Coupling for the transmission of alternating torques

DC CAFC

US 5,649,506 A
Filed: 11/19/1992
Issued: 07/22/1997
Est. Priority Date: 01/13/1989
Status: Expired due to Term

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1. In an internal combustion engine having a rotatable crankshaft and a rotatable camshaft, the camshaft being position variable relative to the crankshaft, being subject to torque reversals during the rotation thereof, having a vane with at least one lobe secured to the camshaft for rotation therewith, and having a housing mounted on the camshaft for rotation with the camshaft and for oscillation with respect to the camshaft, the housing having at least one recess defining a fluid receiving chamber and receiving therein the at least one lobe of the vane and permitting oscillation of the at least one lobe within the at least one recess as the housing oscillates with respect to the camshaft, the engine further having means for transmitting rotational movement from the crankshaft to the housing and flow control means for varying the position of the housing relative to the camshaft by controlling fluid flow to and from the housing recess to thereby permit the vane lobe oscillation in the housing recess chamber, the method comprising:

actuating the flow control means to be operable for varying the position of the housing relative to the camshaft in reaction to torque reversals in the camshaft.

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Abstract

One of the driving and driven parts of the coupling is connected to a cylinder (10) and the other to a piston (11) which delimit therebetween two antagonistic chambers (13, 14). The chambers have a substantially constant volume, are filled with a practically incompressible hydraulic liquid, and are interconnected through two unidirectional circuits (18, 19) which have opposite directions and each a substantially constant volume. A distributing device (22) is so arranged as to either bring into action one or the other of the unidirectional circuits, or to neutralize both of them.

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19 Claims

1. In an internal combustion engine having a rotatable crankshaft and a rotatable camshaft, the camshaft being position variable relative to the crankshaft, being subject to torque reversals during the rotation thereof, having a vane with at least one lobe secured to the camshaft for rotation therewith, and having a housing mounted on the camshaft for rotation with the camshaft and for oscillation with respect to the camshaft, the housing having at least one recess defining a fluid receiving chamber and receiving therein the at least one lobe of the vane and permitting oscillation of the at least one lobe within the at least one recess as the housing oscillates with respect to the camshaft, the engine further having means for transmitting rotational movement from the crankshaft to the housing and flow control means for varying the position of the housing relative to the camshaft by controlling fluid flow to and from the housing recess to thereby permit the vane lobe oscillation in the housing recess chamber, the method comprising:
- actuating the flow control means to be operable for varying the position of the housing relative to the camshaft in reaction to torque reversals in the camshaft.

2. In an internal combustion engine having a rotatable crankshaft and a rotatable camshaft, the camshaft being position variable relative to the crankshaft and being subject to torque reversals during the operation thereof, the method comprising:
- providing the camshaft with a vane having at least one lobe, the vane being rotatable with the camshaft and being non-oscillatable with respect to the camshaft;
  
  providing the camshaft with a housing having at least one recess, the housing being rotatable with the camshaft and being oscillatable with respect to the camshaft, the at least one recess of the housing defining a fluid receiving chamber and receiving therein the at least one lobe of the vane and permitting oscillation of the at least one lobe within the at least one recess as the housing oscillates with respect to the camshaft;
  
  providing means for transmitting rotary movement from the crankshaft to the housing;
  
  providing flow control means for varying the position of the housing relative to the camshaft by controlling fluid flow to and from the housing recess to thereby permit vane oscillation in the housing recess chamber; and
  
