RU2105200C1 - Guided-vane rotary pump - Google Patents

Abstract

FIELD: pumps used for handling liquid media. SUBSTANCE: pump includes housing provided with suction and delivery branch pipes with rotor mounted eccentrically inside it. Rotor is provided with radial passages lengthwise where vane members kinematically linked with rotor are movably located. Vane members separate suction and delivery cavities of pump. Rotor is provided with axial passage where longitudinal partition is mounted immovably. Longitudinal partition performing function of seal relative to rotor divides inner passage in rotor into two isolated cavities. Radial passages in rotor are straight-way passages. Cup-shaped pistons are secured to vane members on side of axial passage of rotor over entire length. This pump may be sued for handling two media simultaneously: one medium through pump housing and other medium through axial passage of rotor which is isolated from inner cavity of pump. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to the field of pumping devices, namely to rotary vane rotary pumps for pumping liquid media.

 Known rotary vane pump with an internal supply of pumped liquid, comprising a housing, an eccentric rotor installed in it, mounted on a partition set with a seal, dividing the axial channel of the rotor on the suction and discharge cavities. Radial grooves for movable plate elements kinematically connected with the rotor are made in the rotor, and through channels alternating with them, communicating suction and discharge cavities with cavities between the rotor and the pump casing (Cherkassky V.M. Pumps, fans, compressors. M.: Energoatomizdat , 1984, p. 285).

 A disadvantage of the known pump is that it does not provide the possibility of simultaneous pumping of two environments.

 The closest in technical essence to the analogue of the claimed invention is a rotary vane pump with an external supply of a pumped medium, including a housing, a rotor eccentrically mounted in it on the drive shaft, in the radial grooves of which plate elements kinematically connected with the rotor are movably placed. In the upper part, the housing is equipped with nozzles for suction and supply of a working medium, communicating with the corresponding cavities of the housing, separated by plate elements and cylindrical sealing surfaces of the housing.

 Due to the presence of eccentricity between the housing and the rotor during rotation of the latter, the pumped medium from the suction cavity is captured by radially moving plate elements and transferred to the supply cavity (ibid., P. 286).

 The disadvantages of the known pumps are that they do not allow pumping two media simultaneously.

 An object of the invention is to provide the possibility of pumping one pump simultaneously two different environments.

 The task is achieved in that in the proposed pump, in contrast to the known pump, including a housing equipped with suction and discharge nozzles, in which an rotor is eccentrically mounted, provided with radial channels along the length, in which plate elements kinematically connected with the rotor are separated, separating the suction and a pump pump cavity, the rotor is made with an axial channel in which a longitudinal partition sealed relative to the rotor is fixedly mounted, separating I have the inner channel of the rotor into two separate cavities, the radial channels in the rotor are made through, and cup-shaped pistons are fixed to the plate elements along the entire length of the axial channel of the rotor, while on the housing side the radial channels are sealed relative to the plate elements, and from the axial side the channels are equipped with a perforated partition.

 The drawing shows a cross section of the claimed device.

 The device consists of a housing 3 provided with a suction 1 and injection 2 nozzles, in which a rotor 4 is eccentrically mounted, provided with radial through channels 5 along the length, in which the plate elements 6 kinematically connected with the rotor 4 are movably placed, separating the suction cups via cylindrical sealing surfaces 7 8 and injection 9 cavity of the housing 3.

 The rotor 4 is made with a through axial channel in which a partition 10 is sealed relative to the rotor, separating the axial channel into a suction 11 and a discharge 12 of the cavity for the second pumped medium. Cup-shaped pistons 13 are attached to the ends of the plate elements 6 along their entire length from the side of the axial channel of the rotor 4.

 The through channels 5 in the rotor at the outlet are sealed relative to the plate elements 6 by means of seals 14, which are simultaneously guides for the plate elements 6, and at the entrance are provided with a perforated partition 15.

 The device operates as follows.

 When starting the pump, i.e. rotations of the rotor 4, kinematically associated plate elements 6 are extended from the radial channels 5 and, due to the eccentricity between the housing 3 and the rotor 4, the first pumped medium entering through the pipe 1 into the cavity 8 is transferred to the cavity 9. Since the interplate spaces initially expand, and then - are reduced. This medium is displaced through the pipe 2 into the discharge pipe (not shown in the drawing). At the same time, when the plate elements 6 are extended from the through channels 5, the second pumped medium from the suction cavity 11 in the axial channel of the rotor 4 enters the piston cavities (due to the gradual expansion of their volume). Then, with the return movement of the plate elements 6, the pistons 13 displace the second medium into the discharge cavity 12, which communicates with the corresponding discharge pipe.

 The displacement of two media through the through channels 5 is prevented by the seal 14, and the implementation of the plate element with the piston from the through channel in the cavities 11 and 12 is prevented by the perforated partition 15.

 Thus, the proposed device can provide simultaneous pumping of two different media, since the pump has two autonomous supply and removal of fluid with a common rotor, which leads to the presence of only one drive for the rotor.

Claims (1)

 A rotary vane pump including a housing equipped with a suction and discharge nozzles, in which a rotor is eccentrically mounted, provided with radial channels along the length, in which laminar elements kinematically connected to the rotor are movably disposed, separating the suction and discharge cavities of the pump, characterized in that the rotor is made with an axial channel in which a longitudinal partition sealed relative to the rotor is fixedly mounted, dividing the axial channel into two isolated between second cavity, the radial channels in the rotor are made through and to plate elements along the entire length from the axial channel of the rotor cup-like pistons are fixed, while the body-side radial ducts are sealed relative to the plate members, and by the axial passage provided with a perforated partition.