CS251368B1 - Differential pump with hydraulic drive - Google Patents

Abstract

The invention falls within the field of industrial technology and relates to a differential pump with a hydraulic drive, which consists of a working cylinder ■ a driving piston, which is connected to the pump piston located in the pump body. The working cylinder is provided with upper and lower outlets with closures. The driving piston It is connected to the supply pipe and flow openings are formed in its faces. A closing ring is loosely mounted in the piston cavity. The driving piston is connected by a piston rod to a piston pump, in the face of which there is a bypass opening. This is hydraulically connected to the front chamber of the pump via a bypass valve and connecting channels and to the outlet nozzle via flow channels.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a differential pump with a hydraulic drive comprising a working cylinder in which a drive piston is coupled to a piston rod connected to a pump piston moving in a pump housing.

A state of the art prior art is a differential pump with hydraulic drive according to AO 239 286 which uses a drive piston connected by means of rods with two opposing pump pistons moving in the pump cylinders and with twoarf suction and discharge valves.

The movement of the drive piston is linked to the adjustment of the two three-way closures mechanically connected to each other by means of levers, springs, rods, pins and means for their engagement and release in extreme positions. The disadvantage is the complexity of the structure with a lot of moving parts, laboriousness during production and possible repairs. High demands are placed on tightness of closing elements and pistons of pumps. This design does not exclude contamination of drinking water with propellant water even with slight leaks of the pump pistons.

The above-mentioned drawbacks are eliminated by a differential pump with a hydraulic drive consisting of a working cylinder with a drive piston, which is connected to a pump piston housed in a pump housing according to the invention, characterized in that the working cylinder is provided with upper and lower waste and bottom and top caps with spacers and on the other hand a drive piston with a supply pipe, the openings of which are provided with flow openings and a closing ring is loosely mounted between the faces, the drive piston being connected to the piston rod with the pump piston; and connecting ducts leading to a front chamber that is hydraulically connected by flow channels to the outlet port, while the suction port is part of a non-return valve mounted in the pump housing.

The advantage of the differential pump with hydraulic drive according to the invention is the simple construction of the shut-off elements, whose speed of adjustment does not in any way limit the speed of operation of the whole unit, using only the energy of the propellant. Since the piston rod seal is under constant overpressure from the pump side, the penetration of the propellant into the pumped is completely excluded. Another advantage is a longer service life and minimal failure rate.

In the example, a cross-section of a differential pump with hydraulic drive is shown in an exemplary embodiment.

The differential pump consists of a working cylinder 6 and a pump housing 6. The working roller 4 is closed by a lower flange 4 and an upper flange 6 with a cover 6. The inlet pipe 4 is welded to the lower flange. A pump body 6 is screwed to the upper flange 1 via a cap 6, which is provided with a check valve 8 and a threaded flange 6 in the upper part.

Inside the pump housing 6 is a cylinder liner 8 with flow channels 91. In the cylinder 8, a drive piston 81 is formed, which is formed by a supply pipe 111 connected to the lower face 113 with lower flow openings> 18. The upper face 117 with the upper flow openings 116 is screwed to the lower face 1 > 3 by screws 112, wherein a shy piston 114 is inserted between the two faces 113 and 117.

In the cavity of the piston 11, a closing ring> 15 is loosely mounted. The lower and upper shutters 46 and 21 of waste 21 and 22 are disposed in the shoulder of the working cylinder. Between them are spacers 14. The piston 11 is firmly connected by means of a piston rod 151 to the piston 15 with the opening 154 which closes the transfer valve 153.

In the upper part of the piston rod 151, connecting ducts 152. are formed. The propellant pressurized water passes through the inlet pipe 50 of the inlet pipe 111 and further through the cavity of the drive piston 11 through the upper flow openings 116 into the upper working chamber 16.

At the same time, the closing ring 115 closes the lower flow openings 118. Under the pressure, the piston 11 gradually moves to the bottom dead center, while the pump piston 15 simultaneously pushes the pumped liquid from the front chamber 18 through the flow channels 91 into the outlet port 10.

At the same time, the non-return valve 8 is opened and the pumped liquid is sucked through the suction port 20 into the rear chamber 12. The piston 11, during movement to the bottom dead center, expels the propellant water from the lower chamber 17 into the drain 22 until the lower edge of the piston shell 114 lower closure 12.

In the lower chamber 17 the pressure increases, which leads to the adjustment of the two closures 12 and 13 by means of the spacer pins 14 so that the lower waste 22 is closed and the upper waste 21 is opened. The loosened closure ring 115 is entrained by the flowing liquid onto the top face 117 and closes the top flow openings 116.

The lower chamber 17 feeds the piston 11 to the top dead center and the upper chamber 16 is emptied with the upper waste 21. The non-return valve 6 closes and opens the overflow valve 153 in the pump piston 15. channels 152 to the front chamber 18 and flow channels 91 to the outlet orifice 10.

When the upper edge of the housing of the piston 114 overlaps the upper cap 13, the two caps 12 and 13 are displaced by means of spacers 14 due to pressure equalization in the chambers 16 and 17 and the entire cycle is repeated - continuous pumping occurs.

Claims (1)

SUBJECT OF THE INVENTION Differential hydraulic drive pump consisting of a working cylinder with a drive piston connected to a pump piston housed in the pump housing, characterized in that the working cylinder (1) is provided with upper and lower waste (21, 22) and lower and upper a cap (12, 13) with spacing pins X'14) and a drive piston (11) with a feed tube (111), in which lower and upper faces (113, 117) are formed through holes (116, 118) and between faces (113, 117) the closure ring (115) is loosely supported, the drive piston (11) being connected to the piston rod (151) with the pump piston (15) having a through hole (154), a overflow valve (153) and connecting ducts (152) extending into the front chamber (18), which is hydraulically connected through the flow channels (91) by the β outlet orifice (10), while the suction port (20) is part of a non-return valve (8) mounted in the pump housing (6).