US3247499A - Fluid flow responsive means - Google Patents

Fluid flow responsive means Download PDF

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US3247499A
US3247499A US252486A US25248663A US3247499A US 3247499 A US3247499 A US 3247499A US 252486 A US252486 A US 252486A US 25248663 A US25248663 A US 25248663A US 3247499 A US3247499 A US 3247499A
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armature
magnetic force
fluid flow
predetermined
rate
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US252486A
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Owen W Dumpleton
Lisowski Jerzy
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Babcock International Ltd
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Babcock and Wilcox Ltd
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01PMEASURING LINEAR OR ANGULAR SPEED, ACCELERATION, DECELERATION, OR SHOCK; INDICATING PRESENCE, ABSENCE, OR DIRECTION, OF MOVEMENT
    • G01P13/00Indicating or recording presence, absence, or direction, of movement
    • G01P13/0006Indicating or recording presence, absence, or direction, of movement of fluids or of granulous or powder-like substances
    • G01P13/0013Indicating or recording presence, absence, or direction, of movement of fluids or of granulous or powder-like substances by using a solid body which is shifted by the action of the fluid
    • G01P13/002Indicating or recording presence, absence, or direction, of movement of fluids or of granulous or powder-like substances by using a solid body which is shifted by the action of the fluid with electrical coupling to the indicating devices
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01FMEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
    • G01F1/00Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow
    • G01F1/05Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects
    • G01F1/34Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by measuring pressure or differential pressure
    • G01F1/36Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by measuring pressure or differential pressure the pressure or differential pressure being created by the use of flow constriction
    • G01F1/38Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by measuring pressure or differential pressure the pressure or differential pressure being created by the use of flow constriction the pressure or differential pressure being measured by means of a movable element, e.g. diaphragm, piston, Bourdon tube or flexible capsule
    • G01F1/383Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using mechanical effects by measuring pressure or differential pressure the pressure or differential pressure being created by the use of flow constriction the pressure or differential pressure being measured by means of a movable element, e.g. diaphragm, piston, Bourdon tube or flexible capsule with electrical or electro-mechanical indication
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8158With indicator, register, recorder, alarm or inspection means
    • Y10T137/8225Position or extent of motion indicator
    • Y10T137/8242Electrical

