SU1694984A1 - Microprocessor - Google Patents

Abstract

The invention relates to electrically driven diaphragm microcompressors and allows to increase efficiency and reduce mass and size characteristics. The rigid centers of the diaphragms 3, which are opposedly located working chambers 2, are connected by a frame 4, which is driven by reciprocating linear movement by an eccentric 10 with a ball bearing 15 without special guides. The eccentric 10 is mounted on a flywheel 8 with a ring gear 9 and a shaft 11, the supports 17 of which are placed opposite to the electric motor 1 relative to the frame 14. On the shaft 13 of the electric motor 1 a tube 12 is installed, which engages with the ring gear 9. Suction and discharge valves 4 and 5 , connecting the working chambers 2 with the suction and discharge chambers 6 and 7, are made in the form of tongue plates, and the absence of the guide frame 14 and the use of the ball bearing 15, improves efficiency. The mutual arrangement of the electric motor 1 and the supports 17, the internal engagement of the tube 12 with the crown 9 and the presence of the flywheel 8, eliminating imbalance and allowing the use of lightweight materials in the design, improve weight and dimensions. 1 il. 6 with with -0/4 15 о о СО СО

Description

The invention relates to a compressor structure and can be used in diaphragm compressors driven by an electric motor.

The purpose of the invention is to reduce the overall dimensions and increase efficiency.

The drawing schematically shows a microcompressor.

The microcompressor contains a micromotor 1, made in the form of an electric motor, a drive mechanism and two oppositely located working chambers 2 with diaphragms 3 having rigid centers, and with inlet and exhaust valves 4 and 5. Valves 4 and 5 are made in the form of tongue plates and reported by working chambers 2 with suction and injection chambers 6 and 7. The drive mechanism is in the form of a flywheel 8 with a ring gear 9, an eccentric 10 and a shaft 11, a tube 12 mounted on the shaft 13 of the electric motor 1 and connected to the ring gear E and frame 14.

The frame 14 is mounted on the bearing 15, which is a ball bearing, and is located on the eccentric 10. The electric motor 1 and the drive mechanism are housed in the housing 16. The opposite sides of the frame 14 are fixed on the rigid centers of the diaphragms 3. The shaft 11 of the flywheel 8 is installed in the bearings 17. Supports 17 and the motor 1 is placed on opposite sides of the frame 14.

The microcompressor works as follows.

The rotation of the shaft 13 of the electric motor 1 is transmitted through internal gearing of the shaft 12 (small gear) with center gear 9 to the flywheel 8 with the eccentric 10. The frame 14 performs a reciprocating rectilinear linear movement, provided by the freedom of movement of the ball bearing 15 inside the frame 14 in the direction transverse the line connecting the centers of the diaphragms 3, and the transfer of the movement of the ball bearing 15 in a straight line section inside the frame 14 along the line connecting the centers of the diaphragms 3. Reciprocating straight line Noe movement frame 14, which is due to the absence of guides and slight friction in a ball bearing 15 samoustanavlivaets at each time along its movement is transmitted to the diaphragms 3 provides that the periodicity suction, compression and injection in oppozit- GOVERNMENTAL working chambers 2.

The absence of friction losses during the movement of the self-aligning frame 14 and the use of contiguous rubber contiguous plates, ensuring reliable sealing, increases the efficiency

microcompressor, and also reduces the weight and size characteristics. Placing the supports 17 of the shaft 11 and the electric motor 1 on opposite sides of the frame 14 makes it possible to assemble a small-sized unit,

this is also caused by the nature of the internal engagement of the tube 12 and the crown 9. The presence of the flywheel 8 eliminates the imbalance of the drive mechanism, which allows the use of softer materials for

details of the design.

These measures make it possible to create a microcompressor driven by a low-power electric motor operated, for example, from dry cells.

Claims (1)

The invention contains a microcompressor containing a micromotor, a drive mechanism and two oppositely located working chambers with diaphragms having rigid centers, as well as inlet and outlet valves that communicate working chambers with suction and discharge chambers, characterized in that, in order to reduce mass and dimensions, and efficiency, it is provided with a housing, the micromotor is made in the form of an electric motor, and the drive mechanism is in the form of a flywheel with a toothed shaft, an eccentric and a shaft, a flange mounted on the motor shaft and connected to the toothed rim of the flywheel, and a frame mounted on a rolling support located on the eccentric of the flywheel, while the motor and drive mechanism are located in the housing opposite sides of the frame mounted on rigid centers of the diaphragms, the flywheel shaft is installed in the bearing bearings, valves are made in the form of tongue plates, and the electric motor and bearing supports are placed on different sides of the frame.