RU2659150C1 - Adjustable hydraulic clutch with a lock (embodiments) - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: group of inventions refers to machine building, and more specifically to hydraulic clutches. Adjustable hydraulic clutch with a lock contains the turbine and pump shafts and a rotating or non-rotating tank that is adjustable in volume of the periphery of the working cavity. End surfaces of the tank are connected to each other by an elastic bellows made in the form of an annular corrugation that is adjustable in length. When adjusting the bellows in one direction, synchronously with the change in the filling of the working variable volume of the tank of the adjustable hydraulic clutch with a lock, the operating clearance between the blades of the pump and turbine impellers also changes. When adjusting the bellows to the other side, only the filling of the working variable volume of the tank of the adjustable clutch with a lock changes.

EFFECT: smooth regulation of the torque is achieved.

2 cl, 2 dwg

Description

Various types and designs of adjustable hydrodynamic couplings using rotating or fixed reservoirs of additional volume for regulation [1, 2] with mechanical blocking of the turbine and pump shafts by friction couplings [3, 4] are known from the prior art.

The disadvantages of these designs are the difficulty in manufacturing (the use of scoop tubes, feed pumps, seals of additional volumes, etc.), the small range of regulation, the difficulty in control (regulation of filling, emptying the fluid coupling) and, as a result, the large weight, dimensions and high cost of the devices.

The closest in technical essence to the claimed technical solution and therefore adopted as a prototype is the patent for the invention No. RU 2171925 of 07.28.1997 "Device for controlling the fluid coupling filling" Author: Yuri Fedorovich Klimovich. The prototype consists of drive and driven shafts, on which a pump wheel and a turbine wheel are fixed, forming the working cavity of the fluid coupling. The closing sleeve of the fluid coupling is fastened to the pump wheel, and the outer cover is able to move axially along the shaft and the closing cover. A cavity of variable volume is formed between the outer casing and the closing casing, which is an additional reservoir. The disadvantages of the prototype are the complexity in the manufacture of seals and the complexity of the device for regulating the transmission of torque, as a result, the high cost of the entire device, as well as the inability to completely turn off the transmission of torque and regulation in the range of 0-100% when changing the angular speed of rotation of the drive shaft in the range from zero to par.

The objective of the group of inventions (achievement of the technical result) is to create an adjustable fluid coupling device with a lock, which allows efficiently and smoothly regulating the transmitted torque in the range from 0 to 100% when the angular rotation speed of the drive shaft changes from zero to nominal with the possibility, if necessary, of guaranteeing full turning off the transmission of torque.

This problem is solved by the fact that the proposed adjustable fluid coupling with locking, characterized in that it includes a device for regulating the filling of the adjustable fluid coupling with locking by using, sliding in the axial direction along the axes of both turbine and pump shafts, internal adjustable by volume of the periphery of the working cavity of the rotating reservoir , the end surfaces of which are interconnected by an elastic bellows, made in the form of an annular corrugation, adjustable in length, allowing at walking the bellows, in one direction, simultaneously with the change in the filling of the working variable volume of the adjustable hydraulic clutch reservoir with locking, also change the working gap between the blades of the pump and turbine wheels in the circle of circulation of the working cavity of the adjustable hydraulic coupling with locking and the gap between the contact surfaces of the blocking friction clutch, and when adjusting the bellows to the other side, change only the filling of the working variable volume of the reservoir of an adjustable fluid coupling with a lock.

This problem is also solved by the fact that the proposed adjustable fluid coupling with locking, characterized in that it includes a device for regulating the filling of the adjustable fluid coupling with locking by using, sliding in the axial direction along the axes of both turbine and pump shafts, not internally adjustable by volume of the periphery of the working cavity a rotating tank, the end surfaces of which are interconnected by an elastic bellows, made in the form of an annular corrugation adjustable in length, allowing when adjusting the bellows in one direction, simultaneously with the change in the filling of the working variable volume of the adjustable fluid coupling reservoir with locking, also change the working clearance between the blades of the pump and turbine wheels in the circle of circulation of the working cavity of the adjustable hydraulic coupling with locking and the clearance between the contact surfaces of the locking friction clutch, and when adjusting the bellows to the other side, only change the filling of the working variable volume of the adjustable fluid coupling reservoir with locking.

