US2197176A - Fluid pressure regulator - Google Patents

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US2197176A
US2197176A US136991A US13699137A US2197176A US 2197176 A US2197176 A US 2197176A US 136991 A US136991 A US 136991A US 13699137 A US13699137 A US 13699137A US 2197176 A US2197176 A US 2197176A
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relay
motor
pressure
circuit
contacts
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Peter J Dugan
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D16/00Control of fluid pressure
    • G05D16/20Control of fluid pressure characterised by the use of electric means
    • G05D16/2006Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means
    • G05D16/2013Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means using throttling means as controlling means
    • G05D16/202Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means using throttling means as controlling means actuated by an electric motor
    • 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
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7758Pilot or servo controlled
    • Y10T137/7761Electrically actuated valve

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  • My invention relates to fluid pressure regulation and improvements in the methods and ap--' para-tus for carrying out said regulation.
  • An object of my invention is to provide a meth' d of maintaining practically constant the pressure in a fiuid distribution system under varying conditions of consumption and demand on said system.
  • Another object is to provide a method whereby a predetermined pressure may be maintained substantially constant at a given pointin a distribution system. Another object is to provide a pressure-regulating apparatus which is sensitive to minute variation in pressure, permitting the maintenance of an extremely lowpressure without interruption in the supply of fluid to the distribution system. Another object is to provide a method of pressureregulation which may be carried out by a relatively simple form of apparatus.
  • FIG. 1 illustrates-the apparatus used in this invention and its layout 'in general
  • Fig. 2 illustrates schematically the electric circuit for'the operation of the pressure regulating apparatus.
  • valve 48 is a well-known type of reducing valve, its adjustment being effected by These valves 5
  • the lever 46 is pivoted at one end 52 on a supporting bracket 53, and movement of the lever about this pivotal point carries the valve rod 49 up or down, opening or closing the valves 5
  • Thecable 42 is carried over pulleys 54 and 55 to awinding drum 38 to which it is secured and on which a portion of the cable is wound, thus, when additional cable is wound on the drum, it will raise the lever 46 opening the valves ,5! correspondingly andywhen part of the cable is unwound, it will permit the weight 45 to carry. the lever 46 down, closing the valves 5
  • An electric motor 4 drives the winding drum 38 through reducing gears 39 by which the revolutions of the motor are reduced in the ratio of about 1800 to 1. f
  • the electric motor 40 is connected by a double pole knife switch to a source of direct current B-B' on which it operates.
  • B-B' on which it operates.
  • the direction of the motors rotation is re-, versed by reversing the flower" current in the armature winding 23 and for this purposethe flow or current isreversed' in the circuit comprised of the armature winding, the interpolar' field coil and the speed governing rheostat.
  • one 'endof this circuit is connected in series with a switch l9 and. the series field coil to one side of the power supply and is also con- This motor 1 nected in series with a switch to the other side of the power supply.
  • the other end of said circuit is connected'in series with a control button 26, a switch-28', a switch 21 andthe series field coil toone side of the powersupply and is also connected in lseries with a switch 29 to the other side of the power supply.
  • a pressurewresp'onsive device l2 located at a given point in the distribution pipe is'adjusted so that, when the pressure at-the given point falls below a predetermined value, it will close, pressure gauge contacts H connecting a coil Ill of a pilot relay H) to a source of alternating current A-A caus ing the relay to operate andclosecontacts H and I3. .1
  • the closing of the contacts I9 and 29 permits current to flow in the armature circuit and it will flow in a direction to cause the motor to rotate so as to drive the winding drum 38 to take up a portion of the cable 42 and, consequently, permit an increase in the fluid pressure.
  • the opening of contacts 20 and 21 interrupts the opposite flow of current in. the motor armature.
  • the closing of the contacts 34 connects a coil 33 of a relay 33' to the source of direct current BB', causing that relay to operate to open contacts 28 in the motor armature circuit in series with the contacts 21 as previously stated.
  • the opening of contacts 36 disconnects the coil 35 of a relay 357 from the source of direct current BB causing that relay to operate to open contacts I4 which are connected in series with the holding contacts I3.
  • the operation of the last-mentioned relay 35' on opening the contacts I4 is slightly delayed. This delay may be obtained in a number of wellknown ways.
  • the relay used here in particular is a relay having spring tension acting in addition to the relay coil 35 to keep the contacts I4 closed, and a supplementary coil 32 opposing this action.
  • the spring 35" is arranged to provide such spring tension.
  • the supplementary coil 32 is connected in series with a current fixing resistance 30, and another supplementary coil 3
  • the timing out of said relay may be set at a fixed value by adjusting the spring tension on the relay or the current in the supplementary coil 32. This time may be from to 3 seconds as the operation of the apparatus may require.
  • pressure device I2 will permit the pressure gauge contacts II to open, disconnecting the coil ID of the pilot relay I from the source of alternating current AA', causing the pilot relay to operate to open its contacts I1 and- I3.