Definitions

  • a differential relay connected across an orifice in the uid iiow path may be used.
  • an orifice suitable for producing the necessary pressure difference at the low value of flow is liable to result in a pressure drop which is intolerably high at the predetermined value.
  • an orifice of small size is liable to become blocked with the result that the diaphragm of the differential relay may be subjected to a differential pressure equal to the working pressure of the fluid. If this dierential pressure is very large it may necessitate the use of a diaphragm so robust as to be insensitive.
  • fluid flow responsive means having an armature or plunger arranged to be subjected to a force due to pressure drop across the armature of fluid flowing within a fiow path and tending to move the armature from a first to a second position, the movement 4of the armature being influenced by current fiow in an associated winding.
  • the arrangement is such that a iiuid liow may be established to exert a force sulcient to move the armature from its first to its second position against an electro-magnetic force derived from a current liowing in the winding and such that the armature will return to its first position when the fluid How is reduced to a lower value.
  • fluid flow responsive means having a tubular flow path, an armature in the form of a plunger movable in the flow path between a first and a second position and so disposed that fluid may flow past it and establish a differential pressure across it that tends to move the armature from its first to its second position.
  • a winding is arranged so that, upon energisation, it exerts an electromagnetic force upon the armature which opposes movement of the armature from its rst position and decreases as the armature moves from its first to its second position.
  • the arrangement is such that a differential pressure may be established across the ends of the armature to move the armature from its first to its second position in opposition to the effect of the electro-magnetic force derived from the current iiowing in the winding and such that the armature will return to its first position upon the Huid liow being reduced lto a lower value.
  • the pressure-responsive means shown in the drawing includes a straight vertical stainless steel tube 1 connected at each end to one of the two opposite limbs of may be too thin to take a screw thread so that the cona T-junction 2 and 3, respectively.
  • the wall of tube 1 nection between the tube 1 and the junction is effected by a mild steel coupling denoted by the registered trademark Ermetof
  • This coupling includes a deformable metal ring 4 of which one end lies in a convergent recess between the tube 1 and the annular inner surface 5 of the Y limb of the junction.
  • An inwardly flanged ring 6 is screwed on to the outer end of the limb of the junction. so that the flange forces the ring 4 into sealing contact with the tube 1.
  • the inner edge of the ring 4 is made sharp to facilitate its biting into the tube 1 and so providing a more certain seal.
  • each junction 2 and 3 is closed by a plug 7 and 8, respectively, while the remaining limb of the junction 2 is provided with an outlet extension 9 and that of the junction 3 is provided with an inlet extension 10. Seals between the plug 7 and the extension 9 and the junction 2, and between the plug 8 and the extension 10 and the junction 3 are effected by couplings similar to those connecting the tube 1 to the junctions.
  • Each of the plugs 7 and 8 carries a stop member, 11 and 12 respectively, extending into the tube 1.
  • the stop member 11 is made of brass and comprises a threaded shaft 13 having a butler 14 at its outer end; the position within the tube 1 of the buffer 14 is determined by the extent to which the shaft 13 is screwed into the plug 7 and a lock nut 15 is provided to secure the position of the shaft 13.
  • the lower stop member is similar to the member 11 except that its shaft is longe1 and its buffer 16 is longer and projects further into the tube 1 and is made of mild steel.
  • a mild steel cylindrical plunger 17 Contained within the tube 1 between the stops 11 and 12 is a mild steel cylindrical plunger 17. Since the opposite limbs of each junction 3 and 2 are aligned, the armature or plunger 17 may be introduced by removing the closure plug from one junction or the other. It fits in the tube 1 with a clearance of approximately a sixteenth of an inch. When the tube 1 is vertical and no liuid is flowing through it, the plunger 17 rests on a brass cap 18 fitted to the upper end of the buffer 16.
  • a winding 19 is sealed in resin Ztl and connected by leads 21 passing through the resin Ztl to a socket 22.
  • the resin 20 is contained within a magnetic casing 23 which includes a pole piece 24 and 25 at each end, the pole pieces overlapping the combined extent of the buffer 16 and the plunger 17
  • the buffer 15 and the plunger 17 are both of magnetic material so that the plunger 17 acts as a movabie armature.
  • the winding 19 is connected to a source of alternating current of constant value which will induce in the plunge-r 17 an electromagnetic force tending to retain it in position.
  • the fluid to which the apparatus is to respond, is caused to flow between the inlet extension 10 and the outlet extension 9. This flow creates a pressure drop, dependent upon the rate at which the fluid enters the tube 1, across the plunger 17 tending to move it upwardly and so to act against the effect of the current in the winding 19.
  • the rate of flow reaches a certain value, dependent upon the current flowing in the coil, the pressure difference will cause the plunger 17 to rise.
  • Movement of the plunger 17 will reduce the electro-magnetic force acting on it so that the effect of the iiuid will be to carry it into contact with the upper buffer 14. It will remain there until the rate of iiow falls sufiiciently for the force exerted by the pressure drop across the plunger 17 to be overcome by gravity and the reduced electro-magnetic force exerted on the plunger 17 by the current in the winding 19.