  actuating the flow control means to be operable for varying the position of the housing relative to the camshaft in reaction to torque reversals in the at least one camshaft.
- View Dependent Claims (3, 4, 5, 6)
- - 3. The method according to claim 2 wherein the flow control means (18-25) for varying the position of the housing relative to the camshaft comprises means (18-25) for permitting the position of the housing to move in a first direction relative to the camshaft in reaction to a torque pulse in the camshaft in a first direction, means (18-25) for preventing the position of the housing from moving relative to the camshaft in a second direction in reaction to a torque pulse in the camshaft in a second direction, and means (18-25) for selectively reversing the first and second directions of the movement of the housing relative to the camshaft with respect to the first and second directions of torque pulses in the camshaft.
  - 4. The method according to claim 3 wherein the at least one recess (13-14) is capable of sustaining hydraulic pressure (p.6, lines 19-21;
    - p.7, lines 21-25;
      
      p.12, line 21;
      
      p.13, lines 18-25;
      
      p.22, lines 4-6), wherein the at least one lobe (17, 17a, 17b) divides the at least one recess into a first portion (13) and a second portion (14), and wherein the varying of the position of the housing relative to the camshaft comprises;
      
      transferring hydraulic fluid into one of the first portion and the second portion of the recess (p.8, lines 1-27;
      
      p.9, lines 1-27;
      
      p.10, lines 1-2).
  - 5. The method according to claim 4 wherein the varying of the position of the housing relative to the camshaft further comprises:
    - simultaneously transferring hydraulic fluid out of the other of the first portion and the second portion of the recess (p.8, lines 1-27;
      
      p.9, lines 1-27;
      
      p.10, lines 1-2).
  - 6. The method according to claim 3 wherein the hydraulic fluid is engine lubricating oil from a main oil gallery of the engine (38, p.13, lines 9-29;
    - p.14, lines 1-19).

7. An internal combustion engine comprising:
- a crankshaft, said crankshaft being rotatable about an axis,a camshaft, said camshaft being rotatable about a second axis, said camshaft being subject to torque reversals during the rotation thereof;
  
  a vane having at least one lobe, said vane being attached to said camshaft, being rotatable with said camshaft and being non-oscillatable with respect to said camshaft;
  
  a housing, said housing being rotatable with said camshaft and being oscillatable with respect to said camshaft, said housing having at least one recess, said at least one recess defining a fluid receiving chamber and receiving therein said at least one lobe, said at least one lobe being oscillatable within said at least one recess;
  
  rotary movement transmitting means for transmitting rotary movement from the crankshaft to the housing; and
  
  flow control means for varying the position of the housing relative to the camshaft by controlling fluid flow to and from the housing recess to thereby permit the vane lobe oscillation in the housing recess chamber and operable to be reactive to torque reversals in the camshaft for varying the position of the housing relative to the camshaft.
- View Dependent Claims (8, 9, 10, 11)
- - 8. An engine according to claim 7 wherein said flow control means reactive to torque reversals comprises control means (18-25) for permitting the housing to move in a first direction relative to the camshaft in reaction to a torque pulse in the camshaft in a first direction and for preventing the housing from moving in a second direction relative to the camshaft in reaction to a torque pulse in the camshaft in a second direction.
  - 9. An engine according to claim 8 wherein said at least one lobe (17, 17a, 17b) divides said at least one recess into a first portion (13) and a second portion (14), and wherein said control means (18-25) comprises means (18-25) for transferring a hydraulic fluid into one of said first portion and said second portion, said one of said first portion and said second portion of said at least one recess being capable of sustaining hydraulic pressure (p.6, lines 11-21;
    - p.7, lines 21-25;
      
      p.12, line 21;
      
      p.13, lines 18-25;
      
      p.22, lines 4-6).
  - 10. An engine according to claim 9 wherein said control means further comprises means (19, 25) for simultaneously transferring hydraulic fluid out of the other of said first portion and said second portion (p.8, lines 1-27;
    - p.9, lines 1-27;
      
      p.10;
      
      lines 2-22).
  - 11. An engine according to claim 10 wherein each of said first portion and said second portion of said at least one recess is capable of sustaining hydraulic pressure (p.6, lines 10-21;
    - p.7, lines 21-25;
      
      p.12, line 21;
      
      p.13, lines 18-25;
      
      p.22, lines 4-6), and wherein said control means is capable of being reversed (p.3, lines 5-14;
      
      p.7, lines 1-12;
      
      p.9, lines 7-12) to transfer hydraulic fluid out of said one of said first portion and said second portion and to transfer hydraulic fluid into said other of said first portion and said second portion, said engine further comprising;
      
      an engine control unit (P₂, 36, 43, 44;
      
      p.15, lines 19-27;
      
      p.16, lines 1-27;
      
      p.17, lines 1-24) responsive to at least one engine operating condition for selectively reversing the operation of said control means.

