SU1549801A1 - Feeding system of hydromechanical gearing - Google Patents

Abstract

The invention relates to a transport engineering, in particular to hydromechanical transmissions (GMF) with two parallel hydraulic pumps. The purpose of the invention is to increase efficiency by reducing energy loss. The power system of the GMF contains a hydraulic tank 1, a main hydraulic pump 2, an additional hydraulic pump 3, and a two-position valve 9 for switching off the main hydraulic pump. The suction hydroline 15 of the additional hydraulic pump 3 is connected to the hydraulic line consisting of sections 11, 12 and connecting the on-off valve 9 with the suction hydraulic line 13 of the main hydraulic pump 2. 4 Il.

Description

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The invention relates to a transport engineering, in particular to hydromechanical transmissions (GMF) with two parallel hydraulic pumps.

The purpose of the invention is to increase efficiency by reducing energy loss.

FIG. 1 shows a hydraulic schematic diagram of a power supply system of a hydromechanical transmission; in fig. 2 is a flow chart of the direction of movement of the working fluid with the on / off valve closed; in fig. 3 diagram of the direction of movement of the working fluid when the capacity of the main pump is less than that of the additional pump; in fig. A diagram of the direction of movement of the working fluid when the capacity of the main pump is less than the capacity of the additional pump

The system includes a hydraulic tank 1, a main hydraulic pump 2 and an additional hydraulic pump 3. The hydraulic pump 4 of the main hydraulic pump 2 and the hydraulic pump 5 of an additional hydraulic pump 3 are connected to the working hydraulic line 6, respectively, via check valves 7 and 8. The two-position valve 9 for switching off the main hydraulic pump 2 is installed in the hydraulic line consisting of sections 10, 11, 12 and connecting pressure hydraulic line k and suction hydraulic line 13 of the main hydraulic pump 2. The control cavity of the on-off valve 9 is connected by hydraulic line 14 to the working hype Rolin 6. Lines 15 additional suction pump 3 is connected to the hydraulic line, consisting of portions 11,12 and connecting the on-off valve 9 to the suction hydraulic line 13 of the main pump 2. Plot 12 and lines 13 are connected to one hydraulic line hydraulic tank 1b.

The system works as follows.

The main hydraulic pump 2 and the additional hydraulic pump 3 suck the working fluid from the hydraulic tank 1 through the hydraulic lines (16, 13 and 16, 12 15 respectively) and pump it through the hydraulic lines C and 5 and check valves 7 and 8 into the working hydraulic line 6 If the pressure in the working hydraulic line 6 and in the control cavity k connected with it, the control cavity of the two-position valve 9 does not exceed the pressure 0

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construction, two-way valve 9 is closed (Fig. 2). When the pressure in the operating line b exceeds the set pressure, the on-off valve 9 opens and shuts off the main hydraulic pump 2, connects its pressure hydraulic line k and the suction hydraulic line 13 by means of hydraulic lines (sections) 10, 11 and 12. At the same time, the check valve 7 is closed. the main hydraulic pump 2 is less than the capacity of the additional hydraulic pump 3, the latter sucks in the hydroline 15 all the working fluid from the hydroline (section) 11, and the missing quantity of the working fluid is sucked from the hydraulic ka 1 via hydraulic lines 16 and 12. The main hydraulic pump 2 thus sucks in hydraulic line 13 all the necessary quantity of hydraulic fluid from the fluid container 1 via the hose 16 (FIG. 3). If the capacity of the main hydraulic pump 2 is greater than the capacity of the additional hydraulic pump 3, the latter sucks in the hydroline 15 a portion of the working fluid from the hydroline 11, and the excess amount of the working fluid from the hydroline (portion) 11 enters through the hydroline (portion) 12 into the suction hydroline 13 of the main hydraulic pump 2 ” The latter sucks in the hydroline 13 the missing amount of the working fluid from the hydraulic tank 1 through the hydroline 16 (FIG.). In both cases, there is an intensive change in the working fluid circulating through the main hydraulic pump 2, without losing the energy of the working fluid from the working hydroline 6.

Claims (1)

Invention Formula The power supply system of hydromechanical transmission, containing a hydraulic tank, main and additional hydraulic pumps with suction and pressure hydroline each, with the main hydraulic pump connected to the input shaft of the hydromechanical transmission, an additional pump connected to the output shaft of the hydromechanical transmission, the pressure lines of the hydraulic pumps are connected to the working hydroline through reverse valves, on-off valve of the main pump shut-off, installed in the hydraulic line, communicating the pressure and suction hydraulic lines of the main pump, p lethargy off valve disconnecting the control of the main pump in communication with the working hydraulic line of t lichayuscha that, with tse pour enhance efficiency by 15 figs 15 98016 reducing energy losses, it is equipped with an additional hydroline, which connects the suction hydroline of an additional pump with hydroline, which connects a two-way valve with the suction hydroline of the main pump. 15 gjt / yy (rig.4