Thus, the group of inventions covers several possible designs of an adjustable fluid coupling with a lock created by combinations of various designs of bellows expanders of an internal volumetric cavity that is adjustable in volume around the periphery when using a rotating or non-rotating reservoir of an adjustable fluid coupling with a lock with various designs of friction lock couplings and various control methods working gap between the blades of the pump and turbine wheels in cession filling variable volume working chamber controlled fluid coupling with a lock.

The essence of the group of inventions is illustrated by the drawings of FIG. 1 and FIG. 2.

In the drawings of FIG. 1 and FIG. Figure 2 shows a general functional diagram of an adjustable fluid coupling with a lock, which can be used for options for using axial sliding along the axes of both turbine and pump shafts, an internal volume-adjustable periphery of the working cavity with an embodiment of a rotating reservoir when connection 17 (shaft and sleeve) made in the form of a spline connection and with an embodiment of a non-rotating reservoir, when the connection 17 (shaft and sleeve) is made in the form of a sliding bearing. In the diagrams of FIG. 1 (off position) and FIG. 2 (on position) and the described adjustable hydraulic coupling with a lock comprises a drive shaft 2, structurally integrated with the pump wheel 4, and a movable, relative to the pump wheel, end surface 3 of a rotating or non-rotating reservoir, separated through an adjustable elastic bellows 6, made in the form of an annular corrugation, with another end surface 9, movable along the axis of the composite driven shaft 13 and due to this, adjustable in volume of the periphery of the working cavity 15 of a rotating or non-rotating reservoir, with a driven driven shaft 13, structurally integrated with the turbine wheel 8 and consisting of two shafts connected via a spline connection between the outer movable shaft 12 and the thrust bearing 10 of the end surface 9 of the rotating or non-rotating reservoir, axially movable along the axis of the inner axially stationary shaft 11, a support bearing 1, which is located on the drive shaft, the overall design of which allows smoothly, synchronously with a change in the filling of the working volume of a rotating or non-rotating a reservoir of an adjustable fluid coupling with a lock, also use the drive 14 to change the working gap between the blades of the pump 4 and turbine 8 wheels in the circle of circulation of the working cavity 15 of a rotating or non-rotating reservoir of an adjustable fluid coupling with a lock and smoothly turn on and off the transmission of transmitted torque through contact surface 5 on the pump wheel and contact surface 7 on the turbine wheel of a blocking friction clutch of an adjustable fluid coupling with a lock, and when p -regulation, 18 of the elastic drive bellows 6 to the other side, alter only filling the working tank volume variable adjustable couplings with lock.

The operation of the described adjustable fluid coupling with locking according to the schemes of FIG. 1 (off position) and FIG. 2 (on position) is as follows.

In the initial position, with the engine turned off, the adjustable fluid coupling with the lock is in the on position according to the circuit in FIG. 2 in the mode of blocking the transmitted torque. Before turning on the engine, an adjustable fluid coupling with a lock smoothly translates into the disconnected position of the transmission of transmitted torque according to the circuit in FIG. 1 first, using the drive 14, acting on the moving end surface 9 of the rotating or non-rotating reservoir, spreading the adjustable elastic bellows 6 and thereby disengaging the engagement between the contact surface 5 on the pump wheel and the contact surface 7 on the turbine wheel of the blocking friction clutch and increase to the maximum the working gap between the blades of the pump 4 and turbine 8 wheels in the circle of circulation of the working cavity 15 with a decrease in oil level with an increase in the volume of a rotating or non-rotating lockable fluid coupling reservoir according to the circuit of FIG. 1 and then with the help of a drive 18 acting on the moving end surface 3 of a rotating or non-rotating tank, pushing the adjustable elastic bellows 6 in the other direction, changing only the filling of the working variable volume of the tank of the adjustable fluid coupling with the lock, and thereby, in the final off position of the adjustable fluid couplings with locking, transmission of transmitted torque is completely off. After turning on the engine and accelerating the pump wheel at idle, an adjustable fluid coupling with a lock smoothly engages in torque transmission mode, according to the circuit in FIG. 1, first, with the help of a drive 18, acting on a moving end surface 3 of a rotating or non-rotating tank, shifting the adjustable elastic bellows 6 in the direction of compression, changing only the filling of the working variable volume of the tank of the adjustable fluid coupling with blocking, and then using the drive 14, acting on movable end surface 9 of a rotating or non-rotating tank and compressing the elastic bellows 6, reducing to a nominal working gap between the blades of the pump 4 and turbine 8 wheels in a circus circle lyatsii working chamber 15 with a gradual diminishing complete oil filling of the working volume of the rotating or non-rotating vessel. From the reduction to the nominal working gap between the blades of the pump 4 and turbine 8 wheels in the circulation circle of the working cavity 15, when changing to the maximum degree of filling of the working cavity 15, the speed of the output shaft depends, and thus the regulation of the operation of the adjustable fluid coupling with blocking and subsequent blocking of the transmitted rotational moment through the inclusion of the contact surface 5 on the pump wheel and the contact surface 7 on the turbine wheel of the locking friction clutch.

