RU2499690C1 - Crawler tractor hydrostatic transmission - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to crawler tractor hydrostatic transmission and serves to drive and control said tractor and its mounted implements. Proposed transmission comprises two controlled reversible axial-piston pumps to make hydraulic circuit with appropriate hydromotor coupled with appropriate final drive and equipped with brake, and third hydraulic pump to make via pressure control valve the hydraulic circuit with hydraulic cylinders of mounted implements. Hydraulic circuits of said three hydraulic cylinders are independent. Hydraulic pumps share one shaft with drive engine while housings of adjacent hydraulic pumps are rigidly connected.

EFFECT: higher reliability, compact design.

4 cl, 1 dwg

Description

The invention relates to transport engineering and is intended to provide movement and control of a caterpillar tractor with a hydrostatic transmission and its attachments.

The hydrostatic drive of the undercarriage of tracked vehicles, in particular the bulldozer, has become widely used by leading manufacturers over the past two to three decades. The hydrostatic drive system is based on a simple and affordable principle - power transfer from the engine to the propulsion device through a fluid in a closed circuit. In addition, the cost of operation and maintenance of a hydrostatic transmission is much lower compared to a hydromechanical transmission, due to the smaller number of mechanical components.

The hydrostatic transmission of a caterpillar tractor is known, which ensures its movement and control of attachments (see RF certificate No. 13188 for the utility model "The system of movement and control of a caterpillar tractor and its attachments", announced September 13, 1999, IPC В60К 17/10). According to the indicated certificate No. 13188, the hydrostatic transmission of a caterpillar tractor contains three adjustable reversible axial piston hydraulic pumps, two of which are connected by hydraulic lines to uncontrollable hydraulic motors connected to final drives and equipped with brakes, and the third adjustable hydraulic pump is connected by hydraulic lines to the hydraulic equipment of the working bodies , which is installed with the ability to switch it to the hydraulic unregulated hydraulic motor ov. The torque from the engine is transmitted to all three hydraulic pumps through a transfer gearbox. With this transmission design, the presence of a third pump impairs the layout and reliability of the hydraulic system. In driving mode, the third pump is accelerating, that is, it only works to increase speed and cannot simultaneously control attachments. With the simultaneous operation of three hydraulic pumps, the working fluids of different hydraulic circuits are mixed with different levels of filtration. For the normal operation of hydraulic systems that ensure the movement of the tractor, thinner filtration fluid is used than for the operation of hydraulic cylinders that provide the work of attachments. If coarse filtration fluid gets into the hydraulic circuits responsible for the movement of the tracked vehicle, the filters become dirty and often have to be replaced in order for the system to work reliably. If this is not done, then the hydrostatic transmission may malfunction. However, frequent filter replacement makes the known hydrostatic transmission system quite expensive to operate.

The disadvantages of the known hydrostatic transmission are the unreliability of the work and the bulkiness of the layout solution.

The above hydrostatic transmission of a caterpillar tractor according to the certificate of the Russian Federation No. 13188 for a utility model is the closest analogue (prototype) by the essential features and the achieved effect of the claimed device.

The task of the invention is to increase the reliability of a hydrostatic transmission while improving the layout.

The technical result consists in the long-term preservation of the purity of the filters installed at the inlet to the hydraulic circuits of hydraulic pumps, and the compact design of the device.

This problem is solved by the fact that the hydrostatic transmission of a caterpillar tractor containing three hydraulic pumps, two of them are made of adjustable axial-piston reversible and forming hydraulic circuits with the corresponding hydraulic motor connected to the corresponding final drive gear and equipped with a brake, and the third hydraulic pump through the switchgear has the possibility of forming a hydraulic circuit with hydraulic cylinders of the working bodies of the attached equipment, according to the invention of the hydraulic circuit of all three hydraulic pumps They are autonomous, the hydraulic pumps themselves are mounted in series on the same shaft as the drive motor, and the bodies of adjacent hydraulic pumps are rigidly connected to each other.

In hydrostatic transmission, the third hydraulic pump is made of an unregulated gear.

In a hydrostatic transmission, the brakes of the hydraulic motors connected to the final drives are equipped with hydraulic breakers.

In hydrostatic transmission, the hydraulic motors are made of adjustable reversible axial piston.

Studies conducted on the sources of patent and scientific and technical information have shown that the claimed hydrostatic transmission of a caterpillar tractor is not known and does not follow explicitly from the studied prior art, that is, meets the criteria of "novelty" and "inventive step".

The proposed device can be manufactured in industrial conditions of the workshops of large and medium-sized engineering plants using modern well-known technologies, materials and standard equipment, which is produced by both domestic and foreign industry.

Therefore, the claimed device meets the criterion of "industrial applicability".

The proposed set of essential features gives the claimed device new properties that allow you to solve the problem.

