SU1613676A1 - Sealed piston pump - Google Patents

Abstract

The invention relates to pump engineering, in particular to pumps for pumping corrosive, toxic and similar liquids. The aim of the invention is to reduce the axial size of the pump. The dividing wall 9 with the channels 10 is mounted stationary relative to the cylinder 1 and provided with a hole for the passage of the rod 2 of the piston 4, and the guide 3 of the rod 2 can be installed in the dividing wall 9. 1 Cp. f-ly, 2 ill.

Description

The invention relates to a pump engineering industry, in particular to pumps for pumping aggressive, toxic and the like liquids.

The purpose of the invention is to reduce the axial size of the pump.

To fig. 1 shows a structural diagram of a pump; in FIG. 2 - embodiment of a pump with a rod guide in the dividing wall.

The pump contains a cylinder 1, a rod 2 with a Guide 3 in the form of a sleeve, a piston 4 po with an integrated suction valve 5, {a sealing diaphragm 6, installed between the rod 2 and the cylinder 1, and the rod 2 with the piston 4 and the diaphragm 6 are installed in the cylinder 1 with the formation suction 7 and diaphragm 8 chambers {separated from one another by means of a dividing wall 9 with axial channels 10. The dividing wall 9 is fixedly mounted relative to the cylinder 1 and provided with an opening for the passage of the rod 2, and the guide 3 of the rod 2 can be installed in dividing wall 9. A working chamber 11 is formed in the cylinder 1 and a discharge valve 12 is installed, and a supply line 13 is connected to the suction chamber 7. The area of the piston 4 is made larger than the effective area of the diaphragm 6, taking into account the area of its Rigid center.

In addition, the ratio of the hydraulic resistance of the supply line 13 to the hydraulic resistance of the axial channels 10 should be greater than the square of the ratio of the difference in the effective area of the diaphragm 6 and the area of the rod 2 to the difference in the area of the piston 4 and the effective area of the diaphragm 6, i.e.

where Gg, G _K - hydraulic resistance of the supply line 13 and axial channels 10, respectively;

- effective aperture area 6;

Fwj — stem area 2;

F _n - the area of the piston 4.

This ratio allows you to maintain a constant pressure drop across the diaphragm 6, which ensures the stability of the shape of the diaphragm and its durability.

The pump operates as follows.

When the reciprocating movement of the rod 2 and piston 4 occurs, a periodic increase (suction stroke) and a decrease (discharge stroke) of the volume of the working chamber 11. When performing the suction stroke, the working fluid from the suction chamber 7 through the suction valve 5 fills the working chamber 11, and when performing the pumping stroke, the working fluid from the working chamber 11 through the pressure valve 12 is displaced by the piston 4 to the consumer.

When performing these cycles, there is a cyclic change in the volume of the diaphragm chamber 8, and the fluid flow generated in this direction in the axial channels 10 provides a constant difference between the pressures in the diaphragm 8 and the suction 7 chambers, equal to the pressure loss in the channels 10.

Claims (2)

Claim 1. A sealed piston pump comprising a cylinder with a supply line, a rod with a guide, a piston with a built-in suction valve, a sealing diaphragm installed between the rod and the cylinder, and the rod with the piston and diaphragm are installed with the formation of the suction and diaphragm chambers separated from each other by using a separation wall with axial channels, a supply line is connected to the suction chamber, and the piston area is larger than the effective diaphragm area, taking into account the area of its rigid center and, characterized in that, in order to reduce the axial size of the pump, the partition wall between the suction chamber and the diaphragm is fixedly mounted relative to the cylinder and provided with an opening for passage of the rod. 2. The pump according to π. 1, characterized in that the rod guide is made in the form of a sleeve and installed in the dividing wall. Figure 2.