RU155197U1 - TWO-POWER MICROPRESSOR - Google Patents

Abstract

A two-rotor micro-blower, comprising a housing with end caps and windows for supplying and discharging a working medium, placed in the housing with the formation of suction and discharge cavities and mounted on two parallel shafts, a pair of profiled rotors synchronized with each other with the possibility of rotation in opposite directions using helical gears, and a drive electric motor connected to one of the shafts of the profiled rotors using a gear pair consisting of a gear wheel and gear, characterized in that the gear wheel mounted on the motor shaft is made of textolite, and the gear mounted on the shaft of the profiled rotor is made of steel, the profiled rotors themselves are made integral in the form of a steel axis equipped with consoles located at an angle of 120 ° to one another and covered with a layer plastic.

Description

The utility model relates to the field of devices for creating overpressure or vacuum and can be used in devices for pumping gas.

Known two-rotor vacuum pump according to Russian patent No. 2193689, adopted for the prototype, comprising a housing with end caps and windows for supplying and discharging a working medium, placed in the housing with the formation of suction and discharge cavities and installed on two parallel shafts of at least one pair of profiled rotors, synchronized with each other with the possibility of rotation in opposite directions. The pump is also equipped with a disk with a through slot mounted on one of the shafts with the possibility of periodic communication of the injection cavity with a window for discharging the working medium through the slot of the disk.

A disadvantage of the known two-rotor vacuum pump is its high level of noise and vibration.

The purpose of the utility model is to reduce the noise level and vibration of a twin-rotor micro-supercharger.

This goal is achieved by the fact that in a two-rotor microcharger containing a housing with end caps and windows for supplying and discharging a working medium, placed in the housing with the formation of suction and discharge cavities and mounted on two parallel shafts, a pair of profiled rotors synchronized with each other with the possibility of rotation in opposite directions with helical gears and a drive motor connected to one of the shafts of the profiled rotors using a gear pair consisting of gear to oles and gears, and the gear wheel mounted on the motor shaft is made of textolite, and the gear fixed on the shaft of the profiled rotor is made of steel, the profiled rotors themselves are made integral in the form of a steel axis equipped with consoles located at an angle of 120 degrees to each other and covered with a layer of plastic.

The essence of the claimed utility model is illustrated by graphic materials, where in FIG. 1 shows a fragment of a general view of a twin-rotor micro-supercharger with a local section, and in FIG. 2 shows a section through a compression chamber with rotors placed in it, with a plane perpendicular to the axes of the rotors.

The twin-rotor micro-supercharger comprises a housing 1 and a compression chamber 2 located therein, with windows for supply 3 and outlet 4 of the working medium. A pair of profiled rotors 5, synchronized with each other with the possibility of rotation in opposite directions using helical gears (the latter in Figs. 1 and 2 are not shown), are installed in the compression chamber 2. The drive motor 6 is connected to one of the shafts of the profiled rotors 5 s using a gear pair consisting of a gear wheel 7, mounted on a shaft of an electric motor 6, which is made of textolite and gear 8, mounted on a shaft of a profiled rotor 5, which is made of steel. The profiled rotors 5 are made integral, in the form of a steel axis 9, equipped with consoles 10 located at an angle of 120 degrees to each other and covered with a layer of plastic 11.

The twin-rotor micropressor operates as follows. When the drive motor 6 is turned on, its torque is transmitted through a gear pair consisting of a gear 7 fixed to the shaft of the electric motor 6 and gear 8 fixed to the axis 10 of the profiled rotor 5, which leads to the rotation of both profiled rotors 5, synchronized with each other rotation in opposite directions with helical gears. As a result of such rotation, suction and discharge cavities are formed in the compression chamber, which leads to pumping of the working medium, for example, air, from the inlet window 3 to the outlet window 4 of the working medium, creating a pressure differential between them.

The use of a gear pair, consisting of a gear wheel 7, mounted on the shaft of an electric motor 6 and made of textolite and gear 8, mounted on an axis 9 of a profiled rotor 5 made of steel, can significantly reduce the noise level created by a working micro-supercharger. The use of profiled rotors made in the form of a steel axis 9, equipped with consoles 10 located at an angle of 120 degrees to each other and covered with a layer of plastic 11, can reduce their moment of inertia, which significantly reduces the level of vibration of the working micro-supercharger.

The application of the claimed utility model will reduce the noise level and vibration of the twin-rotor micro-supercharger.

Claims (1)

A two-rotor micro-blower, comprising a housing with end caps and windows for supplying and discharging a working medium, placed in the housing with the formation of suction and discharge cavities and mounted on two parallel shafts, a pair of profiled rotors synchronized with each other with the possibility of rotation in opposite directions using helical gears, and a drive electric motor connected to one of the shafts of the profiled rotors using a gear pair consisting of a gear wheel and gear, characterized in that the gear wheel mounted on the motor shaft is made of textolite, and the gear mounted on the shaft of the profiled rotor is made of steel, the profiled rotors themselves are made integral in the form of a steel axis equipped with consoles located at an angle of 120 ° to one another and covered with a layer plastic.

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