Single piston foundation bag-in-box (BIB) pump

What is claimed is: 1. A pump ( 10 ) comprising: a gas housing ( 20 ) having a first gas chamber ( 21 a ), a second gas chamber ( 21 b ), a gas exhaust fitting ( 60 ) configured to provide inlet gas to the first gas chamber ( 21 a ), and a gas inlet fitting ( 62 ) configured to provide outlet gas from the second gas chamber ( 21 b ), a liquid housing ( 30 ) having a liquid chamber ( 31 a ), a liquid outlet fitting ( 64 ) configured to provide liquid from the liquid chamber ( 31 a ), and a liquid suction fitting ( 66 ) configured to provide the liquid to the liquid chamber ( 31 a ), having a single piston/diaphragm assembly ( 32 ) with a spring ( 36 ) and being arranged between the second gas chamber ( 21 b ) and the liquid chamber ( 31 a ), the single piston/diaphragm assembly ( 32 ) drawing the liquid from the liquid inlet fitting ( 66 ) into the liquid chamber ( 31 a ) during a suction stroke and providing the liquid from the liquid chamber ( 31 a ) to the outlet fitting ( 64 ) during a pressure stroke; the spring ( 36 ) being configured in the liquid chamber ( 31 a ) to store energy during the pressure stroke and provides the suction stroke; and a slide valve assembly ( 22 ) being arranged in the first gas chamber 21 a and being movable between a pressure stroke state and a suction stroke state for alternately providing pressurized gas to the second gas chamber ( 21 b ) so that the liquid passes from the liquid chamber ( 31 a ) to the liquid outlet fitting ( 64 ), and providing gas from the second gas chamber ( 21 b ) to atmosphere, so that the spring ( 36 ) provides the suction stroke and liquid is drawn from the liquid inlet fitting ( 66 ) into the liquid chamber ( 31 a ), characterized in that the slide valve assembly ( 22 ) comprises a block or housing assembly ( 22 a ) and an actuator assembly ( 22 b ); the block or housing assembly ( 22 a ) comprises a slide valve housing ( 22 a 1 ) configured with a cavity; the actuator assembly ( 22 b ) comprises a slide block ( 22 b 1 ) configured to slide in the cavity of the slide valve housing ( 22 a 1 ); the actuator assembly ( 22 b ) having a slide spring ( 22 b 3 ) arranged between a lower retainer ( 22 b 2 ) and an upper retainer ( 22 b 4 ) forming an actuator combination under compression, and a yoke ( 22 b 5 ) configured with an opening to contain the actuator combination under compression; and a piston shaft/actuator slide assembly ( 26 ) coupling the yoke ( 22 b 5 ) and the single piston/diaphragm assembly ( 32 ) causing the slide valve assembly ( 22 ) to change between the pressure stroke state and the suction stroke state. 2. A pump ( 10 ) according to claim 1 , wherein the actuator assembly ( 22 b ) is configured to slide in relation to the block or housing assembly ( 22 a ) in response to the suction-to-pressure force and the pressure-to-suction force. 3. A pump ( 10 ) according to claim 1 , wherein the first gas chamber ( 21 a ) is configured to receive the gas via the gas inlet fitting ( 62 ) in response to the suction-to-pressure force at the conclusion of the suction stroke. 4. A pump ( 10 ) according to claim 1 , wherein the slide valve assembly ( 22 ) is configured to provide the gas via the gas exhaust fitting ( 60 ) to atmosphere in response to the pressure-suction force at the conclusion of the pressure stroke. 5. A pump ( 10 ) according to claim 1 , wherein, during the pressure stroke, the slide valve assembly ( 22 ) is positioned so that gas is routed from the first gas chamber ( 21 a ) thru the slide valve assembly ( 22 ) to the second gas chamber ( 21 b ). 6. A pump ( 10 ) according to claim 1 , wherein, during the suction stroke, the slide valve assembly ( 22 ) is positioned so that gas is routed from the second gas chamber ( 21 b ) thru the slide valve assembly ( 22 ) to the gas exhaust fitting ( 60 ). 