High speed electrically actuated gaseous fuel admission valve

US 5,398,724 A
Filed: 06/28/1993
Issued: 03/21/1995
Est. Priority Date: 06/28/1993
Status: Expired due to Term

First Claim

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1. A high speed electrically energized flow control valve assembly comprising, in combination:

a valve body with an inlet port and an outlet port, the flow control valve assembly being constructed to control flow from a higher pressure region connected to the inlet port to a lower pressure region connected to the outlet port;

a pair of opposed disks mounted in the valve body including a first disk and a second disk, the first disk defining a nested porting arrangement including interconnected lands defining multiple concentric ports with multiple peripheries, the second disk having lands disposed opposite the concentric ports of the first disk, one of the opposed disks being translatable between a closed position in which the lands of the second disk close the concentric ports of the first disk and an open position in which the disks are separated a predetermined distance to open the concentric ports at the peripheries thereof, the concentric ports of the first disk and the lands of the second disk exposing areas to the high and low pressure regions so as to provide a pressure seal; and

,a low mass armature attached to one of the opposed disks and associated with a core for generating magnetic fields, the armature and the core defining an air gap therebetween sufficiently small to produce a magnetic field adequate to overcome the pressure seal but sufficiently large to allow separation of the opposed disks by the predetermined distance, thereby to open the valve assembly.

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Abstract

An electronic fuel admission system for use in an industrial engine or the like, having high speed electrically operated flow control valve assemblies for controlling fuel flow to the engine'"'"'s cylinders via an air intake system is disclosed. The valve assembly comprises two opposed face-to-face disks; one disk being fixed, the other being translatable with respect to the fixed disk. Both disks include ports distributed around their surfaces such that flow is prevented when the disks abut yet a slight separation results in a relatively high flow rate. The translatable disk is connected to an armature which is associated with a high permeability magnetic core having a coil for generating magnetic flux within the core. The system includes a two phase driver for energizing the coil which first provides a high current of short duration to rapidly generate flux in the core and rapidly attract the armature thereby separating the translatable disk from the fixed disk and opening the valve. The two phase driver then provides the coil with a lower current to lower the flux in the core to a level that will enable rapid closing of the valve, but which remains sufficient to hold the disks apart in the open position. Finally, the disk is rapidly closed by collapsing the flux field in the core such that the translatable disk compresses against the fixed disk.

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21 Claims

1. A high speed electrically energized flow control valve assembly comprising, in combination:
- a valve body with an inlet port and an outlet port, the flow control valve assembly being constructed to control flow from a higher pressure region connected to the inlet port to a lower pressure region connected to the outlet port;
  
  a pair of opposed disks mounted in the valve body including a first disk and a second disk, the first disk defining a nested porting arrangement including interconnected lands defining multiple concentric ports with multiple peripheries, the second disk having lands disposed opposite the concentric ports of the first disk, one of the opposed disks being translatable between a closed position in which the lands of the second disk close the concentric ports of the first disk and an open position in which the disks are separated a predetermined distance to open the concentric ports at the peripheries thereof, the concentric ports of the first disk and the lands of the second disk exposing areas to the high and low pressure regions so as to provide a pressure seal; and
  
  ,a low mass armature attached to one of the opposed disks and associated with a core for generating magnetic fields, the armature and the core defining an air gap therebetween sufficiently small to produce a magnetic field adequate to overcome the pressure seal but sufficiently large to allow separation of the opposed disks by the predetermined distance, thereby to open the valve assembly.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 21)
- - 2. A high speed electrically energized flow control valve assembly as defined in claim 1, wherein the interconnected lands of the first disk are connected by a first webbed structure having ports which communicate with at least one of the multiple concentric ports defined by the interconnected lands.
  - 3. A high speed electrically energized flow control valve assembly as defined in claim 1, wherein the lands of the second disk define multiple concentric ports having multiple peripheries in the second disk and the lands are connected by a second webbed structure, the second disk thereby defining a nested porting arrangement.
  - 4. A high speed electrically energized flow control valve assembly as defined in claim 3 wherein the second webbed structure includes ports which communicate with at least one of the multiple concentric ports defined by the lands in the second disk.
  - 5. A high speed electrically energized flow control valve assembly as defined in claim 1 further comprising biasing means for biasing the second disk into juxtaposition with the first disk.
  - 6. A high speed electrically energized flow control valve assembly as defined in claim 1, wherein the armature and the disks are constructed so as to require less than about one millimeter translation between the open and closed position.
  - 7. A high speed electrically energized flow control valve assembly as defined in claim 1 wherein the multiple concentric ports of the valve assembly define an area sufficient to achieve a flow rate of at least 100 gram/sec for a disk translation of about 0.4 mm.
  - 21. A high speed electrically energized flow control valve assembly as defined in claim 3 wherein the second disk further includes a perimeter bored with a plurality of radially extending cylindrical ports communicating with at least one of the multiple concentric ports of the second disk.

