초록 ▼

An expansible chamber pneumatic system, for example a fluid pump system, includes two or more double-acting diaphragm pumps, each with symmetrical left and right pump housings, each housing including an air chamber and a fluid chamber separated by a movable diaphragm. The diaphragms are connected fo

An expansible chamber pneumatic system, for example a fluid pump system, includes two or more double-acting diaphragm pumps, each with symmetrical left and right pump housings, each housing including an air chamber and a fluid chamber separated by a movable diaphragm. The diaphragms are connected for reciprocating movement in unison to pump fluid through their respective fluid chambers. Each pump includes an air valve actuated by Control air to direct Process air into one of the air chambers, simultaneously releasing used Process air from the other air chamber to thereby move the diaphragms, thereby to pump fluid. A pilot valve directs Control air to the air valve to position the air valve. The pilot valve is responsive to diaphragms reaching their travel limit in one direction to direct Control air to reverse the directions of Process air flow through the air valve to thereby reverse the movement of the pump diaphragms. Control air exhausts through the pilot valve to atmosphere. Process air exhausts through the air valve from one pump to become input or motive air for the next pump.

대표청구항 ▼

What is claimed is: 1. A pneumatic system of expansible chamber devices pneumatically connected in series, said system including: high-pressure (HP) and low pressure (LP) air chambers, each with and a piston movable therein; said pistons connected to a common rod for reciprocating movement in uniso

What is claimed is: 1. A pneumatic system of expansible chamber devices pneumatically connected in series, said system including: high-pressure (HP) and low pressure (LP) air chambers, each with and a piston movable therein; said pistons connected to a common rod for reciprocating movement in unison; an air direction control valve (50) disposed to receive input HP process air, said direction control valve operable alternately in first and second valve conditions; in said first condition (FIG. 5), said direction control valve directing HP process air to said HP air chamber and simultaneously exhausting LP process air from said LP air chamber to thereby move said pistons in a first direction; in said second condition (FIG. 6), said direction control valve directing LP process air from said HP air chamber to said LP air chamber to thereby reverse the movement of said pistons, and; a pilot valve (60) responsive to alternating strokes of said pistons to alternate said first and second conditions of said direction control valve, to thereby sequentially reverse the direction of movement of said pistons. 2. A system as defined in claim 1, in which said HP air chamber is smaller in volume than said LP air chamber. 3. A two-stage fluid pump, including: a high-pressure (HP) unit including a HP air chamber, fluid chamber, and piston therebetween; a low pressure (LP) unit including a LP air chamber, fluid chamber, and piston therebetween; said pistons connected to a common rod for reciprocating movement in unison; an air direction control valve (50) disposed to receive input HP process air, said direction control valve operable alternately in first and second valve conditions; in said first condition (FIG. 5), said direction control valve directing HP process air to said HP air chamber and simultaneously exhausting LP process air from said LP air chamber to thereby move said pistons in a first direction; in said second condition (FIG. 6), said direction control valve directing LP process air from said HP air chamber to said LP air chamber to thereby reverse the movement of said pistons, and; a pilot valve (60) responsive to alternating strokes of said pistons to alternate said first and second conditions of said direction control valve, to thereby sequentially reverse the direction of movement of said pistons. 4. A fluid pump as defined in claim 3, in which said HP air chamber is smaller in volume than said LP air chamber. 5. A fluid pump system, including high pressure (HP) and low pressure (LP) air-driven fluid pumps pneumatically connected in series; (a) said HP pump (18) including left and right pump units (30, 40); said left pump unit (30) including left air and fluid chambers (31, 32) and a piston (33) therebetween; said right pump unit (40) including right air and fluid chambers (41, 42) and a piston (43) therebetween; said pistons connected by a common piston rod (35) for reciprocating movement in unison; an air direction control valve (50) disposed to receive input HP process air to said pump (18), said direction control valve operable alternately in first and second valve conditions; in said first valve condition, said air direction control valve (50) directing process air to said left air chamber and exhausting process air from said right air chamber, thereby to move said pistons (33, 43) in a first direction; in said second condition, said air direction control valve (50) directing process air to said right air chamber and exhausting process air from said left air chamber, thereby to move said pistons (33, 43) in a second direction opposite said first direction, and; a pilot valve (60) responsive to alternating strokes of said pistons to alternate said first and second conditions of said direction control valve (50), to thereby sequentially reverse the direction of movement of said pistons; (b) said LP pump (20) being similar to said HP pump (18), including left and right pump units, air direction control valve, and pilot valve to control said LP air direction control valve; said LP pump (20) pneumatically connected to said HP pump (18) to receive process air exhaust from said HP pump as process air input to said LP pump.