Pneumatically operated reciprocating piston compressor

US 5,324,175 A
Filed: 05/03/1993
Issued: 06/28/1994
Est. Priority Date: 05/03/1993
Status: Expired due to Fees

First Claim

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1. A pneumatically operated compressor comprising:

a source of compressed gas;

a first stage compression chamber;

a second stage compression chamber;

each compression chamber having an inlet and a discharge;

the source of compressed gas being supplied to the inlet of the first stage compression chamber;

a reciprocating piston assembly having a pneumatically actuated piston, a first stage compression piston and a second stage compression piston; and

a control means for controlling the application of the source of compressed gas to the pneumatically actuated piston;

the discharge of the first stage compression chamber being in fluid communication with the inlet of the second stage compression chamber.

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Abstract

A two stage free piston pneumatically operated air compressor having an integral and coaxial power piston, first stage piston and second stage piston. The discharge of the compressor first stage is the inlet for the compressor second stage. A piston-type throttling valve is used to control the speed of the reciprocating piston. The piston-type throttling valve is responsive to the pressure drop across a fixed orifice.

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18 Claims

1. A pneumatically operated compressor comprising:
- a source of compressed gas;
  
  a first stage compression chamber;
  
  a second stage compression chamber;
  
  each compression chamber having an inlet and a discharge;
  
  the source of compressed gas being supplied to the inlet of the first stage compression chamber;
  
  a reciprocating piston assembly having a pneumatically actuated piston, a first stage compression piston and a second stage compression piston; and
  
  a control means for controlling the application of the source of compressed gas to the pneumatically actuated piston;
  
  the discharge of the first stage compression chamber being in fluid communication with the inlet of the second stage compression chamber.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The pneumatically operated compressor according to claim 1, further comprising:
    - a speed regulating means for regulating the speed of the reciprocating piston assembly.
  - 3. The pneumatically operated compressor according to claim 2 wherein the speed regulating means comprises a piston-type throttling valve responsive to variations in pressure and a flow orifice, the piston-type throttling valve moving in response to variations in pressure drop across the flow orifice to throttle flow to the flow orifice thereby maintaining a pre-determined pressure drop across the flow orifice.
  - 4. The pneumatically operated compressor according to claim 2 wherein the speed regulating means comprises a piston-type throttling valve having a first end and a second end, a flow orifice, a biasing means operating against the first end of the piston-type throttling valve and an adjustment means, pressure downstream of the flow orifice being ported to the first end of the piston-type throttling valve, pressure upstream of the flow orifice being ported to the second end of the piston-type throttling valve, the piston-type throttling valve moving in response to variations in the pressure drop across the flow orifice to throttle flow to the flow orifice thereby maintaining a pre-determined pressure drop across the flow orifice, the adjustment means adjusting the biasing means, thereby adjusting the pre-determined pressure drop across the flow orifice.
  - 5. The pneumatically operated compressor according to claim 1 wherein the pneumatically actuated piston is located between the first stage compression piston and the second stage compression piston.
  - 6. The pneumatically operated compressor according to claim 1 wherein the pneumatically actuated piston, the first stage compression piston and the second stage compression piston are coaxial.
  - 7. The pneumatically operated compressor according to claim 1, further comprising:
    - a heat exchanger for cooling the discharge of the first stage compression chamber.
  - 8. The pneumatically operated compressor according to claim 1 further comprising:
    - a power piston chamber, the pneumatically actuated piston being located within the power piston chamber and dividing the power piston chamber into a first sub-chamber and a second subchamber;
      
      the control means comprising a pilot valve being moveable between a first position and a second position, the pilot valve in the first position admitting compressed gas to the first subchamber and exhausting gas from the second sub-chamber, the pilot valve in the second position admitting compressed gas to the second sub-chamber and exhausting gas from the first sub-chamber; and
      
      a reversing means for moving the pilot valve from one position to the other position.
  - 9. The pneumatically operated compressor according to claim 8 wherein the reversing means comprises two projections on the pilot valve, the pneumatically actuated piston alternately impacting one of the projections and the other of the projections, thereby causing the pilot valve to move from one position to the other position.
  - 10. The pneumatically operated compressor according to claim 9, further comprising:
    - a detent on the pilot valve and a detent follower in engagement with the detent, the detent and detent follower producing a force to move the pilot valve rapidly to the opposite position after the pneumatically actuated piston impacts a pilot valve projection.

