RU181482U1 - Rotary vane machine - Google Patents

Abstract

The utility model relates to the field of hydropneumatic pumps and motors and can be used in mechanical engineering in units for various purposes. The device comprises a stator with an internal cavity and a cylindrical rotor with a longitudinal groove eccentrically placed in the stator cavity, inside which a radially movable plate is placed. The stator is made with an internal closed circuit described by the ends of the plate during its reciprocating movement in a rotating rotor. Part of the inner closed rotor circuit is made along an arc of a circle with a diameter D, and the plate has a length of 0.88-0.98D greater than the diameter of the rotor, and the center of the rotor is offset from the center of the circular arc by 0.08-0.23D. The objective of the utility model is to expand the arsenal of technical means, and the technical result consists in the implementation of this purpose. 3 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of hydropneumatic pumps and motors and can be used in mechanical engineering in units for various purposes. Known rotary vane machine (RF patent No. 440494, publ. 25.08.74 - [1]), containing one plate in a through diametrical groove of the rotor placed eccentrically in the housing, the inner surface of which is made in the form of a cylindroid with a surface formed by parts of the right and left spirals of Archimedes.

With this design, it is impossible to increase the diameter of the rotor, which is clearly small, to remove or at least smooth out the fracture of the generatrix of the housing in the place of the tight section of the suction and discharge cavities, otherwise the condition of constant contact of both ends of the plate with the housing is violated.

The main disadvantage of the known device is the presence on the Archimedean spiral of sections, especially close to the rotor, where the forces pushing the plate through the groove of the rotor become insufficient to overcome the friction forces, which leads to jamming and stopping of the mechanism. Under the influence of the pressure of the pumped medium onto the plate, significant forces are created that press the plate against the walls of the groove in the rotor. As a result, very significant friction forces of the plate against the groove walls in the rotor and the ends of the plate against the body arise. These forces are overcome by acting on one of the ends of the plate by the body wall, where the movement of the plate occurs until the constantly changing angle of rise of the Archimedes spiral is critical, when the forces pushing the plate become equal to or less than the friction forces and the plate sticks, which happens in areas of the spiral located near the rotor. Known rotary vane machine, selected as a prototype, comprising a housing, the inner surface of which is formed by a cylinder and a liner with a sickle-shaped portion inserted into it. A rotor with a plate in a through diametrical groove is mounted coaxially with it in the body cavity (RF patent No. 20135670, publ. 05/30/1994 - [2]). Here, the eccentric location of the rotor relative to the working cavity is provided by an insert with a sickle-shaped portion. With this design, the product is heavy with a small percentage of usable cross-sectional area. The manufacture of the crescent-shaped insert and its installation in the housing also presents certain technological difficulties. Modern technologies do not need this, since they allow directly in the housing to receive the internal contour of the cavity of any given shape without the use of inserts. For reliable fixing of the liner in the housing, it must occupy an arc 1 of the circumference of the housing, significantly exceeding 180 °. At the same time, at the junction of the liner and the housing, a step will inevitably form, which the seal will hit, leading to the rapid destruction of the thin sharp wall of the liner in this place, which will lead to failure of the entire product.

The proposed utility model is aimed at eliminating the noted drawbacks and at creating a workable design of a rotary vane machine.

The objective of the utility model is to expand the arsenal of technical means, and the technical result consists in the implementation of this purpose.

The specified technical result is achieved in that the rotary vane machine containing a stator with an internal cavity and a cylindrical rotor eccentrically placed in the stator cavity with a longitudinal groove inside which a radially movable plate is placed, wherein the stator is made with an internal closed circuit described by the ends of the plate when it is returned - translational movement in a rotating rotor, and part of the inner closed loop of the rotor is made along an arc of a circle with a diameter D, the plate has a length of 0.88-0.98D exceeding the diameter of the rotor, and the center of the rotor is offset from the center of the arc of a circle by 0.08-0.23D. An arc of a circle with a diameter D can have an angle of 150-250 ° and pass through a point located on a straight line passing through the center of the arc and the center of the rotor, and is located on the opposite side from the center of the rotor relative to the center of the arc.

An arc of a circle with a diameter D can be located symmetrically with respect to a point located on a straight line passing through the center of the arc and the center of the rotor, and located on the opposite side from the center of the rotor relative to the center of the arc.

At least one point of the inner contour, defined by the point of contact of the inner contour and the plate when it is placed perpendicular to the line passing through the center of the circular arc and the center of the circumference of the rotor, can be smoothly connected to the part of the contour made along the circular arc with a diameter D.

