RU2215160C2 - Rotary-vane machine - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: invention can be used in hydraulic machines, compressors and internal combustion engines. Proposed machine contains housing with cylindrical bore, outer rotor installed coaxially on rotary supports, inner rotor with end face walls installed eccentrically on rotary supports and synchronized in revolutions with outer rotor, separating plates hinge-resting on outer rotor and freely fitted in slots of joints on inner rotor. Diameter of end walls of inner rotor exceeds inner diameter of outer rotor by 2e(1.2-1.5) where e is eccentricity. Mating slots are provided on outer rotor whose width is equal to thickness of end face wall, and diameter exceeds diameter of end face walls by 2e. EFFECT: increased efficiency. 4 dwg

Description

 The invention relates to rotary machines, which can be used as hydraulic machines, compressors, engines.

 Known rotary machine, comprising a housing with a cylindrical bore, channels for supplying and discharging a working medium located in the side covers of the housing, a stator ring coaxially mounted in rotation bearings, the inner surface of which is made in the form of a polyhedron with the number of working faces equal to the number of dividing plates, a rotor, mounted eccentrically in the housing, with rotation bearings, with diametrical grooves in which dividing plates are freely moved, pairwise connected along the diameter by rods (RU 2097602, 27 .11.1997, F 04 C 2/00).

 The disadvantage of this machine is the unreliable sealing of the working chambers and significant friction losses.

 Closest to the invention is a rotary vane machine, comprising a body with a cylindrical bore, an external rotor coaxially mounted on the rotation bearings, an eccentrically mounted internal rotor with end walls on the rotation supports and synchronized in revolutions with the external rotor, dividing plates articulated on the external rotor and freely mounted in the grooves of the hinges on the inner rotor (RU 2105884, 02.27.1998, F 01 C 1/32). In this machine, leaks through the outer ridges of the separation plates are completely eliminated and the friction of the end walls of the inner and outer rotors is reduced due to a decrease in the relative sliding speed by almost 10 times.

 However, there remains the problem of sealing the gap between the end walls of the rotors.

 The objective of the invention is to increase the efficiency.

 The problem is solved in a rotary vane machine containing a housing with a cylindrical bore, an external rotor coaxially mounted on the rotation bearings, an eccentrically mounted internal rotor with end walls on the rotation supports and synchronized in speed with the external rotor, separation plates pivotally supported on the external rotor and freely set in the grooves of the hinges on the inner rotor, according to the invention, the diameter of the end walls of the inner rotor exceeds the inner diameter of the outer rotor by 2 ° • (1.2 ... 1.5), where e is the eccentricity, and on the external rotor there are reciprocal grooves with a width equal to the thickness of the end wall and a diameter exceeding the diameter of the end wall by 2e.

 In FIG. 1 shows a diagram of a rotary vane machine (section along the groove wall of the outer rotor).

 In FIG. 2 is a diagram of another embodiment of the machine. Here, the hinges on the inner rotor are made in cross section in the form of an arc of a circle coaxial with the inner rotor. The design according to this scheme can work without a synchronizer.

 In FIG. 3 is a side view of a machine of the second embodiment (a side view of the first machine is similar).

 In FIG. 4 - step section. The solid line on the left shows the end wall of the outer rotor, the dotted line shows the inner one. To the right is the end wall of the inner rotor. The dashed lines indicate the outer hinges of the separation plates.

 The rotor machine has a housing 1 with a cylindrical bore and end walls la, the outer rotor 2, 2a is the end wall of the outer rotor, 2c is a window for distributing the working medium on the end wall of the outer rotor, 2c is a groove in the outer rotor for immersing the end wall of the inner rotor 3 - inner rotor, 3a - end wall of the inner rotor, 3c - window for distributing the working medium on the end wall of the inner rotor, 4 - dividing plate, 4a - external hinge of the dividing plate, 4c - internal hinge, 5 - cover plate, 6 - supply channels and the removal of the working environment, 7 - working chamber.

 During operation of the rotary vane machine, the working medium is sucked in through the channels 6 of the stator housing and the windows of the end walls 2b and 3b, which are aligned near the bottom dead center. Further, as the rotors 2 and 3 rotate, the access to the suctioned working medium stops and the compression process begins. When reaching the top dead center, the windows in the end walls of the rotors disagree. The window in the wall of the inner rotor 3b is buried in the groove of the outer rotor 2c, and the window of the outer rotor 2b falls below the edge of the working surface of the outer rotor 2. This ensures the tightness of the working chamber. Friction between the end wall of the outer rotor 2a and the end wall of the stator 1a is also significantly reduced, because there is no need to create an excessively high tightness, and consequently, a large pressing force against the end wall of the outer rotor 2a. In addition, the end wall of the stator 1a removed from the zone of exposure to high temperatures and pressures of the working environment and allows the use of antifriction coatings.

 It is advisable to use a rotary machine as an internal combustion engine with ceramic coating on surfaces in the high temperature zone.

Claims (1)

 A rotary vane machine comprising a housing with a cylindrical bore, an external rotor coaxially mounted on the rotation bearings, an eccentrically mounted internal rotor with end walls on the rotation supports and synchronized in speed with the external rotor, dividing plates pivotally supported on the external rotor and freely set in hinge grooves on the inner rotor, characterized in that the diameter of the end walls of the inner rotor exceeds the inner diameter of the outer rotor by 2e • (1.2... 1.5), where e is the eccentricity, and on the external rotor there are reciprocal grooves with a width equal to the thickness of the end wall and with a diameter exceeding the diameter of the end wall by 2e.

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