Personal air sampling pump assembly with diaphragm damping portion

We claim: 1. An air sampling pump comprising: a housing; a piston reciprocally driven along a first line within the housing; a diaphragm assembly extending in a second line traverse to the first line and operably coupled to the piston, the diaphragm assembly comprising: a valve head including a fluid inlet and a fluid outlet and defining a fluid chamber fluidly coupling the fluid inlet and the fluid outlet and forming a fluid path from the fluid inlet to the fluid outlet; a diaphragm sealingly engaging the valve head, the diaphragm comprising a piston diaphragm membrane portion coupled to the piston for reciprocating with the piston and enclosing a first portion of the fluid chamber, and a damper membrane portion spaced from the piston diaphragm membrane portion along the second line and enclosing a second portion of the fluid chamber; and a check valve disposed within the fluid path, wherein reciprocation of the piston causes a change in air pressure within the fluid chamber to cause aft to move from the fluid inlet toward the fluid outlet, the change in air pressure causes a corresponding movement of the damper membrane portion and movement of the damper membrane portion decreases vibration of the air sampling pump as the air is caused to move from the fluid inlet to the fluid outlet in response to each reciprocation of the piston. 2. The air sampling pump as recited in claim 1 , further comprising a motor mounted to the piston for reciprocally driving the piston. 3. The air sampling pump as recited in claim 2 , wherein the motor is supported by the housing. 4. The air sampling pump as recited in claim 1 , wherein the diaphragm assembly is mounted to the housing. 5. The air sampling pump as recited in claim 1 , wherein the fluid inlet and the fluid outlet are integrally formed within the housing. 6. The air sampling pump as recited in claim 1 , wherein the valve head includes a pressure sensor. 7. The air sampling pump as recited in claim 1 , wherein the fluid chamber comprises: a first fluid sub-chamber fluidly coupled to the fluid inlet; a second fluid sub-chamber fluidly coupled to the first fluid sub-chamber via a first aperture; and a third fluid sub-chamber fluidly coupled to the second fluid sub-chamber via a second aperture and fluidly coupled to the fluid outlet. 8. The air sampling pump as recited in claim 7 , wherein the check valve is sealingly mated to the first aperture to substantially prevent fluid from traversing from the second fluid sub-chamber to the first fluid sub-chamber. 9. The air sampling pump as recited in claim 8 , further comprising a second check valve sealingly mated to the second aperture to substantially prevent fluid from traversing from the third fluid sub-chamber to the second fluid sub-chamber. 10. The air sampling pump as recited in claim 8 , wherein the piston diaphragm membrane portion is operably coupled to the second fluid sub-chamber. 11. The air sampling pump as recited in claim 8 , wherein the damper membrane portion is operably coupled to the third fluid sub-chamber. 12. The air sampling pump as recited in claim 11 , wherein the damper membrane portion encloses, at all times, the third fluid sub-chamber. 13. The air sampling pump as recited in claim 1 , wherein the fluid outlet is a first fluid outlet, and wherein the air sampling pump further comprises a second fluid outlet configured to bleed air out of the fluid chamber. 14. The air sampling pump as recited in claim 13 , wherein the second fluid outlet is coupled to a pressure sensor configured to monitor the pressure within the fluid chamber. 15. The air sampling pump as recited in claim 1 , wherein the air sampling pump is configured to draw air, and not liquid, into the fluid chamber via the fluid inlet. 16. The air sampling pump as recited in claim 15 , wherein the air drawn into the fluid chamber is environmental air. 17. The air sampling pump as recited in claim 15 , wherein the air sampling pump is configured to draw air through a filter medium such that particulate material in the air may be collected on the filter medium. 18. An air sampling pump comprising: a housing; a piston reciprocally driven along a first line within the housing; a diaphragm assembly extending in a second line traverse to the first line and operably coupled to the piston, the diaphragm assembly comprising: a valve head including a fluid inlet and a fluid outlet and defining a fluid chamber fluidly coupling the fluid inlet and the fluid outlet and forming a fluid path from the fluid inlet to the fluid outlet; a diaphragm sealingly engaging the valve head, the diaphragm comprising a piston diaphragm membrane portion coupled to the piston for reciprocating with the piston and enclosing a first portion of the fluid chamber, and a damper membrane portion spaced from the piston diaphragm membrane portion along the second line and enclosing, at all times, a second portion of the fluid chamber; and a check valve disposed within the fluid path, wherein reciprocation of the piston causes a change in air pressure within the fluid chamber to cause air to move from the fluid inlet toward the fluid outlet, and the change in air pressure causes a corresponding movement of the damper membrane portion, wherein movement of the damper membrane portion decreases vibration of the air sampling pump. 19. The air sampling pump of claim 18 , wherein air does not pass through the damper membrane portion. 20. An air sampling pump comprising: a housing; a piston reciprocally driven within the housing; a diaphragm assembly operably coupled to the piston, the diaphragm assembly comprising: a valve head including a fluid inlet and a fluid outlet and defining a fluid chamber fluidly coupling the fluid inlet and the fluid outlet and forming a fluid path from the fluid inlet to the fluid outlet; a diaphragm sealingly engaging the valve head, the diaphragm comprising a piston diaphragm membrane portion coupled to the piston for reciprocating with the piston and enclosing a first portion of the fluid chamber, and a damper membrane portion spaced from the piston diaphragm membrane portion and enclosing a second portion of the fluid chamber; and a check valve disposed within the fluid path, wherein reciprocation of the piston causes a change in aft pressure within the fluid chamber to cause aft to move from the fluid net toward the fluid outlet, and the change in air pressure causes a corresponding movement of the damper membrane portion, wherein movement of the damper membrane portion decreases vibration of the air sampling pump.