11. A pneumatically operated compressor, the compressor having a first stage compression chamber and a second stage compression chamber, each compression chamber having an inlet and a discharge;
- the compressor comprising;
  
  a reciprocating piston assembly having a pneumatically actuated piston, a first stage compression piston and a second stage compression piston, the diameter of the first stage compression piston being larger than the diameter of the second stage compression;
  
  a power piston chamber, the pneumatically actuated piston being located within the power piston chamber and dividing the power piston chamber into a first sub-chamber and a second sub-chamber; and
  
  a control means for controlling the application of a source of compressed gas to the pneumatically actuated piston, the control means comprising a pilot valve having a pair of spaced apart sealing surfaces and two sets of inlet and exhaust seats, the pilot valve being movable from a first position admitting compressed gas to the first sub-chamber and exhausting gas from the second sub-chamber, to a second position admitting compressed gas to the second sub-chamber and exhausting gas from the first sub-chamber, each pilot valve sealing surface alternately sealing against an inlet seat and an exhaust seat, each pilot valve sealing surface projecting into the power piston chamber, the pneumatically actuated piston alternately impacting one of the pilot valve projecting sealing surfaces and the other of the pilot valve projecting sealing surfaces, thereby causing the pilot valve to move from one position to the other position.
- View Dependent Claims (12, 13, 14, 15)
- - 12. The pneumatically operated compressor according to claim 11 wherein the discharge of the first stage compression chamber is in fluid communication with the inlet of the second stage compression chamber.
  - 13. The pneumatically operated compressor according to claim 12, further comprising:
    - a heat exchanger for cooling the discharge of the first stage compression chamber.
  - 14. The pneumatically operated compressor according to claim 11 wherein the pneumatically actuated piston, the first stage piston and the second stage piston are coaxial.
  - 15. The pneumatically operated compressor according to claim 11, further comprising:
    - a speed regulating means for regulating the speed of the reciprocating piston assembly.

16. A reciprocating piston compressor comprising:
- a first stage compression chamber;
  
  a second stage compression chamber;
  
  a power piston chamber;
  
  each compression chamber having an inlet and a discharge;
  
  a compression means for compressing a fluid, the compression means comprising a power piston, a first stage piston and a second stage piston, the power piston, the first stage piston and the second stage piston being coaxial and integral with one another;
  
  a control means for controlling the application of a source of compressed gas to the power piston; and
  
  a speed regulating means for regulating the speed of the reciprocating piston, the speed regulating means comprising a piston-type throttling valve having a first end and a second end, a flow orifice, a biasing means operating against the first end of the piston-type throttling valve and an adjustment means, pressure downstream of the flow orifice being ported to the first end of the piston-type throttling valve, pressure upstream of the flow orifice being ported to the second end of the piston-type throttling valve, the piston-type throttling valve moving in response to variations in the pressure drop across the flow orifice to throttle flow to the flow orifice thereby maintaining a pre-determined pressure drop across the flow orifice, the adjustment means adjusting the biasing means, thereby adjusting the pre-determined pressure drop across the flow orifice.
- View Dependent Claims (17, 18)
- - 17. The reciprocating piston compressor according to claim 16 wherein the discharge of the first stage compression chamber is in fluid communication with the inlet of the second stage compression chamber.
  - 18. The reciprocating piston compressor according to claim 16 wherein the diameter of the power piston is larger than the diameter of the first stage piston and the diameter of the first stage piston is larger than the diameter of the second stage piston.

Specification

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Litigation Campaign Assessment

Current Assignee
Northern Research & Engineering Corporation (Trane Technologies plc)
Original Assignee
Northern Research & Engineering Corporation (Trane Technologies plc)
Inventors
Robinson, Ward H., Sorensen, Harold P.
Primary Examiner(s)
Bertsch, Richard A.
Assistant Examiner(s)
Basichas, Alfred

Application Number

US08/056,272
Time in Patent Office

421 Days
Field of Search

417/254, 417/264, 417/267, 417/268, 417/397, 91/341 R
US Class Current

417/254
CPC Class Codes

F04B 9/1295 having two or more pumping ...

F04B 9/133 reciprocating movement of t...

Pneumatically operated reciprocating piston compressor

First Claim

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Abstract

Citations

18 Claims

Specification

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Pneumatically operated reciprocating piston compressor

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

18 Claims

Specification

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Solutions

Use Cases

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