7. A pump ( 10 ) according to claim 1 , wherein the slide valve assembly ( 22 ) comprises at least one component ( 22 b ) made of ceramic. 8. A pump ( 10 ) according to claim 7 , wherein the slide block ( 22 b 1 ) is made of ceramic. 9. A pump ( 10 ) according to claim 2 , wherein the single piston/diaphragm assembly ( 32 ) comprises a piston ( 32 a ) and a diaphragm ( 32 b ), the piston ( 32 a ) being coupled to the slide valve assembly ( 22 ) via a piston shaft/actuator slide assembly ( 26 ), and the diaphragm ( 32 b ) being coupled between the gas housing ( 20 ) and the liquid housing ( 30 ). 10. A pump ( 10 ) comprising: a gas housing ( 20 ) having a first gas chamber ( 21 a ), a second gas chamber ( 21 b ), a gas exhaust fitting ( 60 ) configured to provide inlet gas to the first gas chamber ( 21 a ), and a gas inlet fitting ( 62 ) configured to provide outlet gas from the second gas chamber ( 21 b ); a liquid housing ( 30 ) having a liquid chamber ( 31 a ), a liquid outlet fitting ( 64 ) configured to provide liquid from the liquid chamber ( 31 a ), and a liquid suction fitting ( 66 ) configured to provide the liquid to the liquid chamber ( 31 a ), having a single piston/diaphragm assembly ( 32 ) with a spring ( 36 ) and being arranged between the second gas chamber ( 21 b ) and the liquid chamber ( 31 a ), the single piston/diaphragm assembly ( 32 ) drawing the liquid from the liquid inlet fitting ( 66 ) into the liquid chamber ( 31 a ) during a suction stroke and providing the liquid from the liquid chamber ( 31 a ) to the outlet fitting ( 64 ) during a pressure stroke; the spring ( 36 ) being configured in the liquid chamber ( 31 a ) to store energy during the pressure stroke and provides the suction stroke; and a slide valve assembly ( 22 ) being arranged in the first gas chamber 21 a and being movable between a pressure stroke state and a suction stroke state for alternately providing pressurized gas to the second gas chamber ( 21 b ) so that the liquid passes from the liquid chamber ( 31 a ) to the liquid outlet fitting ( 64 ), and providing gas from the second gas chamber ( 21 b ) to atmosphere, so that the spring ( 36 ) provides the suction stroke and liquid is drawn from the liquid inlet fitting ( 66 ) into the liquid chamber ( 31 a ), characterized in that the slide valve assembly ( 22 ) comprises a block or housing assembly ( 22 a ) and an actuator assembly ( 22 b ); the block or housing assembly ( 22 a ) comprises a slide valve housing ( 22 a 1 ) configured with a cavity; the actuator assembly ( 22 b ) comprises a slide block ( 22 b 1 ) configured to slide in the cavity of the slide valve housing ( 22 a 1 ); the actuator assembly ( 22 b ) having a slide spring ( 22 b 3 ) arranged between a lower retainer ( 22 b 2 ) and an upper retainer ( 22 b 4 ) forming an actuator combination under compression, and a yoke ( 22 b 5 ) configured with an opening to contain the actuator combination under compression; a piston shaft/actuator slide assembly ( 26 ) coupling the yoke ( 22 b 5 ) and the single piston/diaphragm assembly ( 32 ) causing the slide valve assembly ( 22 ) to change between the pressure stroke state and the suction stroke state; and the single piston/diaphragm assembly ( 32 ) comprises a piston ( 32 a ) and a diaphragm ( 32 b ), the piston ( 32 a ) being coupled to the slide valve assembly ( 22 ) via a piston shaft/actuator slide assembly ( 26 ), and the diaphragm ( 32 b ) being coupled between the gas housing ( 20 ) and the liquid housing ( 30 ). 11. A pump ( 10 ) according to claim 10 , wherein the actuator assembly ( 22 b ) is configured to slide in relation to the block or housing assembly ( 22 a ) in respo