12. An internal combustion engine comprising:
- a crankshaft, said crankshaft being rotatable about an axis;
  
  a camshaft, said camshaft being rotatable about a second axis, said camshaft being subject to torque reversals during the rotation thereof,a vane having first and second circumferentially spaced apart lobes, said vane being attached to said camshaft, being rotatable with said camshaft and being non-oscillatable with respect to said camshaft;
  
  a housing, said housing being rotatable with said camshaft and being oscillatable with respect to said camshaft, said housing having first and second circumferentially spaced apart recesses, each of said first and second recesses defining a fluid receiving chamber and receiving an associated one of said first and second lobes, and permitting oscillating movement of said associated one of said first and second lobes therein;
  
  rotary movement transmitting means for transmitting rotary movement from the crankshaft to the housing; and
  
  flow control means for varying the position of the housing relative to the camshaft by controlling fluid flow to and from the housing recess to thereby permit the vane lobe oscillation in the housing recess chamber and operable to be reactive to torque reversals in the camshaft for varying the position of the housing relative to the camshaft.
- View Dependent Claims (13, 14, 15, 16, 17)
- - 13. An engine according to claim 12 wherein said means reactive to torque reversals comprises control means (18-25) for permitting the housing to move in a first direction relative to the camshaft in reaction to a torque pulse in the camshaft in a first direction and for preventing the housing from moving in a second direction relative to the camshaft in reaction to a torque pulse in the camshaft in a second direction.
  - 14. An engine according to claim 13 wherein each of said first (17a) and second (17b) lobes respectively divides each of said first and second recesses (13a, 14b;
    - 14a, 13b) into a first portion (13a, 13b) and a second portion (14a, 14b), and wherein said control means comprises means (18, 25, 47,
      
      48) for transferring hydraulic fluid into one of said first portion and said second portion of each of said first and second recesses, each of said one of said first portion and said second portion of said each of said first and second recesses being capable of sustaining hydraulic pressure (p.6, lines 11-21;
      
      p.7, lines 21-25;
      
      p.12, line 21;
      
      p.13, lines 18-25;
      
      p.22, lines 4-6).
  - 15. An engine according to claim 14 wherein said control means comprises means (19, 25, 47, 48) for simultaneously transferring hydraulic fluid out of the other of said first portion and second portion of said each of said first and second recesses.
  - 16. An engine according to claim 15 wherein each of said first portion and said second portion of each of said first and second recesses is capable of sustaining hydraulic pressure (p.6, lines 11-21;
    - p.7, lines 21-25;
      
      p.12, line 21;
      
      p.13, lines 18-25;
      
      p.22, lines 4-6), and wherein said control means is capable of being reversed (p.3, lines 5-14;
      
      p.7, lines 1-12;
      
      p.9, lines 7-12) to transfer hydraulic fluid out of said one of said first portion and said second portion of said each of said first and second recesses and to transfer hydraulic fluid into said other of said first portion and said second portion of said each of said first and second recesses, said engine further comprising;
      
      an engine control unit (P₂, 36, 43, 44;
      
      p.15, lines 19-27;
      
      p.16, lines 1-27;
      
      p.17, lines 1-24) responsive to at least one engine operating condition for selectively reversing the operation of said control means.
  - 17. An engine according to claim 16 and further comprising:
    - passage means (47,
      
      48) connecting one of said first portion and said second portion of one of said first recess and said second recess with one of said first portion and said second portion of the other of said second recess to permit hydraulic fluid to flow between said one of said first portion and said second portion of said one of said first recess and said second recess and said one of said first portion and said second portion of slid other of said first recess and said second recess.

