RU2016260C1 - Jet pump - Google Patents

Abstract

FIELD: pumps. SUBSTANCE: passive medium feed branch pipe is mounted tangentially to a receiving chamber, the branch pipe has an articulated joint by which it is connected to the receiving chamber for rotation in a plane parallel to the longitudinal axis. A rotary drive is made in the form of a hydraulic cylinder with a rod kinematically connected to the passive feed branch pipe. A diffuser in the outlet section communicates with the hydraulic cylinder. EFFECT: improved structure. 2 dwg

Description

 The invention relates to inkjet technology, mainly to hydraulic elevators.

 Known liquid-gas ejector containing a receiving chamber with a tangential rectangular cross-section by the input of a passive medium, an active nozzle and a mixing chamber aligned with it.

 Also known is a jet pump containing an active nozzle, a receiving chamber, a mixing chamber, a diffuser and a nozzle for supplying a passive medium mounted tangentially to the receiving chamber.

 A disadvantage of the known designs is the low efficiency of the jet pump, due to the inability to automatically control the operating mode.

 The purpose of the invention is to increase the efficiency of the jet pump by automatically adjusting the operating mode.

 The goal is achieved in that in a jet pump containing an active nozzle, a receiving chamber, a mixing chamber, a diffuser and a nozzle for supplying a passive medium mounted tangentially to the receiving chamber, the nozzle for supplying a passive medium is provided with a swivel joint, by means of which it is connected to the receiving chamber with the possibility of rotation in a plane parallel to the longitudinal axis of the latter, and a rotation drive made in the form of a hydraulic cylinder with a rod kinematically connected with a pipe for supplying a passive medium, while the diffuser in its one section communicates via the channel with the cylinder, which allows automatic control of the operating mode of the jet pump by providing a constant pressure and flow in the mixing chamber and diffuser, with the ability to alter the axial component of the passive stream input rate.

 In FIG. 1 shows the proposed jet pump, General view; in FIG. 2 is a section AA in FIG. 1.

 The jet pump comprises an active nozzle 1, a receiving chamber 2, a mixing chamber 3, a diffuser 4, a passive medium supply pipe 5 mounted tangentially to the receiving chamber 2 and provided with a swivel joint 6, by means of which it is connected to the receiving chamber 2 with the possibility of rotation in the plane, parallel to the longitudinal axis of the latter, channel 7, in communication with the diffuser 4 in its output section with a membrane hydraulic cylinder 8 of the rotation drive, made in the form of a hydraulic cylinder 8 with a rod 9, kinematically connected with the pipe 5.

 The jet pump operates as follows.

 The fluid flow, flowing out of the active nozzle 1 at a high speed, enters the receiving chamber 2 and, creating a vacuum in it, involves a passive medium through the nozzle 5, which enters, swirling and acquiring rotational motion, thanks to the tangential inlet. A mixture of active and passive media, mixing in the mixing chamber 3, in the diffuser 4 loses part of its energy, which is converted into potential energy and transported further. If the pressure in the outlet section of the diffuser 4 does not change, then the pipe 5 for supplying a passive medium occupies a position corresponding to the optimal operating mode of the pump.

 With increasing pressure in the outlet section of the diffuser 4, it is transmitted through the channel 7 to the hydraulic cylinder 8 and moves the rod 9, so that the pipe 5 changes its angle relative to the longitudinal axis of the receiving chamber 2 in a plane parallel to this axis. A decrease in the angle leads to an increase in the axial component of the inlet velocity of the passive flow, and an increase in the flow rate of the absorbed passive medium.

With a decrease in pressure in the outlet cross section of the diffuser 4, the rod 9 accordingly changes the position of the inlet pipe of the passive medium 5 and increases the angle relative to the longitudinal axis of the receiving chamber 2, which leads to a decrease in the axial component of the inlet velocity of the passive flow in accordance with the dependence
G _o V _o + G ₁ V ₁ cosφ = G ₂ V ₂ , where φ is the angle between the axis of the elevator nozzle and the axis of the suction line;
V ₂ - flow rate in the mixing chamber;
G ₂ - weight flow rate of the liquid in the mixing chamber;
V ₁ - the velocity of the suction fluid;
G ₁ - the mass flow rate of the sucked-in liquid;
V _o - exit speed of the jet from the nozzle;
G _o - weight flow rate of the fluid leaving the nozzle.

 Thus, using simple and reliable means, automatic regulation and maintenance of the optimal operating mode of the jet pump is ensured, thereby increasing its efficiency.

Claims (1)

 A JET PUMP containing an active nozzle, a receiving chamber, a mixing chamber, a diffuser and a nozzle for supplying a passive medium mounted tangentially to the receiving chamber, characterized in that the nozzle for supplying a passive medium is provided with a swivel joint, by means of which it is connected to the receiving chamber with the possibility of rotation in a plane, parallel to the longitudinal axis of the latter, and a rotation drive, made in the form of a hydraulic cylinder with a rod, kinematically connected with a pipe for supplying a passive medium, while the diffuser is in its output section communicates via the channel with the cylinder.

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