  • the rate of flow at which the plunger 17 will fall can be altered by adjusting the position of the shaft 13 in the plug 7 and that at which it will rise by adjusting the position of the shaft of the stop 12 in the plug S.
  • Replacement of the plunger 17 by one having a greater or a smaller clearance within the tube 1 wiil also alter the -rate of fiow at which the plunger 17 will rise and fall.
  • the now-responsive means described is especially useful in connection with the ow of oil to an oii burner or of the flow of iiuid heater cleaner to a lance which is intended to be retracted should the iiow of fiuid fall below a safe value. Should the iiow of oil or heater cleaner fall to too low a value, then the means can be used to produce an appropriate indication or a control.
  • One particular embodiment of the flow-responsive means described was adjusted so that the plunger 17 would rise when the oil flow reached the rate of 450 pounds per hour and drop when the ow fell to 15 0 pounds per hour.
  • Various means may be used for detecting which of its extreme positions the plunger 17 occupies.
  • the steel tube 1 may be replaced by a transparent tube.
  • An electrical arrangement may, however, be readily provided.
  • a resistor may be included in series with the winding 19 so that a signal, represented by tlie current, will occur across the resistor which lwill depend upon Lwhich of its extreme positions is occupied by the plunger 17.
  • the signal may be rectified and applied to a trigger circuit adapted to distinguish between the signal derived when the plunger 17 is in its first position and that derived when the plunger is in its second position.
  • the plunger 17 that has been described is of smooth cylindrical form and a clearance is established between it and the tube 1.
  • the plunger 17 may overall be more closely fitting than this but have longitudinal recesses in its outer surface to enable iiuid to iiow past it.
  • Vhat is claimed is:
  • a fluid fiow responsive means comprising a Huid flow path, a magnetic armature movably positioned in said iiow path and arranged for iiuid ow thereover, stop means arranged to limit the movement of said armature within said iiuid iiow path to a first position and a second position and a magnetic force, producing means disposed about said armature and operating to maintain said armature in said rst position until a first predetermined iiow rate is achieved, said armature when in said first position being substantially within the infiuence of said magnetic force, said fluid flow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined iiow rate against said magnetic force .from said lfirst position to said second position where said armature is substantially out of the influence of said magnetic force, said armature being maintained in said second position by said fluid flow until the flow rate falls below a second predetermined iiow rate, said
  • a fluid ow responsive means comprising a tubular fiuid iiow path, a magnetic armature movably positioned in said fiow path and arranged for fluid flow thereover, stop means arranged to limit the movement of said armature within said duid ow path to a first position and a second position, and an electro-magnetic winding for producing a magnetic force disposed around said tubular ilow path and about said armature in said first position, said magnetic force operating to maintain said armature in said first position until a first predetermined tlow rate is achieved, said armature when in said rst position being substantially within the iniiuence of said magnetic force, said uid flow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined flow rate against said magnetic force from said first position to said second position where said armature is substantially out of the influence of said magnetic force, said armature being maintained in said second position by said uid liow until
  • a tiuid ow responsive means comprising a tubular iiuid ow path, a first stop means and a second stop means defining a tirst and a second position in said iiow paths, a magnetic armature movably positioned in said flow path between said irst and said second positions and arranged for iiuid i'low thereover, and an electro-magnetic winding for producing a magnetic force disposed around said tubular tiow path about said armature in said first position, said magnetic force operating to maintain said armature in said iirst position until a first predetermined flow rate is achieved, said armature when in said first position being substantially within the inuence of said magnetic force, said fiuid tiow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined iow rate against said :magnetic force from said first position to said second position where said armature is substantially out
  • a fluid ow responsive means comprising a tubular tluid i'iow path, a first stop means and a second stop means defining a first and a second position in said flow path, a magnetic armature movably positioned in said flow path between said first and said second positions and arranged for fluid flow thereover, an electro-magnetic winding for producing a magnetic force disposed around said tubular tiow path about said armature in said first position, said magnetic force operating to maintain said armature in said first position until a first predetermined tiow rate is achieved, said armature when in said first position being substantially within the iniiuence of said magnetic force, said tiuid ow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined flow rate against said magnetic force from said first position to said second position where said armature is substantially out of the inuence of said magnetic force, said armature being maintained in said second position by said uid ow