18. An internal combustion engine comprising:
- a first torque transmitting shaft serving as an engine crankshaft, said crankshaft being rotatable about an axis;
  
  a second torque transmitting shaft serving as an engine valve-actuating camshaft, said camshaft being rotatable about a second axis, said camshaft being subject to torque reversals during the rotation thereof;
  
  a vane, said vane having at least one lobe, said vane being attached to one of said shafts, being rotatable with said one shaft and being non-oscillatable with respect to said one shaft;
  
  a housing, said housing being rotatable with said one shaft and being oscillatable with respect to said one shaft, said housing having at least one recess, said at least one recess defining a fluid receiving chamber and receiving therein said at least one lobe, said at least one lobe being oscillatable within said at least one recess;
  
  rotary movement transmitting means for transmitting rotary movement between the other one of said shafts and the housing; and
  
  flow control means for varying the position of the housing relative to the camshaft by controlling fluid flow to and from the housing recess to thereby permit the vane lobe oscillation in the housing recess chamber and operable to be reactive to torque reversals in the camshaft for varying the position of the housing relative to the one shaft by permitting the housing to move in a first direction relative to the one shaft in reaction to a torque pulse in the camshaft in a first direction and for preventing the housing from moving in a second direction relative to the one shaft in reaction to a torque pulse in the camshaft in a second direction.

19. A variable phase rotary coupling for transmission of an alternating torque between a driving part which is connected to a driving shaft and a driven part which is connected to a normally driven shaft where the parts in operation are subjected to alternating resistant and driving torques relative to a rotational axis of said coupling comprising:
- a plurality of cylinders to which one of the driven and driving parts is connected;
  
  a plurality of pistons to which the other one of the driven and driving parts is connected and which are individually disposed in and relative to said cylinders such that first and second antagonistic chambers are provided in each said cylinder by an associated one of said pistons and such that a relative and single position between each said piston and each said cylinder corresponds to an angular phase difference value between said shafts, said first and second chambers of each said cylinder having a substantially constant total volume and being filled with a hydraulic liquid which is practically incompressible at normal pressures of operation of the coupling;
  
  two phase controlling communication circuits of substantially constant volume which interconnect said antagonistic chambers of each said cylinder and which allow fluid communication between said first and second chambers of each said cylinder only in respective opposite directions;
  
  a distributing means for bringing into fluid communication said chambers of each said cylinder through one or the other of said communication circuits while preventing fluid communication through the other of said communication circuits and for blocking fluid communication between said chambers of each said cylinder, selectively, such that the phase difference between the driving and driven parts is selectively increased, decreased or maintained constant;
  
  wherein said pistons and cylinders are disposed in a circumferentially spaced array about said axis of rotation of said coupling and are oriented to provide a statically and dynamically balanced system about said coupling rotational axis; and
  
  wherein said antagonistic first and second chambers of said cylinders are oriented to alternate relative to one another in a circular direction concentric with said coupling rotational axis and said pistons each comprise a rotary vane oscillatable in the associated one of said cylinders.

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Current Assignee
Jean Melchior
Original Assignee
Jean Melchior
Inventors
Melchior, Jean Frederic
Primary Examiner(s)
Kamen, Noah P.

Application Number

US07/978,890
Time in Patent Office

1,706 Days
Field of Search

123/90.15, 123/90.17, 123/90.31
US Class Current

123/90.17
CPC Class Codes

F01L 1/34409 by torque-responsive means

F16D 3/10 Couplings with means for va...

Coupling for the transmission of alternating torques

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Coupling for the transmission of alternating torques

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19 Claims

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