RU2005139185A

RU2005139185A - Diaphragm Pump

Info

Publication number: RU2005139185A
Application number: RU2005139185/28A
Authority: RU
Inventors: Кеннет Е ЛЕРКЕ (US); Кеннет Е ЛЕРКЕ; Ричард Д ХЕМБРИ (US); Ричард Д ХЕМБРИ
Original assignee: Уоннер Инджиниринг, Инк. (Us); Уоннер Инджиниринг, Инк.
Priority date: 2003-05-16
Filing date: 2003-05-16
Publication date: 2006-05-27
Also published as: RU2311559C2

Claims

1. A diaphragm pump driven by an engine, comprising a housing in which there is a pump chamber adapted to be filled with a fluid to be pumped, a drive chamber adapted to be filled with hydraulic fluid, and a reservoir for a hydraulic fluid, a diaphragm having a drive side the chamber and the side of the pump chamber, and the diaphragm is mounted in the housing and placed between the pump and drive chambers, while the diaphragm is adapted for reciprocating movement from the connection to the pump chamber, the piston in the cylinder placed in the housing, adapted for reciprocating movement with alternating delivery and suction strokes, the cylinder forming part of the drive chamber, and the piston moving in the longitudinal direction in the cylinder, which has a surface with the upper part, when the pump is positioned so that the cylinder is in a generally horizontal position, a hydraulic fluid connection passage between the fluid reservoir and the drive chamber and valve n in the connecting channel to selectively allow hydraulic fluid to flow from the reservoir to the drive chamber when the valve is open, and a ventilation hole formed in the upper part of the cylinder surface in which air is pushed out of the drive chamber through the ventilation hole in the cylinder in order to improve quality fluid in the drive chamber and provide self-priming pump.

2. The diaphragm pump according to claim 1, which contains a spring forcing the diaphragm to move away from the pump chamber, the first end of the spring being connected to the diaphragm, and its second end being supported by the piston for movement together with the piston, and the spring has a stiffness coefficient determined from the equation

k = A _p (P _s -P _n ) / d _o ,

where And _p - the area of the piston;

d _o is the overflow distance;

P _s is the design suction pressure of the pump;

P _n - operating pressure of the pump in the neutral position,

and where the calculated pump suction pressure varies from 8.4 to 14.7 psi (from 57.9 to 101.3 kPa), and the working pressure of the pump in the neutral position changes from zero to 4 psi (27.6 kPa).

3. The diaphragm pump according to claim 1, in which a longitudinal slot is used as a ventilation hole formed in the upper part of the surface of the cylinder.

4. The diaphragm pump according to claim 3, in which the slot ends before the hydraulic fluid enters the reservoir, and the housing has a channel extending through it from the slot to the reservoir, the channel comprising a shut-off valve.

5. The diaphragm pump according to claim 4, in which the shut-off valve is formed by an annular cutout and a ring in the cutout, the channel ending in the cutout on the side of the casing opposite the slot.

6. The diaphragm pump according to claim 1, in which the piston has an end, and the slot ends, not reaching the end of the piston in the position where the piston has completely completed the pumping stroke.

7. The diaphragm pump according to claim 1, in which the slot has a cross-sectional area greater than 0.00005 square inches (0.03 mm ² ) and less than 0.003 square inches (1.9 mm ² ).

8. The diaphragm pump according to claim 6, in which the slot has a height and width greater than 0.005 inches (0.13 mm).

9. The diaphragm pump according to claim 1, in which the cylinder has a wall as part of the housing, and a channel passing through the wall and providing a passage for fluid from the upper part of the surface of the cylinder to the hydraulic fluid reservoir is used as a ventilation hole.

10. The diaphragm pump according to claim 9, in which the channel has a cross-sectional area greater than 0.00005 square inches (0.03 mm ² ) and less than 0.003 square inches (1.9 mm ² ).

11. The diaphragm pump of claim 10, in which the channel has a diameter greater than 0.005 inches (0.13 mm).

12. A motor-driven diaphragm pump, comprising a housing in which there is a pump chamber adapted to be filled with a fluid to be pumped, a drive chamber adapted to be filled with hydraulic fluid, and a hydraulic fluid reservoir, a diaphragm having a drive side the chamber and the side of the pump chamber, and the diaphragm is mounted in the housing and placed between the pump and drive chambers, while the diaphragm is adapted for reciprocating movement from worn to the pump chamber, the piston in the cylinder housed in the housing, adapted for reciprocating movement with alternating delivery and suction strokes, the cylinder forming part of the drive chamber, and the piston moving in the longitudinal direction in the cylinder, which has a surface, and a connecting channel for hydraulic fluid between the reservoir for hydraulic fluid and the drive chamber and a valve in the connecting channel for selectively ensuring the flow of hydraulic second fluid from the reservoir to the transfer chamber when the valve is open, the valve having a valve passage which is in the surface of the cylinder and the cylinder surface has an annular groove intersecting valve passage so that the groove facilitates the passage past the valve piston channel.