SU433306A1 - CO.? SHLEX OXYLINAMIC TRANSMISSION - Google Patents

Description

The invention relates to the field of the 1st machine building industry and can be used, for example, in the mining industry, road construction machinery, automotive industry B drive machines,

 QBQCTEu complex hydrodynamic transmissions with a partially filled working fluid circulating circle, containing a pumping wheel with an outer torus connected to the closing housing, a turbine wheel and a reactor mounted on a glass in the housing.

These transmissions have good accelerating properties, but they do not sufficiently protect the transmission from overload in the event of a sudden locking of the turbine shaft.

The aim of the invention is to improve the safety properties of the hydraulic transmission.

For this, the transmission is equipped with an additional camera, formed by a closing cover and an external

the surface of the outer torus of the impeller, in which the bypass is made, has openings for the passage of fluid around the cylinder, and the reactor is installed on the glass with the possibility of relative axial movement and is equipped with a device for moving it from the circulation circle to the additional chamber in the hydraulic coupling mode, chambers larger than the axial size of the reactor.

The drawing shows the proposed hydraulic transmission section.

The hydraulic transmission consists of a pump I, a turbine 2, and a reactor 3 wheels, which form a circulation circle, which is partially (70–75) filled with working fluid. The closing casing 4 forms, with the outer torus of the impeller I, an additional chamber 5. The reactor 3 is mounted on the glass 6 by means of an 1D rolling joint 7, supporting it axially

moving. With the aid of the thrust 8 and plug 9, the reactor 8 is connected with the device for moving the reactor from the circulation circle to the additional chamber 5 in the fluid coupling mode.

The axial size of the additional chamber 5 is somewhat larger than the axial size of the reactor 3. The overflow holes 10 are made in the outer torus of the impeller.

When the transmission is started, the reactor b will move the circulation circle. At the initial moment, at a large slip, the working fluid moves in a large circle of circulation, pressing down to the outer tori of the impellers and flow around the sequentially vane systems of the pump I of the turbine S and reactor 3. The transmission operates in the mode of torque transformation. In the additional chamber 5 there is also a certain amount of fluid, the pressure of which is balanced by the pressure of the fluid in the circulation circle, as chamber 5 communicates with the working cavity through the bypass openings 10. When the critical slip is reached, the flow of the working fluid changes from a large to a small circulation circle the liquid begins to move the mine vane system of the reactor 3, From this point on, the hydraulic transmission works in the fluid coupling mode. When the nominal slip is achieved, the reactor 3 is manually operated by the operator. Or the automatic device moves out of the circulation circle into the additional chamber.

When the turbine S is suddenly stopped, the liquid passes to the large circulation circle and is thrown into the additional chamber 5. Thus, the moment transmitted by the hydraulic transmission is limited and the transmission is protected

 from overload.

When the transmission is restarted, the reactor 3 is pushed into the circulation circle, preventing the liquid from flowing into the additional chamber 5.

By increasing the rotational speed of the pump I, the pressure of the liquid in the additional chamber 5 increases and it fills the circulation circle through the holes 10 until the pressure in the chamber 5 and the hydraulic transmission cavity is equilibrated. In the following, the cycle is repeated.

PREDGYET YOBOBRETYSh

A complex hydrodynamic transmission with a partly filled working fluid circulating circle containing a pumping wheel with

., 5 with an external torus connected with a closing casing, a turbine wheel and a reactor mounted on a glass in a housing are distinguished by the fact that, in order to improve

30 of its safety properties, the transmission is equipped with an additional chamber formed by the closing - housing and the outer surface of the outer wheel of the impeller,

35 in which bypass openings are made for the passage of fluid into the circulation circle, and the reactor is mounted on a glass with the possibility of relative axial movement of the BIA 40 and provided with a device for moving it from the circulation circle to the additional chamber in the fluid coupling mode, the axial size of the additional chamber

45 of the size of the reactor.