Description

O. W. DUMPLETON ETAL FLUID FLOW RESPONSIVE MEANS Filed Jan. 18, 1963 April 19, 1966 United States Patent O 3,247,499 FLUID FLW RESPONSWE MEANS Owen W. Dumpleton and .lerzy Lisowski, London, England, assignors to Babcock 8: Wilcox, Limited, London, England, a corporation of Great Britain Filed lian. 1S, 1963, Ser. No. 252,486 4 Claims. (Cl. 3MB- 239) This invention relates to fluid flow responsive means. In some applications of such means the necessity arises of effecting an indication or/ and a control over the fluid flow when the flow, after starting, rises to a predetermined value and when the liow falls to a relatively low value. For this purpose a differential relay connected across an orifice in the uid iiow path may be used. However, an orifice suitable for producing the necessary pressure difference at the low value of flow is liable to result in a pressure drop which is intolerably high at the predetermined value. In addition, an orifice of small size is liable to become blocked with the result that the diaphragm of the differential relay may be subjected to a differential pressure equal to the working pressure of the fluid. If this dierential pressure is very large it may necessitate the use of a diaphragm so robust as to be insensitive.
According to the present invention there is provided fluid flow responsive means having an armature or plunger arranged to be subjected to a force due to pressure drop across the armature of fluid flowing within a fiow path and tending to move the armature from a first to a second position, the movement 4of the armature being influenced by current fiow in an associated winding. The arrangement is such that a iiuid liow may be established to exert a force sulcient to move the armature from its first to its second position against an electro-magnetic force derived from a current liowing in the winding and such that the armature will return to its first position when the fluid How is reduced to a lower value.
According to the present invention there is also provided fluid flow responsive means having a tubular flow path, an armature in the form of a plunger movable in the flow path between a first and a second position and so disposed that fluid may flow past it and establish a differential pressure across it that tends to move the armature from its first to its second position. A winding is arranged so that, upon energisation, it exerts an electromagnetic force upon the armature which opposes movement of the armature from its rst position and decreases as the armature moves from its first to its second position. The arrangement is such that a differential pressure may be established across the ends of the armature to move the armature from its first to its second position in opposition to the effect of the electro-magnetic force derived from the current iiowing in the winding and such that the armature will return to its first position upon the Huid liow being reduced lto a lower value.
The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of this specification. For a better understanding of the invention, its operating advantages and specific objects attained by its use, reference should be had to the accompanying drawing and descriptive matter in which there is illustrated and described a preferred embodiment of the invention.
By way of example an embodiment of the invention will now be described with reference to the accompanying drawing, partially in section in which the ligure represents pressure-responsive means in axial cross-section.
The pressure-responsive means shown in the drawing includes a straight vertical stainless steel tube 1 connected at each end to one of the two opposite limbs of may be too thin to take a screw thread so that the cona T- junction 2 and 3, respectively. The wall of tube 1 nection between the tube 1 and the junction is effected by a mild steel coupling denoted by the registered trademark Ermetof This coupling includes a deformable metal ring 4 of which one end lies in a convergent recess between the tube 1 and the annular inner surface 5 of the Y limb of the junction. An inwardly flanged ring 6 is screwed on to the outer end of the limb of the junction. so that the flange forces the ring 4 into sealing contact with the tube 1. The inner edge of the ring 4 is made sharp to facilitate its biting into the tube 1 and so providing a more certain seal.
The other of the two opposite limbs of each junction 2 and 3 is closed by a plug 7 and 8, respectively, while the remaining limb of the junction 2 is provided with an outlet extension 9 and that of the junction 3 is provided with an inlet extension 10. Seals between the plug 7 and the extension 9 and the junction 2, and between the plug 8 and the extension 10 and the junction 3 are effected by couplings similar to those connecting the tube 1 to the junctions.
Each of the plugs 7 and 8 carries a stop member, 11 and 12 respectively, extending into the tube 1. The stop member 11 is made of brass and comprises a threaded shaft 13 having a butler 14 at its outer end; the position within the tube 1 of the buffer 14 is determined by the extent to which the shaft 13 is screwed into the plug 7 and a lock nut 15 is provided to secure the position of the shaft 13. The lower stop member is similar to the member 11 except that its shaft is longe1 and its buffer 16 is longer and projects further into the tube 1 and is made of mild steel.
