Supercharger with reduced noise

US 4,564,345 A
Filed: 09/04/1984
Issued: 01/14/1986
Est. Priority Date: 09/04/1984
Status: Expired due to Term

First Claim

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1. In a rotary blower of the backflow-type including a housing, inlet and outlet Ports having longitudinal and transverse boundaries formed by wall surfaces defined by the housing, and a chamber defined by the housing;

first and second meshed lobed rotors disposed in the chamber for transferring volumes of relatively low-pressure inlet port air via spaces between adjacent, unmeshed lobes to relatively high pressure outlet port air;

means for controlling the rate at which outlet port air backflows into the transfer volume;

the improvement comprising;

first and second expanding orifices disposed on transversely opposite sides of the outlet port and defining the control means, said orifices defined by transverse wall extensions of the outlet port wall surfaces and traversing of the transverse wall extensions by the lobes prior to traversal of the outlet port boundaries, and said expanding orifices alternately operative at predetermined rotor speeds and pressure differential relationships to maintain a substantially constant backflow rate into each of the transfer volumes.

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Abstract

An improved supercharger or blower (10) of the Roots-type with reduced airborne noise. The blower includes a housing (12) defining generally cylindrical chambers (32, 34) containing meshed lobed rotors (14, 16) having the lobes (14a, 14b, 14c, 16a, 16b, 16c) thereon formed with an end-to-end helical twist according to the relation 360°/2n, where n equals the number of lobes per rotor. Blower housing (12) also defines inlet and outlet ports (36, 38). The inlet port includes a longitudinal extent defined by housing wall surfaces (20f, 20h) and a transverse extent defined by housing wall surfaces 20g, 20i. Transverse wall surfaces (20g, 20i) are disposed substantially parallel to the associated rotor lobes. The outlet port includes a longitudinal extent defined by housing surfaces (20m, 20r) and a transverse extent defined by housing surfaces (20p, 20s). Spaces (32a, 34a) between adjacent lobes of each rotor transfer volumes of low-pressure inlet port air to relatively high-pressure outlet port air. Associated with the outlet port are first and second expanding orifices (42, 44) disposed on transversely opposite sides of the outlet port for controlling the rate of backflow into the transfer volumes and operative at predetermined rotor speed and pressure differential relationships to maintain a substantially constant backflow rate into each of the transfer volumes.

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18 Claims

1. In a rotary blower of the backflow-type including a housing, inlet and outlet Ports having longitudinal and transverse boundaries formed by wall surfaces defined by the housing, and a chamber defined by the housing;
- first and second meshed lobed rotors disposed in the chamber for transferring volumes of relatively low-pressure inlet port air via spaces between adjacent, unmeshed lobes to relatively high pressure outlet port air;
  
  means for controlling the rate at which outlet port air backflows into the transfer volume;
  
  the improvement comprising;
  
  first and second expanding orifices disposed on transversely opposite sides of the outlet port and defining the control means, said orifices defined by transverse wall extensions of the outlet port wall surfaces and traversing of the transverse wall extensions by the lobes prior to traversal of the outlet port boundaries, and said expanding orifices alternately operative at predetermined rotor speeds and pressure differential relationships to maintain a substantially constant backflow rate into each of the transfer volumes.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The blower of claim 1, wherein said expanding orifices are each operative to expand over a period substantially equal to 360°
    - /2 where n equals the number of lobes per rotor.
  - 3. The rotary blower of claim 1, wherein the wall surfaces defining the transverse boundaries of the inlet port are disposed substantially parallel to the traversing lobes.
  - 4. The rotary blower of claim 1, wherein each rotor includes three lobes.
  - 5. The blower of claim 1, wherein the lobes are formed with a helical twist substantially equal to the relation 360°
    - /2n, where n equals the number of lobes per rotor.
  - 6. The rotary blower of claim 5, wherein the lobes are formed with a substantially involute profile.
  - 7. The rotary blower of claim 1, wherein the rotors are disposed for rotation about parallel axes.
  - 8. The rotary blower of claim 7, further including meshed timing gears fixed to the rotors for preventing contact of the meshing lobes.
  - 9. The rotary blower of claim 1, wherein the rotors are disposed for rotation about parallel axes and timed with respect to each other by meshed gears fixed to the rotors;
    - each rotor including three lobes formed with a helical twist from end-to-end of substantial 60°
      
