SU1629600A1 - Diaphragm pump - Google Patents

Abstract

The invention relates to diaphragm pumps and improves pump performance and service life. The secondary diaphragm 3 is made with an effective area larger than the effective area of the working diaphragm 2, which leads to a change in the volume of the interdiaphragm chamber / chamber and e (K) 4 and, accordingly, to a change in pressure inside the latter, coinciding in phase with the change in pressure in the working cavity 6. The required value of the pressure level in K 4 is determined by the selection of chokes 9 and 10, standing in lines, communicating K 4 with suction lines 7 and pressure 8. Phase coincidence of pressure acting from different sides on the working diaphragm This reduces the wear and tear of the latter, and the additional deflection of the diaphragm 2 due to the variable pressure in K 4, both in that and in the other direction in the positions of the upper and lower dead points, contributes to an increase in the working volume at the suction stage and a decrease in the dead volume by pumping stage .1 zp f-ly, 2 ill. 1 8 -j / "// / h I / с с к о о о о

Description

// Figure 2

The invention relates to the field of pumping and compressor engineering and can be used in diaphragm pumps and compressors.

The purpose of the invention is to increase productivity and resource.

Fig, 1 shows a diaphragm pump; in fig. 2, too, with additional pneumatic connections.

The diaphragm pump includes a housing 1, a working and auxiliary diaphragms 2 and 3, clamped in housing 1 to form an interdiaphragm chamber 4. Apertures 2 and 3 are separated by a hard center 5 The working diaphragm 2 and housing 1 form a working cavity 6 connected to lines 7 and 8 suction and pumping. The effective area of the auxiliary diaphragm 3 is larger than the effective area of the working diaphragm, which can be achieved either by an increased diameter of the hard center 5 of the auxiliary diaphragm 3 compared to the diameter of the hard center 5 of the working diaphragm 2 (Fig. 1), or by an increased embedding diameter of the auxiliary diaphragm 3 compared to the diameter of the sealing of the working diaphragm 2, or a combination of these two embodiments of the diaphragms 2 and 3 (Fig. 2). The interdiffraction chamber 4 can communicate with the suction and discharge lines 7 and 8 through the throttles 9 and 10. The rigid center 5 of the membranes 2 and 3 is connected to the drive 11.

Diaphragm pump operates as follows.

The actuator 11 provides for the reciprocating movement of the diaphragms 2 and 3 relative to the housing 1. By periodically changing the volume of the working cavity 6, the medium is sucked into it from line 7, the medium is compressed and injected into the line 8. As a result of the effective area of the diaphragm 2 is smaller effective area of the diaphragm 3, there is a decrease in volume and, accordingly, an increase in pressure in the interdiaphragm chamber 4 when the diaphragms 2 and 3 move to the top dead center, i.e. when the volume of the working cavity 6 decreases and vice versa, the volume increases and, accordingly, the pressure drops in the interdiaphragm chamber 4 when the diaphragms 2 and 3 move in the opposite direction, i.e. with an increase in the volume of the working cavity 6. Thus, the pressure in the chamber 4 changes and this change coincides in phase with the pressure change in the working cavity 6, which reduces the pressure drop across the working diaphragm 2, reducing the wear of the latter and thereby increasing the service life. total pump. Increasing the pressure in the interdiaphragm chamber 4 when the diaphragms 2 and 3 approach the top dead center leads to the compression of the working diaphragm 2 against the profiled surface of the housing 1 in the working cavity 6, thereby ensuring a tight fit of the diaphragm 2 and reducing the dead volume, which leads to an increase in performance . Pressure drop in

interdiaphragm chamber 4 at the approach of the membranes 2 and 3 to the lower dead point leads to a greater deflection of the working diaphragm 2 away from the profiled surface of the housing 1 and, accordingly,

an increase in the volume of the working cavity 6 at the time of suction, as a result of which the pump performance also increases. Connecting interdiaphragm camera 4 to lines 7 and 8 allows you to set

the desired value of the pressure level in chamber 4 by selecting chokes 9 and 10, and by changing the volume of chamber 4, you can adjust the amplitude of pressure fluctuations in chamber 4.

Interdiafragment chamber 4 may be pre-filled with liquid. In this case, the pressure change in this chamber will occur at a constant volume, which is provided by the deflections of the diaphragms 2 and 3.

Claims (2)

1. Diaphragm pump, comprising a housing, clamped in the housing with the formation of the interdiafragment chamber working and auxiliary diaphragms, separated by a rigid center, and a working cavity formed by a working diaphragm and housing and connected to suction and discharge lines, characterized in that, in order to increase productivity and service life by optimizing the differential pressure across the working diaphragm, the auxiliary diaphragm is made with effective area greater effective area of the working aperture. 2. A pop pump, 1, characterized in that it is equipped with two throttles, and the interdiaphragm chamber is connected to the suction and discharge lines through a corresponding choke.