SU859728A1 - Wave transmission - Google Patents

Description

(54 WAVE TRANSMISSION

The invention relates to mechanical engineering and can be obiTij used in the development (re, l. Someone {) s with most. kinematic effect and autonomous lubrication system.

A wave transmission is known, containing aj, aH body, high-speed and low-speed shafts, a hydrolimia generator, flexible and rigid Kojieca 1.

However, the transmission can work only if there is a lubrication system located outside the closed system.

Closest to the proposed technical essence and the achieved result is a wave transmission, comprising a housing with a lid and an oil bath, a high-speed and low-speed shafts, a hydrodynamic | ejector, a rigid and flexible wheel and a lubrication system {2 |.

The disadvantage of this transmission is that its lubrication system assumes a strictly defined position of the transmission in space, when changing which the intake of lubrication from the oil bath and, therefore, lubrication of the surfaces of the generator and the flexible wheel become impossible. In addition, oil churning is unavoidable during operation. And since

no measures for the separation of liquid lubricant and air are provided, an oil-air emulsion enters the lubricant layer of the hydrodynamic generator, which is highly undesirable because it causes pressure pulsations in the discharge line at the lubricant layer, and the lubricant film loses significant part of stiffness and damping ability.

Thus, in the aforementioned gear, under these conditions, the lubricating surfaces of the generator and the flexible wheel are not reliably lubricated.

The purpose of the invention is to increase the reliability of wave transmission lubrication at various spatial positions.

Claims (3)

This goal is achieved by the fact that the gear is equipped with a cam plate mounted on the low-speed shaft, the lubrication system is made of a number of plunger pumps installed in the lid and interacting with the cam disc, the check valves in the suction and discharge lines of the injectors and intake devices, the generator is made in the form of a bolt and on the flange of the hard wheel there are windows, which communicate the internal cavity of the cup with the cavity between the lid and the flange of the hard wheel. Each intake device is designed as a hollow spool fixed in the body and a glass freely mounted in the axial direction. Two rows of radial holes are made in the spool and glass. In addition, filters are installed in the holes of the glass. The drawing shows a wave transmission, a general view in section. The wave transmission includes a housing 1 with a cover 2 and an oil bath 3, a high-speed 4 and a low-speed 5 shafts, a hydrodynamic generator 6, a rigid 7 and a flexible 8 wheels, mounted on the outer diameter of the hard wheel 7, a bandage 9, a cam washer 10 mounted on a low-speed shaft 5, a lubrication system made of plunger pumps 11 installed in the lid 2 and interacting with a cam washer 11, circulating valves 12 and 13 in suction lines 14 and 15 pumps, injectors 16 and intake devices, each of which is made as fixed In the housing 1 of the hollow spool 17 with two systems of radial holes 18 and freely mounted in the axial direction on the spool 17 of the cup 19 with two systems of radial holes 20, filters 21 installed in them 21. The generator 6 is made in the form of a cup 22 with an internal cavity 23, and On the flange of the rigid wheel 7, windows 24 are provided, communicating the cavity 23 with the cavity 25, between the lid 2 and the flange of the rigid wheel 7, the cup 22 contains channels 26 and carrying pockets 27. The low-speed shaft 5 is mounted on a bearing, in which The band 9, and the outer sleeve 28, is fixedly mounted in the housing 1. The cam washer 10 is installed so that the pumping stroke of the plunger pump 11 coincides with the moment when the windows 24 are located against the nozzle 16 of the injection line 15. Wave transmission works as follows. When the high-speed shaft 4 rotates, the hydrodynamic generator 6 mounted on it rotates, deforming the flexible wheel 8. Due to the interaction with the flexible wheel, the rigid wheel 7 receives rotation and informs its low-speed shaft 5. Together with the low-speed shaft 5, the cam washer 10 rotates plunger pumps 11. At the same time, from the oil bath 3 of the wave transmission is sucked through the filters 21, the openings 20 and 18 and the check valves 12 the oil entering the plunger pumps 11, where its pressure rises. From the plunger pump, the oil is fed through a check valve 13, nozzles 16 and a window 24 to the cup-shaped cavity 23 of the hydrodynamic generator 6. In the cavity 23, due to the high speeds of the generator 61, the oil is curled and, if there is air in it, then centrifugal forces acting on the oil it is forced out towards the axis of the generator 6. The oil cleared of air enters through the channels 26 and the carrying pockets 27 into the working gap between the rubbing surfaces of the generator 6 and the flexible wheel 8. Depending on the spatial position cottages oil in cavity 23 is provided with one or several tapping devices. The remaining devices in this position work in idle mode. With the evolution of pitch transmission, when the oil is collected, for example, at the cover 2, the cups 19 under the action of their own weight will be mixed to the far left position. In this case, the left (according to the drawing) rows of radial openings 18 of the spools 17 and openings 20 of glasses 19 are aligned and the oil is sucked through them. The right rows of the radial holes 18 and 20 are displaced relative to each other, which prevents the possibility of air suction from that part of the oil bath 3 where there is no oil at the moment. During the outflow of oil to the right wall of the housing I, the glasses 19 occupy the extreme right position and the oil is sucked through the right rows of holes 18 and 20. The left rows of these holes are offset from each other. With a horizontal transfer position, the positions of the glasses 19 are arbitrary and the oil is sucked either through one row of holes 18 and 20, or through two rows of these holes simultaneously. As the roll evolves, the oil in the oil bath 3 flows in a circumferential direction, with the result that it begins to be sucked in by the next intake device, while the previous device begins to operate in idle mode. The proposed wave transmission ensures reliable lubrication of the generator and flexible wheel surfaces at various spatial positions of the transmission. Especially effective is the use of this wave transmission in transmissions with an electric drive or other drives that do not have a centralized lubrication system. Claims. A wave transmission comprising a housing with a lid and an oil bath, a high-speed and low-speed shaft, a hydrodynamic generator, a rigid and flexible wheel, and a lubrication system, characterized in that, in order to increase the reliability of lubrication at different spatial positions, the transmission is equipped the cam washer, the lubrication system is made of lids installed in the lid and interacts with a cam disc of a number of plunger pumps, check valves in the intake and discharge lines of the injectors and intake valves stroystv generator is designed as a cup, and the flange wheels are rigid window soobsh, digits together with the inner cavity of the cup with a cavity between the cover and the flange of hard wheels. 2. The transfer under item 1, characterized in that each intake device is made L / O 7 21 B .......... J8 / 7/5 P 2S in the form of a hollow zolotnikov fixed in the body and a glass freely mounted in the axial direction on it, in the spool and glass there are two rows of radial holes. 3. Transmission according to claim 2, characterized in that filters are installed in the holes of the glass. Sources of information taken into account in the examination 1. US patent number 3161080, class. 74-640, published. 1964. 2. USSR author's certificate No. 665156, cl. F 16 H 1/00, 1979 (prototype). 3 / 2.021 /