US20120042773A1

US20120042773A1 - Pump Piston Device

Info

Publication number: US20120042773A1
Application number: US13/262,405
Authority: US
Inventors: Per Olav Haughom
Original assignee: Siv Ing Per Olav Haughorn AS
Current assignee: Siv ing Per Olav Haughom AS; Siv Ing Per Olav Haughorn AS
Priority date: 2009-05-13
Filing date: 2010-05-05
Publication date: 2012-02-23
Also published as: BRPI1010928A2; NO329833B1; WO2010131976A1; EP2430311A1; NO20091872L; RU2011146473A; CA2756658A1

Abstract

A pump piston device is for reciprocating movement in a pump cylinder. Between the pump piston and the pump cylinder, an annular space is formed which is defined by a first seal and a second seal, the annular space being pressurized, and the first seal and the second seal being in a common piece of material which constitutes the pump piston.

Description

This invention relates to a pump piston. More particularly, it relates to a pump piston for reciprocating movement in a pump cylinder in which, between the pump piston and the pump cylinder, an annular space is formed which is defined by a first seal and a second seal, the annular space being pressurized.
In piston pumps working with particle-containing or non-lubricating fluids, seal wear may be a considerable problem, in particular in the case of high pressures.
According to the prior art, it is sought to relieve the problem by arranging scrapers or several successive seals, for example, around the piston.
WO document 2005/080836 discloses a pump in which the piston is provided with two seals with an intermediate annular space.
U.S. Pat. No. 5,701,797 and EP patent application 1975409 deal with pumps in which there are two seals arranged in the cylinder pipe.
NO patent 321183 discloses a piston in which, on a portion of the external jacket surface of the piston facing the pressure side of the piston, an axially movable sleeve is formed, sealing against the piston. Externally, the piston and the sleeve are each provided with a respective seal sealing against the cylinder wall. The area between the external seals of the piston and the sleeve is pressurized by means of a fluid. During the pump stroke, the piston and the sleeve are moved towards the fluid which is to be pumped. The sleeve is thereby moved somewhat along the piston, so that pressure builds up between the two seals. The sleeve is of such a design that the pressure is approximately the same on both sides of the seal surrounding the sleeve. The movement of the sleeve on the piston and the relatively large cross-sectional area of the sleeve reduce the volumetric efficiency of the pump.
The invention has for its object to remedy or reduce at least one of the drawbacks of the prior art.
The object is achieved according to the invention through the features which are specified in the description below and in the claims that follow.
A pump piston is provided for reciprocating movement in a pump cylinder in which, between the pump piston and the pump cylinder, an annular space is formed, defined by a first seal and a second seal, the annular space being pressurized and the first seal and the second seal being in a common piece of material which constitutes the pump piston. The pump piston is characterized by a compensation piston being movable in a compensation cylinder in the pump piston, the compensation piston communicating, by its first end portion, with the pressure side of the pump piston, and, at its second end portion, with the annular space via a piston channel.
Thus, it is possible to form the piston in a simple way, as the first seal and the second seal can be arranged in a common piece of material.
The pump piston may be crank-operated or moved in other known ways, for example hydraulically or pneumatically.
A shoulder may prevent the compensation piston from being moved out of the compensation cylinder.
The annular space may be supplied with pressure fluid via a check valve and a cylinder channel. The pressure fluid may thereby be supplied to the annular space at a considerably lower pressure than the operating pressure of the piston pump, as the check valve will close to the return flow of pressure fluid during the working stroke of the piston pump.
The operation of the pump piston is described in the characterizing part of the application.
A pump piston in accordance with the invention exhibits the advantageous features from NO 321183 with respect to seal life, with just an insignificant reduction in the volumetric efficiency.

In what follows is described an example of a preferred embodiment which is visualized in the accompanying drawings, in which:

FIG. 1 shows schematically a piston pump which is provided with a pump piston in accordance with the invention, the piston being moved in its suction stroke; and

FIG. 2 shows schematically the same as FIG. 1 but during the working stroke of the piston pump.

In the drawings, the reference numeral 1 indicates a piston pump comprising a pump casing 2 with a pump cylinder 4, a crankcase 6 and a valve block 8 for the medium which is to be pumped.
A driven crank 10 is supported in the crankcase 6 and connected, in a manner known per se, to a pump piston 12 by means of a crank rod 14. The pump piston 12 is reciprocatable in the pump cylinder 4.
The valve block 8 is formed with an inlet valve 16 and an outlet valve 18.
The pump piston 12 is provided with a first surrounding seal 20 which is relatively close to its pressure side 22, and a second surrounding seal 24 on the crank side of the first seal 20.
An annular space 26 is defined by the pump cylinder 4, the pump piston 12 and the seals 20, 24.
A compensation cylinder 28 has been bored into the pump piston 12 from the pressure side 22 of the pump piston 12. A compensation piston 30 is sealingly and movably arranged in the compensation cylinder 28, a compensation piston chamber 32 being defined by the compensation cylinder 28 and the compensation piston 30. The compensation piston chamber 32 communicates with the annular space 26 via a piston channel 34.
A shoulder 36 prevents the compensation piston 30 from being moved out of the compensation cylinder 28. A supporting spring 38 may be arranged in the compensation piston chamber 32 and be arranged to move the compensation piston 30 in the direction towards the shoulder 36.
A feed pump 40 supplies the annular space 26 with pressure fluid via a pipe 42, a check valve 44 and a cylinder channel 46. The pressure from the feed pump 40 is restricted by an overpressure valve 48.
During operation, the annular space 26 is filled with a preferably lubricating pressure fluid by the feed pump 40 via the pipe 42, the check valve 44 and the cylinder channel 46. An appropriate maximum pressure, which may be relatively low in relation to the maximum pressure of the piston pump 1, has been set on the overpressure valve 48.
Pressure fluid flows from the annular space 26 via the piston channel 34 into the compensation piston chamber 32, whereby the compensation piston 30 is moved until it hits the shoulder 36.
During the suction stroke of the piston pump 1, see FIG. 1, the pump piston 12 is moved in the direction towards the crank 10, the inlet valve 16 opens and pumped liquid enters the piston pump 1. The compensation piston 30 stays in its position, bearing against the shoulder 36, because of the pressure in the compensation piston chamber 32 and a possible underpressure in the piston pump 1.
When the piston pump 1 starts its pump stroke, see FIG. 2, the inlet valve 16 closes, whereby the pressure in the piston pump 1 increases until the outlet valve 18 opens. The increased pressure in the piston pump 1 works against the compensation piston 30 which is moved inwards in the compensation cylinder 28. The pressure in the compensation piston chamber 32 increases by the check valve 44 closing. The annular space 26 thereby gets the same pressure as the piston pump 1.
Thus, during the pressure stroke of the piston pump 1, there is approximately the same pressure on both sides of the first seal 20, which substantially reduces seal wear, even when pumping particle-laden liquid.
The second seal 24, sealing against a clean lubricating fluid, receives full pumping pressure.

Claims

1. A pump piston device for reciprocating movement in a pump cylinder in which there is formed, between the pump piston and the pump cylinder, an annular space which is defined by a first seal and a second seal, the annular space being pressurized, and the first seal and the second seal being in a common piece of material which constitutes the pump piston, wherein a compensation piston is movable in a compensation cylinder in the pump piston, the compensation piston communicating, by its first end portion, with the pressure side of the pump piston, and, at its second end portion, with the annular space via a piston channel.

2. The device in accordance with claim 1, wherein the annular space is supplied with pressure fluid via a check valve and a cylinder channel.