator, and the rod cavities are connected via a pipeline to a hydraulic tank with using a non-return valve and a suction pipe, and with a second pneumo-hydraulic accumulator by means of a non-return valve and a pressure pipe, in addition, a second pneumo-hydraulic accumulator using a pressure The pipeline is connected both to the hydraulic tank by means of an adjustable safety valve and to the port for supplying working fluid to the consumer through an adjustable pressure reducing valve.

In FIG. 1 shows a diagram of a regenerative pneumohydraulic fifth wheel coupling device of a road train in a static state; in FIG. 2, 3 and 4 are sections of the device along A-A, B-B and B-B, respectively.

The recuperative pneumohydraulic fifth wheel coupling device is located in the frame of the front of the semitrailer 1 between the front bars 2 and the rear 3 bars transversally mounted relative to its longitudinal axis. For ease of installation and maintenance of the device, a hatch is provided in the floor of the semi-trailer 1, closed by a cover 4. The housing 5 consists of a base plate 6, from the bottom of which a pin 7 is fixed, and from the top there are longitudinal plates 8 oriented parallel to the longitudinal axis of the semi-trailer, and the left 9 and right 10 transverse plates. The device body 5 is provided with reciprocating movement along the longitudinal axis of the semi-trailer with the help of two or more guides 11, the ends of which are fixedly mounted with the help of bushes 12 between the front 2 and rear 3 bars of the frame of the semi-trailer 1. In this case, the body 5 of the device in the guides 11 is carried out by bushings 13 mounted in the left 9 and right 10 transverse plates and supports 14. In addition, between the longitudinal plates 8, hydraulic cylinders 15 and 16 are fixed parallel to each other on the base plate, with the ends 17 resting against the spacers 18, the free ends of the rods 19 of the hydraulic cylinders 15 and 16 by means of bushings 20 are based on the front 2 and rear 3 bars. The piston cavities G and D of the hydraulic cylinders 15 and 16 are connected through a pipe 21 to the first pneumohydraulic accumulator 22, and the rod cavities E and I are connected via a pipe 23 to both the hydraulic tank 24 by means of a check valve 25 and a suction pipe 26, and to the second pneumohydraulic accumulator 27 by means of a non-return valve 28 and a pressure pipe 29. In addition, the second pneumohydraulic accumulator 27 is connected via a pressure pipe 29 to both the hydraulic tank 24 via an adjustable safety valve 30 and to the fluid supply port 31 to the consumer via an adjustable pressure reduction valve 32.

The operation of the recuperative pneumohydraulic fifth wheel coupling device is based on the use of kinetic energy, which inevitably arises from the inertia of the mass of the semi-trailer during numerous transient processes, such as: acceleration, braking by brakes and the engine, turns, movement along roughnesses of the road surface and coasting downhill, switching gears and others. The recuperative pneumohydraulic fifth wheel coupling device of a road train allows you to convert this energy into potential energy for its further useful use in technological hydraulic equipment of a road train. At the same time, the effectiveness of the proposed recuperative pneumohydraulic fifth wheel coupling device is well adapted to the impact on the road train of factors acting on the road train, such as the condition of the road conditions, the technical condition of the towing vehicle and semitrailer (synchronous braking by all wheels, tire wear, etc.) , driver professionalism, etc.

In the stationary (static) state of the road train, the base plate 6 is in the engaged state using the pin 7. Between the left 9 and right 10 transverse plates and, respectively, the front 2 and rear 3 bars, gaps l ₁ and l _{2 are} prudently formed. This position of the base plate 6 on the frame of the semitrailer 1 is ensured by the first pneumohydraulic accumulator 22, which acts as a damper mechanism.

When braking the road train to the base plate 6 of the recuperative pneumohydraulic fifth wheel coupling device, the inertia from the side of the frame of the semitrailer 1 begins to act through the king pin 7. For this reason, the king pin 7 with the base plate 6 kinematically connected together and the hydraulic cylinders 15 and 16 begin to move to the side braking tractor. However, due to the sliding of the bushings 13 along the guides 11 at the initial moment, it also moves within the rear clearance, but with less acceleration, the frame of the semi-trailer 1, as well as the front 2 and rear 3 bars rigidly connected with it, hydraulic cylinders 15 and 16, which are rigidly fixed between the spacers 18 and front 2 and rear 3 bars.

As a result of the braking of the road train in the hydraulic cylinder 15, the working fluid is compressed in the rod cavity E, which, through the pipe 23, the non-return valve 28 and the pressure pipe 29, enters the second pneumohydraulic accumulator 27. This ensures the recovery of the energy of the working fluid, which comes under increased pressure either through adjustable pressure reducing valve 32 and port 31 for supplying the working fluid to the consumer, or in the case of a full charge of the second pneumohydraulic accumulator 27 is discharged through the adjustable safety valve 30 into the hydraulic tank 24. When the road train is braked in the hydraulic cylinder 16, the working fluid is compressed in the piston cavity D, which is piped 21 enters the first pneumohydraulic accumulator 22, which acts as a damper mechanism.

The return of the hydraulic cylinder 16 to the initial position after braking is completed due to the pressure of the working fluid in the first pneumatic-hydraulic accumulator 22. The hydraulic cylinder 15 returns to its initial state due to the kinematic relationship through the base plate 6 with the hydraulic cylinder 16, due to the resulting vacuum in the rod cavity And the hydraulic cylinder 16 into it from the hydraulic tank 24 through the pipe 23, the check valve 25 and the suction pipe 26 receives the working fluid.

When starting a road train, the previously discussed working cycles of a recuperative pneumohydraulic fifth wheel coupling device are repeated, but in this case, the energy recovery of the working fluid occurs in the hydraulic cylinder 16. Then, when the road train moves with acceleration, deceleration, and when the vehicle starts moving and braking again, the working cycles of the device alternate similarly the sequence described above.

Practical use of the proposed recuperative pneumohydraulic fifth wheel coupling device of the device allows to increase the efficiency of the train due to reduced fuel consumption due to the recovery of energy of the working fluid and its useful use, to increase the reliability of the train due to the damping properties of the hydraulic system of the recuperative pneumohydraulic fifth wheel coupling to the train and accordingly reduce the dynamic train road train, to ensure both in manual and automatic modes the optimal parameters of the power characteristics of the device, to improve the ride smoothness when the road train is moving along insufficiently equipped roads and thus provide more favorable working conditions for the driver.

Claims (1)

A recuperative pneumohydraulic fifth wheel coupling device containing two guides placed in the frame of the semi-trailer between its transverse front and rear bars, a housing consisting of a base plate, from the bottom of which a pin is fixed, which further comprises parallel to the longitudinal plate fixed parallel to each other on the base plate hydraulic cylinders with plates resting against the spacers, the free ends of the hydraulic cylinder rods being supported by bushes on the front and rear bars, the piston cavities of the hydraulic cylinders are connected through the pipeline to the first pneumatic hydraulic accumulator, and the rod cavities are connected via the pipeline to the hydraulic tank via a check valve and the suction pipe, and with the second pneumohydraulic accumulator by means of a check valve and pressure pipe, in addition, the second pneumohydraulic accumulator is connected via pressure pipe to with a hydraulic tank by means of an adjustable safety valve, and with a port for supplying working fluid to a consumer through an adjustable pressure reducing valve.

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