When designing the internal contour of the machine body based on the requirements of the technical specifications, the diameter D is selected, the vertical axis of which from the generatrix of the diameter line is the plate length, for example, 0.95D, also determined according to the technical specifications. The resulting point is the place where the displaced rotor is in contact with the inner contour of the machine body. Then we determine the center of the circumference of the rotor section, for which we draw a chord at the location of the rotor, perpendicular to the vertical axis of circle D and offset from the center of circle D by 0.08-0.23 D. The length of the chord is equal to the previously determined length of the plate. In this case, it is preferable that the ends of this chord touch, or are located near a circle with a diameter D. Then the point of intersection of the vertical axis and the chord will determine the displacement of the rotor from the center of the housing and will be the center of the circle of its cross section with a radius from this point to the already marked plate length point on vertical axis. In place of the chord, the design of the plate is carried out. With this arrangement, the volume of the cavity above the rotor will be maximum, and if at the same time the ends of the plate do not touch the diameter D, then the points lying on the ends of the plate are connected by smooth curves until they fit with the contour of diameter D. Then the remaining unfinished portion of the contour will be described by the end of the plate with contact and moving 180 ° of its second end, along the already constructed portion of the contour.

Thus, we obtain the internal contour of the machine body that meets the requirement of constant contact of both ends of the plate with the inner surface of the body during rotation of the rotor, the absence of fractures, joints and critical elevation angles of the curve of the contour leading to shock or jamming and a very rational use of the working volume in the cross section of the body .

The utility model is illustrated by the drawing, which shows in section a general view of a rotary vane machine, which contains a housing 1 with an inlet 2 and an outlet 3 holes and with an eccentrically mounted rotor 4, in a through diametrical groove 5 of which is a plate 6. The inner contour of the housing 1 on the BSG made along an arc of a circle with a diameter D. In sections AB and GE from points A and E, smooth curves are drawn to points B and D, where they are mated with a circle with a diameter D. The remaining unfinished section of the contour is made according to the AKE curve, describing point A of the plate when it contacts and moves through 180 ° the point E of the plate along the already constructed portion of the contour of the ECSA. In this case, the lengths of SC and AE are equal to the length of the plate 6, determined from the condition SK = 0.88-0.98D, and the point of their intersection O determines the center of the rotor with a radius of its circle equal to OK.

When designing the device, the length of the plate selected within the specified limits and the magnitude of its displacement from the center of the circle D determine its performance, durability, and efficiency. The greater the length of the plate and the less its offset from the center of the circle D, the lower the productivity of the device, but its efficiency and service life are higher. Going beyond the specified limits of the length of the plate and the magnitude of its displacement from the center of the circle D leads either to unreasonably low productivity of the machine, or to jamming of the plate, as in the analogue [1].

Consider the operation of the device by the example of its operation as a compressor.

When the rotor 4 rotates counterclockwise through the inlet 2, the gas is sucked into the housing 1 until one of the ends of the plate 6 approaches the point E and cuts off the sucked-in volume of gas. With further rotation of the rotor 4, the cut off gas volume will be compressed and forced into the outlet 3, which, if necessary, can be equipped with a check valve. Thus, in one revolution of the rotor two volumes of the ABSGE cavity will be displaced into the compressed gas intake system. At the same time, both ends of the plate 4 are constantly in contact with the inner surface of the body, moving smoothly along it without impacts or jamming. In the proposed design, there are no sections of sharp bending of curves describing the internal contour of the body cavity, which creates favorable working conditions for the plate that do not jam, and the selected plate length limits provide the device with high performance and stability under the most rational conditions.

Claims (4)

1. A rotary vane machine comprising a stator with an internal cavity and a cylindrical rotor eccentrically placed in the stator cavity with a longitudinal groove, inside which a radially movable plate is placed, characterized in that the stator is made with an internal closed loop described by the ends of the plate during its reciprocating movement in a rotating rotor, and part of the inner closed loop is made along an arc of a circle with a diameter D, the plate has a length of 0.88-0.98D, exceeding the diameter of the rotor, and the center of the rotor cm Further from the center of the circular arc by 0.08-0.23 D. 2. The rotary vane machine according to claim 1, characterized in that the circular arc with a diameter D has an angle of 150-250 ° and passes through a point located on a straight line passing through the center of the arc and the center of the rotor, and is located on the opposite side from the center of the rotor relative to the center of the arc. 3. The rotary vane machine according to claim 2, characterized in that the circular arc is located symmetrically with respect to a point located on a straight line passing through the center of the arc and the center of the rotor and located on the opposite side from the center of the rotor relative to the center of the arc. 4. The rotary vane machine according to any one of paragraphs. 1-3, characterized in that at least one point of the inner contour, defined by the point of contact of the inner contour and the plate when it is placed perpendicular to the line passing through the center of the circular arc and the center of the circumference of the rotor, is smoothly connected to the part of the circuit made along the circular arc with diameter D.

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