RU54640U1 - VIBRATION PUMP - Google Patents

Abstract

The device is intended for use in pump engineering, in systems for pumping liquids from wells, wells and other sources. The vibration pump contains an electromagnetic drive, a suction valve and a rubber-metal shock absorber. The working chamber of the pump is formed by a rubber-metal shock absorber and a cover on which, in addition to the suction valve, a discharge valve is installed. The pump discharge valve in the form of a ball can be installed in the discharge pipe.

Description

The utility model relates to the field of pump engineering and can be used in everyday life for lifting liquids from wells, wells and other sources.

Known vibration pumps containing a piston made in the form of a flexible disk and connected by a rod with an electromagnetic vibrator containing an electromagnet with an armature and yoke and an elastic shock absorber (1).

The specified pump, having certain advantages over other analogues, is still not without some drawbacks. In the specified pump, the cavity of the electromagnetic vibrator is separated from the working chamber and the flow annular channel by a shock absorber on which a glass is installed, consisting of a cylinder, a support saddle and an elastic diaphragm. This set of parts complicates the design of the pump.

The objective of the utility model is to simplify the design of the pump while maintaining its technical characteristics.

The problem is solved by the fact that in the proposed vibration pump, the working chamber is formed by a rubber-metal shock absorber and a cover on which, in addition to the suction valve, a discharge valve is installed.

The technical result of the utility model is simplicity of design, increased reliability combined with high performance.

Figure 1 shows the described pump in longitudinal section, and figure 2 the same, rotated through an angle of 90.

An electromagnet containing yoke 2 and a coil 3 is installed and filled with epoxy resin in the housing 1. The electromagnet 4 is anchored through the rod to the rubber-metal shock absorber 6 through the washer 7 with the nut 8. The washer 9 sets the gap h between the armature and the yoke of the electromagnet. The cover 5 and the shock absorber 6 form a working chamber and are connected to the housing 1. Two pipes 10 and 11 with suction and discharge valves 13 are installed on the cover 5. The pump is suspended by the hole 14 in the cover, and power is supplied to the coils via cable 15.

When the electromagnet is powered by an alternating current main, oscillations of the shock absorber are created with a frequency equal to the double frequency of the supply current. During the period of oscillation, a periodic change in the volume of the working chamber occurs. When the chamber volume increases, the suction valve is open and the pumping liquid into which the pump is immersed fills it while the discharge valve is closed, and when the chamber volume decreases, the suction valve is closed and the liquid fills the pressure pipe through the discharge valve.

The absence of a diaphragm in this design reduces the stiffness of the shock absorber. The absence of a piston, part of the stem, washers and nuts reduces the reduced mass. Tests of this design proved that the technical characteristics of the pump remained the same.

Figure 3 and Figure 4 shows the vibration pump, the electromagnet casing of which is the pump "Kid" and its difference from the above design is that the discharge valve 11 in the form of a ball is installed in the discharge pipe.

Sources of information: 1. Patent of Russia according to A.S. No. 737645 M Cl. F 04 B 43/04.

Claims (2)

1. A vibration pump containing an electromagnetic actuator, a suction valve and a rubber shock absorber, characterized in that the working chamber of the pump is formed by a rubber shock absorber and a cover on which, in addition to the suction valve, a pressure valve is installed. 2. The vibration pump according to claim 1, characterized in that the pump discharge valve in the form of a ball is installed in the discharge pipe.