Contained within the tube 1 between the stops 11 and 12 is a mild steel cylindrical plunger 17. Since the opposite limbs of each junction 3 and 2 are aligned, the armature or plunger 17 may be introduced by removing the closure plug from one junction or the other. It fits in the tube 1 with a clearance of approximately a sixteenth of an inch. When the tube 1 is vertical and no liuid is flowing through it, the plunger 17 rests on a brass cap 18 fitted to the upper end of the buffer 16.
Outside the tube 1, extending for most of the combined lengths of the buffer 16 and the plunger 17 is a winding 19. The winding 19 is sealed in resin Ztl and connected by leads 21 passing through the resin Ztl to a socket 22. The resin 20 is contained within a magnetic casing 23 which includes a pole piece 24 and 25 at each end, the pole pieces overlapping the combined extent of the buffer 16 and the plunger 17 The buffer 15 and the plunger 17 are both of magnetic material so that the plunger 17 acts as a movabie armature. Were the plunger 17 to rest directly on the buffer 16, when the apparatus is not in use, there woul be a tendency for dirt to collect on the end of the butler 16 so that a slight but indeterminate gap would exist between the butler 16 and the plunger 17. "l" he variable extent of the gap would cause variations in the performance of the apparatus and for this reason the brass domeshaped cap is introduced to provide a gap of -xed width.
In using the appartus shown inthe drawing, the winding 19 is connected to a source of alternating current of constant value which will induce in the plunge-r 17 an electromagnetic force tending to retain it in position. However, the fluid, to which the apparatus is to respond, is caused to flow between the inlet extension 10 and the outlet extension 9. This flow creates a pressure drop, dependent upon the rate at which the fluid enters the tube 1, across the plunger 17 tending to move it upwardly and so to act against the effect of the current in the winding 19. When the rate of flow reaches a certain value, dependent upon the current flowing in the coil, the pressure difference will cause the plunger 17 to rise. Movement of the plunger 17 will reduce the electro-magnetic force acting on it so that the effect of the iiuid will be to carry it into contact with the upper buffer 14. It will remain there until the rate of iiow falls sufiiciently for the force exerted by the pressure drop across the plunger 17 to be overcome by gravity and the reduced electro-magnetic force exerted on the plunger 17 by the current in the winding 19.
It will be realised that there are only two stable positions of the plunger 17. It will remain at its lower first position until the rate of fiow is sutiicient to raise it slightly when it will move positively to its upper, second position. It will remain there until the ow drops suiiciently to be overcome by the electro-magnetic force when it Will move back positively to its first position.
The rate of flow at which the plunger 17 will fall can be altered by adjusting the position of the shaft 13 in the plug 7 and that at which it will rise by adjusting the position of the shaft of the stop 12 in the plug S. Replacement of the plunger 17 by one having a greater or a smaller clearance within the tube 1 wiil also alter the -rate of fiow at which the plunger 17 will rise and fall.
The now-responsive means described is especially useful in connection with the ow of oil to an oii burner or of the flow of iiuid heater cleaner to a lance which is intended to be retracted should the iiow of fiuid fall below a safe value. Should the iiow of oil or heater cleaner fall to too low a value, then the means can be used to produce an appropriate indication or a control. One particular embodiment of the flow-responsive means described was adjusted so that the plunger 17 would rise when the oil flow reached the rate of 450 pounds per hour and drop when the ow fell to 15 0 pounds per hour.
Various means may be used for detecting which of its extreme positions the plunger 17 occupies. In some cases, the steel tube 1 may be replaced by a transparent tube. An electrical arrangement may, however, be readily provided. For this purpose, a resistor may be included in series with the winding 19 so that a signal, represented by tlie current, will occur across the resistor which lwill depend upon Lwhich of its extreme positions is occupied by the plunger 17. The signal may be rectified and applied to a trigger circuit adapted to distinguish between the signal derived when the plunger 17 is in its first position and that derived when the plunger is in its second position.
The plunger 17 that has been described is of smooth cylindrical form and a clearance is established between it and the tube 1. Alternatively the plunger 17 may overall be more closely fitting than this but have longitudinal recesses in its outer surface to enable iiuid to iiow past it.
While in accordance with the provisions of the statutes there is illustrated and described herein a specific embodiment of the invention, those skilled in the art will understand that changes may be made in the form of the invention covered by the claims, and that certain features of the invention may sometimes be used to advantage without a corresponding use of the other features.
Vhat is claimed is:
