SU1562528A1 - Multiple-stage fluid-ring machine - Google Patents

Abstract

The invention allows to reduce the size and increase the efficiency of a multi-stage liquid ring machine. In case 1, the inner, intermediate and outer rotors (P) 5, 7 and 8, respectively, with blades 6 are eccentrically placed. P 5 is mounted on the shaft, P 8 is with the possibility of spanning P 5. End covers with suction 11 and discharge 12 windows are installed for P 5, 7 and 8. The bandages are fixed on the blades 6 P 5 and 7. P 5 and 7 are kinematically connected to each other by means of gearing made on the outer surface of the bandages and the inner surface of P 7 and 8. The suction nozzle 2 of housing 1 communicates with window 11, located in the zone P 8, the discharge pipe to 3 - with a window 12 located in the region F of the machine 5. This arrangement allows a single housing to place depending on the number of p two, three or more stages. 3 il.

Description

The invention relates to vacuum and compressor technology and can be used in liquid ring machines.

The purpose of the invention is to reduce the size of the machine and increase efficiency.

Figure 1 shows a multistage liquid ring machine, a cross-section; figure 2 is the same, a longitudinal section; figure 3 - node I in figure 2.

The multi-stage liquid ring machine includes a housing 1 with a suction 2 and an injection 3 tubes eccentric located in the housing 1, the shaft 4 and the inner rotor 5 with blades 6, covering its intermediate hollow rotor 7, and the outer hollow rotor 8, end caps 9 and 10 with suction 11 and injection 12 windows for rotors 5, 7 and 8.

Bands 13 are mounted on the blades 6 of the inner 5 and intermediate 7 rotors, on the outer surface of which teeth 14 are made, and on the inner surface of the intermediate 7 and outer 8 rotors, teeth 15 are made with the possibility of interaction with the teeth 14.

Multistage liquid ring machine works as follows.

When the inner rotor 5 rotates, the torque is transmitted through gears 14 and 15 to the intermediate rotor 7 and the outer rotor 8. The working fluid forms liquid rings in the cavities of the i-hollow rotors 7 and 8 and in housing 1. Absorption, compression and pressure are carried out in the working cavities of the machine, formed due to the presence of eccentricity for each rotor. The evacuated gas enters the suction inlet 2, from where through the suction port 11 of the outer rotor 8 enters the working cavity (first stage), where compression takes place and the gas is forced out through the discharge port 12 of the outer rotor 8. Next, the gas is supplied through the suction port 11 of the intermediate the rotor 7 into the working cavity (second stage), where it is compressed and extruded through the discharge window 12 of the intermediate rotor 7. Then the gas is supplied through the suction window 11 of the inner rotor 5 into the working cavity (third stage) and is displaced TC through the discharge window 12 of the inner rotor 5 in the discharge pipe 3.

The proposed design of a liquid ring machine makes it possible to place two, three or more stages in one housing, depending on the number of rotors, and has a simple device.

Claims (1)

Invention Formula A multi-stage liquid ring machine, comprising a housing with suction and discharge nozzles, an inner and outer rotor with blades eccentrically located in it, the inner rotor being mounted on the shaft, and the outer one with the possibility of its coverage, end caps with suction and discharge windows for each rotor , characterized in that, in order to reduce overall dimensions and increase efficiency, the machine is equipped with at least one intermediate reader with blades and bandages fixed on the blades of the inner and outer interstitial rotors, with the inner and intermediate rotors kinematically interconnected by means of gearing, made on the outer surface of the tires and the inner surface of the rotors, the suction nozzle communicates with the suction window located in the outer rotor zone, the discharge nozzle - with the discharge window located in the area of the inner rotor. Phage. J Compiled by O. Kartuesov Editor M.Blanar Tehred l. Serdyukov Proofreader E. Lonchakova Order 1046 Circulation 493 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 Subscription