SU207048A1 - DEVICE FOR SUPPLY OF OPERATING LIQUID TO - Google Patents

Description

The invention relates to devices for supplying a working fluid to a main hydraulic system of a hydromechanical transmission, and pumping a working fluid through a torque converter and heat exchanger, as well as devices designed for hydromechanical transmissions containing a torque converter and a manual speed gearbox that has shifting mechanisms actuated pressure fluid supplied from the main hydraulic system.

Devices are known for supplying the working fluid to the main hydraulic system of hydromechanical transmission and pumping it through a torque converter and heat exchanger. They contain a fluid supply pump to the main hydraulic system connected to a fluid supply channel to the torque converter through a pressure reducing valve, and a second pump or a separate section of the pump for pumping fluid through the torque converter and heat exchanger, which together with this pump or pump section forms a system for circulating fluid.

In such devices, there is a significant negative pressure at the inlet to the pump and a significant increase in the heat exchanger.

with the main hydraulic system pump suction channel with a channel in which a throttle or non-return valve is installed, which allows liquid to flow from the main hydraulic system pump suction channel with a throttle bore located in the valve spool.

This embodiment will reduce the pressure in the heat exchanger and reduce the vacuum at the entrance to the pump pumping fluid

through the torque converter and heat exchanger on these modes of operation.

FIG. 1 shows a diagram of the proposed device; in fig. 2 shows two embodiments of the node L in FIG. one;

The device includes a pump 1 for supplying working fluid to the main hydraulic system of a hydromechanical gearbox. The pump suction cavity is connected by channel 2 to the working fluid intake 3, located in

reservoir 4, and the discharge cavity of pump 1 is connected to channel 5 of the main hydraulic system. The device contains the second pump 6 (or a separate section of pump 1), the discharge section of which is connected by channels 7 and S Pump 6, torque converter 9, filter //. the heat exchanger 13 and the channels 7, 8, 10, 12 and // form a system for circulating the working fluid. The main hydraulic system is connected to the channel 15 connected to the channels for supplying the working fluid to the torque converter through a pressure reducing valve (not shown). The channel 14 is connected to the suction channel 2 of the pump 6 by the channel 16, in which the choke 17 is installed (Fig. 2), which connects the channel 2 in the pump casing / with the channel 14 in the pump casing 6. The pump cases Y and 5 are separated by a partition 18 with an opening 19. In another embodiment, a check valve 20 is installed in the channel 16, comprising a spool 21 with a throttling hole 22 and a spring 23 pressing the spool against the seating surface formed in the pump housing /. In this design, the cases of pumps 1 and 6 are also separated by a partition 18. Valve 20 can pass the working fluid between the spool and the seating surface from channel 2 to channel 14. Pump 6 is equipped with a non-overflow valve 2 (Fig. 1). The device works as follows. Pump 1 supplies the working fluid from reservoir 4 through intake 3, channel 2 to channel 5 of the main hydraulic system, and pump 6 pumps liquid through the torque converter 9, filter 11, heat exchanger 13. With increasing pressure in channel 14, part of the liquid from this channel through channel 16 and the throttle installed therein or through the throttling orifice 22 of the spool 21 passes into the suction channel 2 of the pump 1, the pressure in the heat exchanger decreases. When a vacuum occurs at the suction of the pump 6, the liquid from channel 2 but channel 6 through the throttle or non-return valve enters channel 14, so that the vacuum in this channel does not reach a significant value. The valve 24 limits the pressure of the fluid in the channel 7 supplied to the torque converter. Object of the Invention A device for supplying a working fluid to a main hydraulic system of hydromechanical transmission and pumping a working fluid through a torque converter and a heat exchanger containing a pump for pumping a liquid into a main hydraulic system connected to a fluid supply channel to a torque converter through a pressure reducing valve a torque converter and heat exchanger, which together with this pump or pump section form a system for circulating the working fluid, characterized by By the fact that, in order to reduce the pressure in the heat exchanger and reduce the vacuum at the inlet to the pump pumping fluid through the torque converter and heat exchanger during a series of operation, a channel connecting the heat exchanger with suction pump through the torque converter and heat exchanger is connected to the suction channel of the pump of the main hydraulic system; the channel in which the throttle or non-return valve is installed; the fluid that passes through the suction channel of the pump of the main hydraulic system with the throttle bore is made th in the valve spool.