1. A fluid fiow responsive means comprising a Huid flow path, a magnetic armature movably positioned in said iiow path and arranged for iiuid ow thereover, stop means arranged to limit the movement of said armature within said iiuid iiow path to a first position and a second position and a magnetic force, producing means disposed about said armature and operating to maintain said armature in said rst position until a first predetermined iiow rate is achieved, said armature when in said first position being substantially within the infiuence of said magnetic force, said fluid flow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined iiow rate against said magnetic force .from said lfirst position to said second position where said armature is substantially out of the influence of said magnetic force, said armature being maintained in said second position by said fluid flow until the flow rate falls below a second predetermined iiow rate, said armature arranged to be returned to said iirst position by said magnetic force when said fluid flow falls below said second predetermined iow rate, said second predetermined tlow rate being less than said rst predetermined ow rate.
2. A fluid ow responsive means comprising a tubular fiuid iiow path, a magnetic armature movably positioned in said fiow path and arranged for fluid flow thereover, stop means arranged to limit the movement of said armature within said duid ow path to a first position and a second position, and an electro-magnetic winding for producing a magnetic force disposed around said tubular ilow path and about said armature in said first position, said magnetic force operating to maintain said armature in said first position until a first predetermined tlow rate is achieved, said armature when in said rst position being substantially within the iniiuence of said magnetic force, said uid flow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined flow rate against said magnetic force from said first position to said second position where said armature is substantially out of the influence of said magnetic force, said armature being maintained in said second position by said uid liow until the iiow rate falls below a second predetermined fiow rate, said armature arranged to be returned to said rst position by said magnetic force when said fluid iiow falls below said second predetermined fi'ow rate, said second predetermined fiow rate being less than said first predetermined fiow rate.
3. A tiuid ow responsive means comprising a tubular iiuid ow path, a first stop means and a second stop means defining a tirst and a second position in said iiow paths, a magnetic armature movably positioned in said flow path between said irst and said second positions and arranged for iiuid i'low thereover, and an electro-magnetic winding for producing a magnetic force disposed around said tubular tiow path about said armature in said first position, said magnetic force operating to maintain said armature in said iirst position until a first predetermined flow rate is achieved, said armature when in said first position being substantially within the inuence of said magnetic force, said fiuid tiow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined iow rate against said :magnetic force from said first position to said second position where said armature is substantially out of the infiucnce of said magnetic force, said armature being maintained in said second position by said fiuid fiow until the flow rate falls below a second predetermined iiow rate, said armature arranged to be returned to said first position by said magnetic force when said fluid flow falls below said second predetermined fiow rate, said second predetermined fiow rate being less than said rst predetermined iow rate, said first and second stops being independently adjustable with respect to said electro-nagnetic winding to independently vary said first and said second predetermined fiow rates.
4. A fluid ow responsive means comprising a tubular tluid i'iow path, a first stop means and a second stop means defining a first and a second position in said flow path, a magnetic armature movably positioned in said flow path between said first and said second positions and arranged for fluid flow thereover, an electro-magnetic winding for producing a magnetic force disposed around said tubular tiow path about said armature in said first position, said magnetic force operating to maintain said armature in said first position until a first predetermined tiow rate is achieved, said armature when in said first position being substantially within the iniiuence of said magnetic force, said tiuid ow producing a pressure drop across said armature, said armature arranged to be moved by said pressure drop at said first predetermined flow rate against said magnetic force from said first position to said second position where said armature is substantially out of the inuence of said magnetic force, said armature being maintained in said second position by said uid ow until the flow rate falls below a second predetermined flow rate, said armature arranged to be returned to said rst position by said magnetic force when said uid flow falls below said second predetermined ow rate, said second predetermined ow rate being less than said rst predetermined ow rate, said rst and second stops being independently adjustable with respect to said electro-magnetic winding to independently vary said rst and said second predetermined flow rates, and means for vindicating the presence of said armature in said rst and second positions.
References Cited by the Examiner UNITED STATES PATENTS NEIL C. READ, Primary Examiner.
D. K. MYER, Assistant Examiner.