      , and said expanding orifices are each operative over rotational periods of substantially 60°
      
      .
  - 10. The rotary blower of claim 9, wherein wall surfaces defining the transverse boundaries of the inlet port are disposed substantially parallel to the traversing lobes at the time of lobe traversing.
  - 11. The rotary blower of claim 9, wherein the lobes are formed with a substantially involute profile.
  - 12. The blower of claim 1, wherein the transverse wall extensions defining each expanding orifice converge as they transversely extend away from the outlet port.
  - 13. The blower of claim 12, wherein the intersections of the outlet port wall surfaces and the transverse wall extensions defining each expanding orifice are spaced apart such that a lobe of one rotor traverses the intersection of one of the expanding orifices at substantially the same time a lobe of the other rotor traverses the convergence of the transverse wall extensions of the other expanding orifice.
  - 14. The blower of claim 12, wherein the intersections and convergence of the wall surfaces of each expanding orifice are substantially equal to 360°
    - /2n, where n equals the number of lobes per rotor.

15. In a rotary pump of the backflow type including a housing defining first and second parallel, overlapping cylindrical chambers having transversely spaced longitudinal axes;
- an inlet Port and an outlet port having longitudinal and transverse boundaries defined by housing wall surfaces, disposed on opposite sides of the housing at the plane of intersection of the chambers, and respectively communicating with relatively low and high pressure fluids;
  
  first and second rotors respectively disposed in the first and second chambers and having circumferentially spaced lobes meshing with each other, the spaces between adjacent lobes of each rotor operative when sealingly cooperating with cylindrical wall surface portions of the associated chamber to transfer volumes of the low pressure fluid to the high pressure fluid in response to the leading lobe of each transfer volume traversing the boundaries of the outlet port;
  
  the improvement comprising;
  
  first and second expanding orifices respectively associated with the transfer volumes of the first and second rotors and alternately operative to control the backflow rate of outlet port fluid to the associated transfer volumes, said orifices defined by transverse wall extensions of the wall surfaces of opposite transverse boundaries of the outlet port and traversing of the transverse wall extensions by the lobes prior to traversal of the outlet port boundaries, said expanding orifices alternately operative at predetermined rotor speed and pressure differential relationships to maintian a substantially constant backflow rate.
- View Dependent Claims (16, 17, 18)
- - 16. The blower of claim 15, wherein wall surfaces defining the transverse boundaries of the inlet port are disposed substantially parallel to the traversing lobes.
  - 17. The blower of claim 15, wherein the lobes are formed with a helical twist substantially equal to the relation 360°
    - /2n, where n equals the number of lobes per rotor, the lobes are timed with respect to each other by meshed gears fixed to the rotors, and said expanding orifices are each alternately operative over rotational periods of substantially 60°
      
      .
  - 18. The rotary blower of claim 17, wherein the lobes are formed with a substantially involute profile.

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Current Assignee
Eaton Corp. (Wisconsin) (Eaton Corporation PLC.)
Original Assignee
Eaton Corp. (Wisconsin) (Eaton Corporation PLC.)
Inventors
Mueller, Robert S.
Primary Examiner(s)
NOT, DEFINED
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/647,072
Time in Patent Office

497 Days
Field of Search

418/201-206
US Class Current

418/206.5
CPC Class Codes

F04C 18/16 with helical teeth, e.g. ch...

F04C 29/0035 Equalization of pressure pu...

Supercharger with reduced noise

First Claim

1 Assignment

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Accused Products

Abstract

47 Citations

18 Claims

Specification

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Supercharger with reduced noise

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

47 Citations

18 Claims

Specification

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Solutions

Use Cases

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