SU1767211A1 - Electric and hydraulic motor - Google Patents

Abstract

Use as a piston engine. SUMMARY OF THE INVENTION 1 In housing 1, a crank drive-drive mechanism 3 is located, which is connected to a piston 4 located in a cylinder 5. Electrodes 7 are installed in a working chamber 6 filled with an ion-conducting liquid. The piston 4 is sealed to the cover 2 by means of a bellow 8 in the wall cylinder 5 is equipped with a check valve 10 connecting the working chamber 6 with the external chamber 9. The retaining tank 13 communicates with the chambers 8 through the elbows 12. Positive effect: extending the functionality by isolating the working chamber. EASURES from the external environment. 1 s p f-ly, 1 silt

Description

The invention relates to mechanical engineering, namely to electric motors, in the national economy can be used as an alternative to piston engines.

A hydraulic machine is known, the cylinder of which contains a piston with the formation of a working chamber, and a retaining tank communicates with the working chamber by means of a cranked channel, and at least one pair of electrodes is installed in the working chamber, and the cavities of the working chamber, cranked channel and retaining tank are filled ion-conducting fluid.

A disadvantage of the known hydraulic machine is the need for high accuracy and cleanliness of the processing of the working cylinder and piston, which is exacerbated by the constant exposure to their surface of an ion-conducting medium, while the hydraulic machine does not have the ability to convert the reciprocating movement of the piston into rotational movement of the working body.

The aim of the invention is the expansion of functionality by amplification of the working chamber from the external environment and the possibility of converting the reciprocating movement of the piston into the rotational movement of the working body,

This goal is achieved by the fact that, in contrast to the known hydraulic machine, a drive mechanism is placed in the housing, made in the form of a crank mechanism kinematically connected with a piston made in the form of a cylindrical cup placed with the possibility of reciprocating movement in the cylinder. In this case, the piston is connected to the housing by means of a bellows and forms an external chamber communicating through a check valve installed in the cylinder wall with the working chamber. The valve is installed with the possibility of transferring fluid from the external chamber to the working one, and the piston is installed in the cylinder with the possibility of periodic overlapping at the top dead center of the crankshaft channel and the check valve opening.

Can a hydraulic machine be made as one? and multi-sectional, in this case a bypass channel is made in the housing, communicating the working chambers of each section and placed with the possibility of overlapping pistons at top dead center, while at least one pair of electrodes is placed in each working chamber filled with ion-conducting medium.

The drawing shows a hydraulic machine in a two-section embodiment, a longitudinal section,

The hydraulic machine comprises a housing 1 with a cover 2. In the housing 1 there is a drive mechanism 3 made in the form of a crank mechanism, which is kinematically connected with a piston 4 made in the form of a cylindrical cup and arranged for reciprocating movement in the cylinder 5, with the possibility of the formation of the working chamber 6. in the cavity of which electrodes are installed 7. By means of a bellows 8, the piston 4 is hermetically connected to the cover 2 of the housing, while forming an external chamber 9, which is communicated installed in the walls e of cylinder 5 with a non-return valve 10 with a working chamber 6. At the same time, the valve Y is installed with the possibility of liquid transfer from the external chamber 9 to the working chamber 6, and the piston 4 is located in the cylinder 5 with the possibility of periodic blocking at the top dead point of the hole of the check valve 10 and the hole of the bypass channel 11, communicated through a cranked channel 12 with a retaining tank 13. The cavity of the tank 13, the working chamber 6, channels 11 and 12 are filled with a fluid ion-conducting medium.

When the piston 4 is at the top dead center, the holes of the valve 10 and the bypass channel 11 are closed, while in the second section of the hydraulic machine the piston 4 is located at the bottom dead center and the holes of the valve 10 and the bypass channel 11 are open.

When a high-voltage voltage is applied to the electrodes 7 of the first section of the hydraulic machine, an electro-hydraulic discharge occurs in the working chamber 6 in the ion-conducting fluid, accompanied by an increase in pressure and the formation of an expanding vapor-gas bubble, which, acting on the piston 4, moves it to the bottom dead center, while the shaft of the drive mechanism 3 makes 1/2 part of the revolution, and the piston 4 of the second section occupies the top dead center position, displacing part of the ion conductor from the cavity of the working chamber of the medium through the bypass channel 11 into the cavity of the chamber 6 of the first section, where, by the time the piston 4 moves to the bottom dead center, a vacuum occurs, then a high-voltage discharge is reproduced in the chamber 6 of the second section, the process repeats, as a result of which the crankshaft of the drive mechanism 3 completes full revolution.

As a result of alternating supply of high voltage voltage to the electric discharges of the working chambers 6, the reciprocating movements of the pistons 4 are converted by the drive mechanism 3 into the rotational movement of the working body of the crankshaft, while the amplification of the working chambers 6 from the external environment is provided by a bellows 8, where, in the case of penetration of the ion-conducting medium from the cavity chamber 6 into the cavity of the external chamber 9, the medium is displaced from the chamber 9 into the working chamber 6 by moving the piston 4 to the top dead center by means of a check valve 10.

Claims (2)

Claim 1. An electric motor containing a cylinder, in the bore of which a piston is installed with the formation of a working chamber, and a retaining tank communicating with the working chamber by means of a cranked channel, at least one pair of electrodes is installed in the working chamber, and the cavity of the working chamber, of the cranked channel and the retaining tank is filled with an ion-conducting fluid, characterized in that, in order to expand functionality by amplifying the working chamber from the external environment, the engine is equipped with a drive mechanism made in the form of a crank mechanism kinematically connected with a piston, which is connected by means of a bellows to the housing with the formation of an external chamber communicating via a check valve installed in the cylinder wall with a working chamber, the valve being installed with the possibility of liquid transfer from the external chamber to the internal one, and the piston is located in the cylinder with the possibility of periodic overlapping at the top dead center of the crankshaft channel and the check valve hole, 2. The electric motor according to claim 1, characterized in that the engine is made of at least two sections, and a bypass channel is made in the housing connecting the working chambers of each section and placed with the possibility of overlapping pistons at top dead center.