8. A high speed electrically actuated flow control valve assembly comprising, in combination:
- a face-type valve assembly having two opposed face-to-face disks biased into juxtaposition by a pressure imbalance, at least one of the disks having a nested porting arrangement which prevents flow when the disks are juxtaposed yet permits high flow resulting from the pressure imbalance when the disks are separated a small predetermined distance;
  
  an armature connected to at least one of the disks for separating the disks when subjected to a magnetic field;
  
  a high permeability magnetic core associated with the armature and having a coil for energizing the core for generating the magnetic field which attracts the armature;
  
  the armature and the core defining an air gap therebetween sufficiently small to produce a magnetic field adequate to overcome the pressure imbalance but sufficiently large to allow separation of the disks by the small predetermined distance; and
  
  ,a two phase driver for the coil having a pull-in phase and a hold-in phase, the pull-in phase delivering a high current which is controllably ramped at a predetermined rate to a first given level for controllably powering the coil to rapidly separate the disks consistently from cycle to cycle, and the hold-in phase delivering reduced current to the coil at a second given level adequate to hold the disks apart but to promote rapid release and collapse of energy in the coil when the face type valve assembly is to be closed.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 9. A high speed electrically actuated flow control valve assembly as defined in claim 8 wherein the two phase driver further comprises a circuit for controllably powering the coil consistently from cycle to cycle including:
    - a switch for selectively connecting a power supply to the coil;
      
      a modulator for opening and closing the switch to control the current in the coil; and
      
      ,an amplifier for comparing the current in the coil with a current reference pulse and for producing an output signal driving the modulator to operate the switch such that the current in the coil and the current pulse signal are matched.
  - 10. A high speed electrically actuated flow control valve assembly as defined in claim 8 wherein the two phase driver includes selectively activated turn-off circuitry for returning the current in the coil to the power supply to rapidly close the face type valve assembly.
  - 11. A high speed electrically actuated flow control valve assembly as defined in claim 10, wherein the selectively activated turn-off circuitry includes a speed-up diode and a switch for returning current to a power supply to achieve rapid closing of the face type valve assembly.
  - 12. A high speed electrically actuated flow control valve assembly as defined in claim 8 wherein the two phase driver includes a maximum time out circuit for rapidly closing the face type valve assembly when a maximum dwell time has been achieved.
  - 13. A high speed electrically actuated flow control valve assembly as defined in claim 8, wherein the armature and the disks are constructed so as to require less than one millimeter translation between the open and closed position.
  - 14. A high speed electrically actuated flow control valve assembly as defined in claim 8, wherein the porting arrangement of the disks have sufficient area to achieve a fuel flow rate of at least 100 gram/sec for a disk translation of about 0.4 mm.
  - 15. A high speed electrically actuated flow control valve assembly as defined in claim 8, wherein the two phase driver further comprises an input circuit including a timer and an R-C circuit for receiving an input pulse and providing a current reference pulse, the current reference pulse having a high energy pull-in current which is controllably ramped over time for consistently separating the face-to-face disks, and a lower energy hold-in current for maintaining the separation of the disks to insure consistent operation of the face type valve assembly from cycle to cycle.
  - 16. A high speed electrically actuated flow control valve assembly as defined in claim 8, wherein the nested porting arrangement of each disk comprises concentric lands connected by a webbed structure, the concentric lands defining ports with multiple peripheries exposed for flow when the face type valve assembly is opened.
  - 17. A high speed electrically actuated flow control valve assembly as defined in claim 16, wherein the ports defined by the concentric lands of a first one of the face-to-face disks are disposed opposite to the concentric lands of a second one of the disks, and the ports defined by the concentric lands of the second one of the disks are disposed opposite to the concentric lands of the first one of the disks, the opposed lands and ports forming multiple concentrically disposed face type poppet valves.
  - 18. A high speed electrically actuated flow control valve assembly as defined in claim 17, wherein the opposed lands and ports comprise at least five concentrically disposed face type poppet valves in a face type valve assembly having an outer diameter of no more than about 50 mm.
  - 19. A high speed electrically actuated flow control valve assembly as defined in claim 17 wherein the concentric lands of each disk are displaced with respect to the concentric lands of the other such that the lands of each disk partially overlap with the lands of the opposed disk when the disks are juxtaposed creating pressure sealed face type poppet valves.
  - 20. A high speed electrically actuated flow control valve assembly as defined in claim 8 further comprising biasing means for biasing the face-to-face disks into juxtaposition.

Specification

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Current Assignee
Woodward Governor Company
Original Assignee
Woodward Governor Company
Inventors
Vars, Curtis C., Beckman, Dale A.
Primary Examiner(s)
Rosenthal, Arnold

Application Number

US08/083,613
Time in Patent Office

631 Days
Field of Search

251/129.01, 251/129.16, 251/333, 251/625.33, 123/490
US Class Current

137/625.33
CPC Class Codes

F02D 19/024   by controlling fuel injectors

F02D 2041/2003   using means for creating a ...

F02D 2041/2017   using means for creating a ...

F02D 2041/2031   Control of the current by m...

F02D 2041/2048   said control involving a li...

F02D 2041/2058   using information of the ac...

F02D 41/20   Output circuits, e.g. for c...

F02M 21/0254   Electric actuators, e.g. so...

F02M 21/0266   Hollow stem valves; Piston ...

F02M 21/0272   Ball valves; Plate valves; ...

Y02T 10/30   Use of alternative fuels, e...

Y10T 137/86759   Reciprocating

High speed electrically actuated gaseous fuel admission valve

First Claim

1 Assignment

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Abstract

45 Citations

21 Claims

Specification

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High speed electrically actuated gaseous fuel admission valve

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

45 Citations

21 Claims

Specification

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Solutions

Use Cases

Quick Links