Claims (1)

1. A FLUID FLOW RESPONSIVE MEANS COMPRISING A FLUID FLOW PATH, A MAGNETIC ARMATURE MOVABLY POSITIONED IN SAID FLOW PATH AND ARRANGED FOR FLUID FLOW THEREOVER, STOP MEANS ARRANGED TO LIMIT THE MOVEMENT OF SAID ARMATURE WITHIN SAID FLUID FLOW PATH TO A FIRST POSITION AND A SECOND POSITION AND A MAGNETIC FORCE, PRODUCING MEANS DISPOSED ABOUT SAID ARMATURE AND OPERATING TO MAINTAIN SAID ARMATURE IN SAID FIRST POSITION UNTIL A FIRST PREDETERMINED FLOW RATE IS ACHIEVED, SAID ARMATURE WHEN IN SAID FIRST POSITION BEING SUBSTANTIALLY WITHIN THE INFLUENCE OF SAID MAGNETIC FORCE, SAID FLUID FLOW PRODUCING A PRESSURE DROP ACROSS SAID ARMATURE, SAID ARMATURE ARRANGED TO BE MOVED BY SAID PRESSURE DROP AT SAID FIRST PREDETERMINED FLOW RATE AGAINST SAID MAGNETIC FORCE FROM SAID FIRST POSITION TO SAID SECOND POSITION WHERE SAID ARMATURE IS SUBSTANTIALLY OUT OF THE INFLUENCE OF SAID MAGNETIC FORCE, SAID ARMATURE BEING MAINTAINED IN SAID SECOND POSITION BY SAID FLUID FLOW UNTIL THE FLOW RATE FALLS BELOW A SECOND PREDETERMINED FLOW RATE, SAID ARMATURE ARRANGED TO BE RETURNED TO SAID FIRST POSITION BY SAID MAGNETIC FORCE WHEN SAID FLUID FLOW FALLS BELOW SAID SECOND PREDETERMINED FLOW RATE, SAID SECOND PREDETERMINED FLOW RATE BEING LESS THAN SAID FIRST PREDETERMINED FLOW RATE.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3331248A (en) * 1965-08-25 1967-07-18 Monsanto Co Differential pressure sensor
US3446986A (en) * 1966-11-28 1969-05-27 Mobil Oil Corp Flow indicator and control system
US3528288A (en) * 1965-10-05 1970-09-15 Cox Instr Fluid flow transducer system
US3757577A (en) * 1971-08-27 1973-09-11 J Bozek Hydraulic remote fluid flow indicating device
FR2423787A1 (en) * 1978-04-20 1979-11-16 Sercel Rech Const Elect Sequence controller for pneumatic wire wrapping tool - has cylindrical magnet in tube rising with pressure to change state of switch to operate logic circuit
FR2554242A1 (en) * 1983-10-26 1985-05-03 Sato Electronique Sa Flow detector
US5503175A (en) * 1994-12-22 1996-04-02 Ravilious; Paul W. Water safety system

Citations (4)

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Publication number Priority date Publication date Assignee Title
US1490901A (en) * 1919-09-02 1924-04-15 Gen Electric Flow indicator
US2567863A (en) * 1948-09-15 1951-09-11 Schutte & Koerting Co Magnetic coupling device
GB662353A (en) * 1949-02-24 1951-12-05 Dennis Illingworth Lawson Improvements in meters for measuring the rate of flow of fluids
US2993374A (en) * 1958-01-16 1961-07-25 F W Dwyer Mfg Company Air meter

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1490901A (en) * 1919-09-02 1924-04-15 Gen Electric Flow indicator
US2567863A (en) * 1948-09-15 1951-09-11 Schutte & Koerting Co Magnetic coupling device
GB662353A (en) * 1949-02-24 1951-12-05 Dennis Illingworth Lawson Improvements in meters for measuring the rate of flow of fluids
US2993374A (en) * 1958-01-16 1961-07-25 F W Dwyer Mfg Company Air meter

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3331248A (en) * 1965-08-25 1967-07-18 Monsanto Co Differential pressure sensor
US3528288A (en) * 1965-10-05 1970-09-15 Cox Instr Fluid flow transducer system
US3446986A (en) * 1966-11-28 1969-05-27 Mobil Oil Corp Flow indicator and control system
US3757577A (en) * 1971-08-27 1973-09-11 J Bozek Hydraulic remote fluid flow indicating device
FR2423787A1 (en) * 1978-04-20 1979-11-16 Sercel Rech Const Elect Sequence controller for pneumatic wire wrapping tool - has cylindrical magnet in tube rising with pressure to change state of switch to operate logic circuit
FR2554242A1 (en) * 1983-10-26 1985-05-03 Sato Electronique Sa Flow detector
US5503175A (en) * 1994-12-22 1996-04-02 Ravilious; Paul W. Water safety system

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