SU1092307A1 - Vibration pump - Google Patents

Abstract

The VIBRONASOS containing a stationary body with an outlet nozzle and a vibration drive and a working chamber rigidly connected to the latter, having an inlet and outlet nozzle, characterized in that, in order to increase the pressure by increasing the energy exchange between the fluid and the walls of the working chamber, the nozzle is coaxially arranged, the exit nozzle introduced into the outlet, and the inlet is equipped with a suction nozzle. (L with you with

Description

The invention relates to pump engineering, in particular, to the design of a vibration pump, and can be used in the design of hydrotransport installations for general purposes. A vibration pump is known, which contains a receiving unit with a section narrowing in the direction of flow in which the expanding nozzles 1 are installed. A disadvantage of the known pump is the high hydraulic resistance in the receiving unit due to the presence of two friction surfaces: internal and external cones. The closest to the invention to the technical essence is a vibration pump comprising a stationary housing with an outlet nozzle and a vibration drive and a working chamber rigidly connected to the latter, having an inlet and an outlet 2. However, such a pump has a low hydraulic head, as with optimal geometry nozzles and practically acceptable vibration parameters; the nozzle volume, which determines the inertial mass of the liquid and the pump operation mode, is insufficient to achieve the maximum possible head (insufficient energy exchange between liquid and walls of the working chamber). The purpose of the invention is to increase the head by increasing the energy exchange between the liquid and the walls of the working chamber. The goal is achieved by the fact that in a vibropump containing a stationary body with an outlet nozzle and a vibration drive and a working chamber rigidly connected to the latter, having an inlet and an outlet nozzle, are placed coaxially, the exit nozzle is inserted into the outlet nozzle, and the inlet is provided with a suction nozzle . The drawing schematically shows a vibration pump, a longitudinal section. The vibration pump contains a stationary body 1 with an outlet nozzle 2 and vibriolvolT, ohm 3 and a working camera 4, rigidly connected to the latter, having an inlet 5 and an outlet 6 nozzles, the nozzles 5 and 6 of the co-opos mixing nozzle, the exit nozzle 6 , and the input 5 is equipped with intake pipe 7. The pump works as follows. The vibrodrive 3 performs a reciprocating movement of the working chamber 4. When the working chamber 4 moves with the intake nozzle 7 upward, a vacuum is created in the inlet nozzle 5 and the intake nozzle 7 and the pumped liquid rushes through the difference between the atmospheric pressure and the rarefaction pressure . The degree of vacuum depends on the parameters of the oscillations (vibrations), the geometry of the inlet nozzle 5, the height of the intake manifold 7 and the pressure of saturated liquid vapors. The fluid in the working chamber 4 acquires kinetic energy. At the moment of braking and stopping the moving parts of the vibropump in the narrowing channels of the inlet 5 and outlet 6 of the nozzles of the working chamber 4, the so-called cavitation effect and hydraulic shock are realized, leading to an upward movement of the fluid. When the working chamber 4 is moved downward, the directed upward movement of the fluid is also carried out due to the developed velocity head. The invention makes it possible to increase the pressure developed by a vibropump, since the mass of liquid in the inlet and outlet nozzles is comparable with the mass of liquid in the working chamber.

Claims (1)

VIBRONOSOS, comprising a fixed housing with an outlet pipe and a vibrodrive and a working chamber rigidly connected to the latter, having an inlet and outlet nozzles, characterized in that, in order to increase the pressure by increasing energy exchange between the liquid and the walls of the working chamber, the nozzles are placed coaxially, the outlet nozzle introduced into the outlet pipe, and the inlet is equipped with an intake pipe. S