The inventive design of the hydrostatic transmission of a caterpillar tractor is made in such a way that each of the three hydraulic pumps has an independent hydraulic circuit relative to each other and therefore no mixing of working fluids of different hydraulic circuits with different filtration levels occurs, as is the case in the prototype. The consequence of this is the reliability of the claimed device. The sequential installation of hydraulic pumps on the same shaft with the drive motor and the connection of the housings of adjacent hydraulic pumps provides a compact layout.

When implementing the inventive hydrostatic transmission, a number of other changes were introduced, compared with the prototype, which improved its properties and made it cheaper. So, the third hydraulic pump, which is responsible for the work of the working bodies of the attached equipment, is made of an unregulated gear, cheaper than an adjustable reverse axial piston. Hydromotor brakes associated with final drives are equipped with hydraulic breakers installed in final drives. Due to the presence of brake hydraulic disconnectors, the reliability of braking of the caterpillar tractor is ensured. The performance of hydraulic motors with adjustable reversible axial piston provides a smooth change in speed and traction and widening the range of achieved speed and traction, which ensures smooth movement of the tractor, without jerking.

The invention is illustrated in the drawing, which shows a schematic diagram of a hydrostatic transmission of a caterpillar tractor.

The inventive hydrostatic transmission of a caterpillar tractor contains a drive motor 1, on the axis of which three hydraulic pumps 2, 3, 4 are successively installed, two of which - 2, 3 - are made with adjustable reversible axial piston pumps, and the third hydraulic pump 4 is made with an unregulated gear. Cases (not indicated in the drawing) of adjacent hydraulic pumps are rigidly connected to each other by means of threaded connections. So, the body of the hydraulic pump 2 is attached to the body of the hydraulic pump 3, and that is attached to the body of the hydraulic pump 4. The hydraulic pump 2 is connected to the hydraulic motor 5, and the hydraulic pump 3 is connected to the hydraulic motor 6 with the formation of autonomous hydraulic circuits (not shown in the drawing). The hydraulic motors 5, 6 are made of adjustable axial-piston reversible motors and are connected respectively to planetary-type final drives 7, 8, which, in turn, are equipped with brakes 9, 10 with hydraulic breakers (not shown in the drawing). The hydraulic pump 4 is connected to the switchgear 11 and can form autonomous hydraulic circuits (not indicated in the drawing) with each of the hydraulic cylinders 12, 13, 14, 15, which ensure the work of the working bodies of the mounted equipment of the tracked vehicle. Hydraulic pump 4 is cheaper than hydraulic pumps 2, 3, since regulation or reversal is not required to control hydraulic cylinders. The working fluid flows to the hydraulic pumps 2, 3, 4 from the hydraulic tank 16 during movement and / or control of the hydraulic cylinders 12, 13, 14, 15 and merges there when there is no movement and control. All hydrocontours formed by high pressure hoses (not shown in the drawing). Signals for the implementation of the movement of the tractor and control of the hydraulic cylinders are supplied from the control unit (not shown in the drawing).

The proposed hydrostatic transmission of a caterpillar tractor is used as follows.

To carry out the movement of the tracked vehicle, the drive motor 1 is turned on and the torque is transmitted to the hydraulic pumps 2, 3, 4 installed in series on its shaft with the bodies attached to each other and converted by them into the kinetic energy of the working fluid. It is transferred along high-pressure hoses via self-contained closed hydraulic circuits to hydraulic motors 5 and 6 and to switchgear 11. If control of hydraulic cylinders 12, 13, 14 and 15 is not required, then the working fluid passes through the corresponding closed hydraulic circuit hydraulic pump 4 - switchgear 11 and drains in the hydraulic tank 16. Depending on the position of the inclined washers of the hydraulic pumps 2, 3, the brakes 9, 10 and the hydraulic motors 5, 6 open through the final drives 7, 8 steplessly change the speed of the caterpillar tractor and its traction force Ensuring smooth movement. With any type of movement from traction to transport, it is possible to control one of the hydraulic cylinders 12, 13, 14 and 15 of the working bodies of the attached equipment.

The claimed invention has several advantages:

- reliability of work;

- compact design;

- simplification of the design;

- cost reduction;

- expansion of the range of speed and traction.

Claims (4)

1. Hydrostatic transmission of a caterpillar tractor containing three hydraulic pumps, two of them are made of adjustable axial-piston reversible and forming hydraulic circuits with the corresponding hydraulic motor, connected to the corresponding final drive gear and equipped with a brake, and the third hydraulic pump through the switchgear can form a hydraulic circuit with hydraulic cylinders of the working bodies attachments, characterized in that the hydraulic circuits of all three hydraulic pumps are autonomous, the hydraulic pump itself installed in series on the same shaft with the drive motor and the housing adjacent the hydraulic pumps are rigidly connected to each other. 2. The hydrostatic transmission according to claim 1, characterized in that the third hydraulic pump is made of an unregulated gear. 3. The hydrostatic transmission according to claim 1, characterized in that the brakes of the hydraulic motors associated with final drives are equipped with hydraulic breakers. 4. Hydrostatic transmission according to claim 1, characterized in that the hydraulic motors are made of adjustable reversible axial piston.