SU1435814A1 - Positive-displacement pump - Google Patents

Abstract

The invention allows to increase the reliability of the pump in operation. The separator, made in the form of two mutually spring-loaded diaphragms (D) 6, 7, is installed in the housing 1 with the formation of the pump and drive chambers (K) 2, 5. The cavity 8 between D 6 and 7 is marked with a neutral medium and evacuated, and D 7 is prestressed with spring 9 towards K 2. The impulse sensor D 6 and 7 is made in the form of a non-contact sensor 11 in position D 7. The sensing element 12 of the sensor is mounted in the housing with an offset to the side K 2 by an amount exceeding the stroke length separator in the discharge stroke. An alternating supply source 10 connected to K 5 is provided with a blocking device connected to sensor 11. If one of the D integrity is violated, the vacuum in the cavity disappears and the spring moves D 7 to K 2. When D 7 reaches the sensing element, a source lock occurs, which prevents an emergency. 1 hp f-ly, 2 ill.

Description

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The invention relates to pump engineering, relates to volumetric pumps, and can be used in various industries of the national economy when pumping fluids.

The aim of the invention is to increase the reliability of the pump.

FIG. 1 shows the structural scheme of the volumetric pump; in fig. 2 - device for blocking the source of alternating feed.

The pump includes a housing 1 in which, with the formation of a pumping chamber 2 with valves 3 and 4 and a driving chamber 5, a separator is installed, made in the form of two mutually spring-loaded diaphragms 6 and 7, the cavity 8 between which is filled with a neutral medium and evacuated. The diaphragm 7, located on the side of the pump chamber 2, is tentatively tensioned by the spring 9 in its direction. Source 10 alternating feed connected to the drive chamber 5.

The pump has a diaphragm rush sensor 6 and 7, which is designed as a non-contact sensor 11 for the position of the diaphragm 7 facing the pump chamber 2, and the sensor element 12 is installed in the housing 1 with an offset to the side of the pump chamber 2 stroke length of the separator (diaphragm 7) in the discharge stroke. Valve 3 is suction, and valve 4 is discharge.

The alternating-supply source 10 is provided with a blocking device associated with the proximity sensor 11 of the diaphragm position 7.

The locking device is made in the form of an electromagnetic clutch 13 connecting the source 10 to the engine 14, and a shoe brake, 15. The separator is spring loaded return spring 16 in the direction of the drive chamber 5.

When the drive medium is fed into the chamber 5 from the source 10 of alternating feed, the separator with diaphragms 6 and 7 begins to make reciprocating movements. The volume of the pump chamber 2 changes periodically and the pumped medium

sucked into it through the suction valve 3 and injected to the consumer through the valve 4.

In the normal state of the separator in

cavity 8 is maintained by a vacuum, which balances the force of the spring 9. During the course of the injection, the diaphragm 7 does not reach the sensitive element 12 of the sensor 11. When the integrity of one of the diaphragms B or 7 is affected by the vacuum

in the cavity 8 disappears and the spring 9 displaces the diaphragm 7 towards the pumping chamber 2. At the same time, during the load-and-flow cycle the diaphragm 7 reaches the sensing element 12 and the sensor 11

r turns off the clutch 13 and includes a brake 15, blocking the source 10 alternating feed.

The pump is stopped, which prevents an emergency situation.

Claims (2)

1. A volumetric pump comprising a housing in which, with the formation of a pump chamber with valves and a drive chamber, a separator is installed, made in the form of two mutually spring-loaded diaphragms, the cavity between which is filled with a neutral medium and evacuated, and the diaphragm located on the side of the pump chamber, tentatively in Q is its side, the source of alternating feed connected to the drive chamber, and the diaphragm gust sensor, characterized in that, in order to increase reliability, the diaphragm gust sensor is designed as a non-contact diaphragm position sensor facing the pump chamber, the sensor element being installed in the housing with an offset to the side of the pump chamber by an amount exceeding the stroke of the separator in the discharge stroke. 0 2. A pump according to claim 1, characterized in that the alternating-supply source is provided with an interlocking device associated with a non-contact diaphragm position sensor. -PR at 15 cpuz.t