SU877116A1 - Positive-displacement pump - Google Patents

Description

(54) BULK PUMP

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The invention relates to a pump engineering industry, relates to positive displacement pumps with variable pressure at the outlet, and can be applied to j in vacuum systems and other engineering objects.

Known volumetric pump containing at least one working. a chamber equipped with suction and inlet pins, in the latter of which there is a spring-loaded shut-off element of the discharge valve connected with a bellows fixed with one end in the housing 3-5.

A disadvantage of the known pump is that, with a variable inlet pressure, the pressing force of the shut-off element of the discharge valve must be chosen according to the condition of the maximum possible inlet pressure. In this case, at inlet pressures lower than the maximum possible pressure on the discharge valve, the difference between these pressures is triggered. The echo at-25 leads to a loss of power and a decrease in pump efficiency.

The purpose of the invention is to increase the efficiency of the pump at a variable pressure at the inlet.

This goal is achieved by the fact that the inner cavity of the bellows is sealed AND communicated with a channel with a suction pipe, and the area of the cross section of the inner cavity of the bellows is not less than the cross section of the working chamber.

The drawing shows the proposed pump, a longitudinal section.

In the housing 1, working chambers 2 are made, separated by a piston 3, which is the core of an electromagnetic actuator, the windings 4 of which surround the housing 1 outside. Each working chamber 2 is equipped with a pressure 5 and a common suction 6 branch pipes. In the discharge pipe 5 of each working chamber 2, a spring-loaded spring 7 is installed. with working chambers 2 distribution windows 12, executed-. . in the case of 1. The cross-sectional area of the inner cavity 10 of the sylphia 9 is not less than the cross-sectional area of the working chamber 2.

When the alternating current windings 4 are energized by an alternating current, the piston 3 performs reciprocating movements, resulting in a periodic change in the volume of the working chambers 2. When the working chamber 2 expands, a discharge occurs in it, and at the time of opening the piston 3 distribution windows 12 the pumped medium under the pressure at the inlet flows from the suction nozzle 6 into chamber 2. The pressure of the pumped medium into chamber 2 acts from the side of chamber 2 on the locking element 8 of the discharge valve. However, this force is balanced by the pressure on the locking element 8 on the sides of the inner cavity 10 of the bellows 9 provided by the co-suction nozzle 6. Since the cross-sectional area of the inner cavity 10 of the bellows 9 is not less than the cross-sectional area of the working chamber 2, a certain pressing force of the locking element 8 occurs to housing 1. In the most favorable case, this force from the inlet pressure is zero. Then the pressing force of the locking element 8 is determined only by the force of the spring pressure). 7, which is independent of inlet pressure and can be selected to be minimal.

Thus, the loss of energy for the opening of the closure element 8 of the solenoid valve in the discharge stroke with a decrease in the volume of the working chamber 2 is reduced to a minimum in the proposed pump, which ensures an increase in the efficiency of the pump.

Claims (1)

1. Britvin L.N. New methods to improve the accuracy of dosing of liquids using volumetric-type pumping units. M., Cynthimneftemash ,. 1975, p., 17, fig.3.