Thus, the use of complex control by changing the working gap between the blades of the pump and turbine wheels in the circulation circle of the working cavity and changing from minimum to maximum degree of filling of the working cavity of an adjustable fluid coupling with a lock allows you to effectively and smoothly control the transmitted torque in the range from 0 to 100% when changing the angular speed of rotation of the drive shaft in the range from zero to nominal with the possibility, if necessary, of guaranteed complete shutdown Ia transmitting torque.

Thanks to the above in the group of inventions, a technical result is achieved by creating an adjustable fluid coupling device with a lock, which allows efficiently and smoothly regulating the transmitted torque in the range from 0 to 100% when changing the angular speed of the drive shaft in the range from zero to nominal, with the possibility, if necessary guaranteed complete shutdown of torque transmission.

Bibliography

1. B.A. Gavrilenko, I.F. Semichastnov. Hydrodynamic couplings and transformers. M .: Engineering, 1969

2. Maurizio Wolf. Hydrodynamic couplings and transformers. Design and calculation. M .: Engineering, 1967

3. Ryakhovsky O.A., Ivanov S.S. Coupling reference. - L .: Polytechnic, 1991 .-- 384 p.

4. Ivanov M.N., Finogenov V.A. Machine parts: textbook for technical colleges. - 12th ed., Rev. - M.: Higher School, 2008 .-- 408 p.

Claims (2)

1. An adjustable fluid coupling with a lock, characterized in that it includes a device for regulating the filling of an adjustable fluid coupling with a lock by using axially sliding along the axes of both turbine and pump shafts, an internal volumetric adjustment of the working cavity of the rotating reservoir, the end surfaces of which are connected interconnected by an elastic bellows, made in the form of an annular corrugation adjustable along the length, which allows, when regulating the bellows, in one direction, to synchronize However, with a change in the filling of the working variable volume of the reservoir of the adjustable fluid coupling with locking, also change the working gap between the blades of the pump and turbine wheels in the circle of circulation of the working cavity of the adjustable fluid coupling with locking and the gap between the contact surfaces of the locking friction clutch, and when changing the bellows to the other side, only change filling the working variable volume of the reservoir of an adjustable fluid coupling with a lock. 2. An adjustable fluid coupling with a lock, characterized in that it includes a device for regulating the filling of an adjustable fluid coupling with a lock by using axially sliding along the axes of both turbine and pump shafts, an internal non-rotating reservoir, adjustable in volume of the periphery of the working cavity, whose end surfaces interconnected by an elastic bellows, made in the form of an annular corrugation that is adjustable along the length, which, when adjusting the bellows in one direction, with changes in the filling of the working variable volume of the adjustable fluid coupling reservoir with locking, also change the working gap between the blades of the pump and turbine wheels in the circle of circulation of the working cavity of the adjustable hydraulic coupling with locking and the clearance between the contact surfaces of the locking friction clutch, and only change when changing the bellows to the other side filling the working variable volume of the reservoir of an adjustable fluid coupling with a lock.

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