RU2017980C1 - Positive-displacement rotor machine - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: drum kinematically coupled with a plate rotor is eccentrically set in stands of a case. The rotor is provided with pins and eccentrically positioned within the drum to form working chambers. A driving mechanism is made of electric motor and driving gear wheel which is set on the pin of the rotor and kinematically coupled with the electric motor. Kinematical connection of the drum with the rotor is made of a carrier secured to axle of the drum by a key and pivotally connected with a guide fixed to the rotor. The rotor is made of two members fastened with screws provided with vertical split. Seals are received within openings of pins. Bushings are set on rotor and spring- loaded to faces of the drum. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to volumetric rotary machines.

 The purpose of the invention is to increase durability and improve the technical and operational characteristics of the machine.

 Figure 1 shows a volumetric rotary machine; figure 2 - combined sections aa and bb in figure 1; figure 3 - section bb in figure 1.

 The volumetric rotor machine contains a drum 1, an rotor 2 eccentrically mounted in it with plates 3. The rotor is made of two parts and mounted on ball bearings 4 in the uprights 5. In the trunnion holes of these parts, seals 7 and an expansion sleeve 8 fastened with screws 9 are installed on the axis 6 and the axis 6 is fixed in the thrust bearings 10 by screws 11, locked nuts 12. In the end grooves of the rotor 2 on the axis 6 and in the grooves of the thrust bearings 10 seals 7 are also installed, pressed by bushings 13 with nuts 14 and bushings 15 with covers 16, which are attachedintami to the uprights 5.

 An electric motor 18 is mounted and secured with screws (not shown) in the uprights 19. A gearwheel 20 is attached to the axis of the electric motor, which is connected to the gear 21 mounted on the key 22 of the drum 1 mounted on ball bearings 23 in the uprights 19. Between the ball bearing 23 and the gear 21, an expansion sleeve 24 is installed on the axis of the drum 1. And on the rotor 2 there are bushings 25 and 26, which are pressed by a spring 27 to the ends of the drum 1, the amount of compression force of the spring 27 can be adjusted using a nut 28. On the opposite axis of the drum 1 anovlen 29 keyed lead 30, which is pivotally connected through a biscuit 31 and the half ring 32 with the guide 33 mounted on the spline 34. semiring 32 is rigidly bonded to a lead screw (not shown). The second half-ring 35, rigidly fastened by screws with a leash 30, balances the half-ring 32. Between the carrier 33 and the ends of the drum 1 there is another sleeve 24, which is drawn to the ends of the drum 1 by means of a spring 27 and bushings 26. Racks 5 and 19 are installed and secured with screws (not shown), and on the basis of 35 installed and secured safety casing 36.

 In the axis 6 there are openings 37 and 38, which are in communication with the working cavities of the rotor 2 through openings 39 and 40, and through openings 41, openings 42 in the sleeve 15, openings 43 in the thrust bearing 10 and cavities 44 with openings in the fittings 17.

 The machine operates as follows.

 During operation of the electric motor 18, the gear wheel 20, which is fixed on its axis, transmits rotational motion to the gear wheel 21 mounted on the key 22 on the axis of the drum 1, which will also rotate with the lead 30 mounted on it on the key 29. Together with the lead 30, the half-ring 32 will also rotate, rigidly fastened to it with screws, which, through the cracker 31 and carrier 33, will transmit the rotational motion to the rotor 2 as well.

 During the joint rotation of the drum 1 and the rotor 2, the plates 3 will reciprocate in the grooves of the rotor, and in the working cavities separated by the plates 3, gas compression occurs when the machine is operating as a compressor or expansion when the machine is operating as a vacuum pump.

 During operation of the plate 3 do not bear the load when transmitting rotational motion from the drum to the rotor, so the wear of them and the drum in the proposed machine will be minimal. At the same time, gas overflows from one cavity to another, which worsen the performance of the machine, are reduced, since seals are installed in the trunnion openings of the two parts of the rotor, and bushings are placed on the axis of the rotor tightly pressed to the ends of the drum by springs.

Claims (2)

 1. A VOLUME ROTOR MACHINE, comprising a housing, in the racks of which a drum is mounted eccentrically, kinematically connected to a plate rotor with pins eccentrically placed in the drum to form working chambers, and a drive mechanism made in the form of an electric motor and a drive gear kinematically associated with it, mounted on the axle of the rotor, characterized in that, in order to increase durability and improve the technical and operational characteristics of the machine, it is equipped with seals, kinematic The drum with the rotor is made in the form of a carrier mounted on the axis of the drum by means of a key and pivotally connected to a lead rigidly fixed to the rotor, while the rotor is made of two elements fastened with screws with a vertical connector, and the seals are located in the holes of the pins.  2. The machine according to claim 1, characterized in that it is equipped with bushings mounted on the rotor and spring-loaded to the ends of the drum.

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