  • Opening, contacts I! opens the connection of the motor operating relay I B to the source of direct current B-B, causing said relays operation to open the contacts I9, 29 and 34 and to close the contacts 20, 2'! and 36.
  • the opening of contacts I9 and 29 opens the motor armature circuit from the source of direct current BB'. causing the motor 40 to stop and thereby stopping the rotation of the winding drum 38.
  • the contacts 29 and 2'! in the motor armature circuit are closed and the motor 40 is now connected to the source of direct current 3-3 but for the contacts 28 in the armature circuit.
  • the opening of the contacts 34 disconnects a coil 33 of a time delay relay 33' from the source of direct current BB, causing this relay to operate to close the contacts 28 which are still open in the motor armature circuit.
  • the operation of this relay 33' is delayed similarly to that of the time delay relay 35' previously described and it has the other supplementary coil 3I on it.
  • the spring 33" on this relay is similar to spring 35 in effecting the delayed action. The delay is sufficient to permit the motor 48 to come to a full stop before the contacts 28 are closed.
  • the motor now will rotate in a direction to drive the winding drum 38 in a direction to release a portion of the cable 42, permitting the weight 45 to carry the lever 48 down and close the valves 5
  • the closing of contacts 36 connects the coil 35 of the time delay relay 35' to the source of direct current BB', causing the relay to operate, closing contacts M in the holding circuit now open which is not operating at this time as the contacts I3 controlled by the pilot relay I8 have been already opened.
  • a warning of any extreme changes in pressure in the distribution pipe 50 is provided by a bell circuit connected to the source of alternating current A-A'.
  • This circuit has a transformer 5. the primary of which is connected to the source of alternating current A-A' and the secondary of which has a single pole knife switch 6, a bell 8, and contacts I in series with it.
  • the warning circuit When the knife switch 6 is closed, the warning circuit is placed in operation and a warning will be sounded by a bell 8 on the closing of the contacts Iwhich are controlled by a relay 2'.
  • the relay 2' has a coil 2 connected at one end to one side of the source of alternating current A--A and connected at its other end to an indicating hand 3 of a pressure gauge 4.
  • the pressure gauge 4 contact members BI and 62 may be set at desired limits and these contact members are connected to the other side of the source of alternating current so that when the pressure exceeds the set limits.
  • the indicating hand will close on one of the contact mem bers connecting the relay coil 2 to the source of alternating current causing the relay 2' to operate and close the contacts I in the bell cir rect type by m'aking suitable modification in the apparatus.
  • a reversible electric .motor operatively connected to said valve'and in substantially continuous operation to open or close the valve, a pressure responsive device in said distribution pipe, means controlled by said pres-. sure responsive device to operate the motor in one direction to open the valve'upon decrease in pressure in the distribution pipe, and means likewise controlled by said device to substantially immediately reverse said motor to cause it to start to close said valve when the pressure in said distribution pipejhas increased to a predetermined point.
  • a "fluid pressure regulating system the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, said valve comprising a stem, a lever having one end pivoted to a fixed pivot and pivotally connected to saidstem intermediate the ends of the lever, a cable secured to the other end of said lever, a drum upon whichsaid cable is wound, a substantially continuously operating reversible electric motor operatively con nected to said drum through reduction gearing, a pressure responsive device in said distribution pipe, and means controlled by said pressure responsive device to operate said motor in either.
  • a fluid pressure regulating system the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, a reversible electric motor operatively connected to said valve and in sub stantially continuous operation to open or close the valve, a pressure responsive device in said distribution pipe, circuits associated with said motor and adapted to operate it in either direction, a motor reversing relay controlling switches in said circuits and adapted to open and close them to reverse the motor, a pilot relay controlling said motor reversing relay, and a circuit controlling said pilot relay and having a switch therein adapted to be closed by said pressure responsive device upon decrease of pressure in said distribution pipe and to be opened by said deviceupon increase of pressure.
  • a fluid pressure regulating system the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve com necting said pipes, a reversible electric motor operatively connected to said valve and in substantially continuous operation to open or close the valve, a pressure responsive device in said distribution pipe, circuits associated with said motor and adapted to operate it in either direction, a motor reversing relay controlling regulating system, the
  • tribution pipe circuits associated with said motor and adaptedto operate it in either direction, a motor reversing relay controlling switches in said circuits and adapted to open or close them to reverse the motor, a pilot relay controlling said mo-x tor reversing relay, a circuit controlling said pilot relay, and having a switch therein, means operated by said pressure responsive device to close said switchupon decrease in pressure in said distribution pipe and to open it upon increase 01' pressure therein, and a holding circuit adapted to keep said pilot relay energized for a definite'pre determined periodwhen said pressure responsive device has closed the switch energizing said pilot relaycausing it to operate the motor reversing relay comprising a circuit adapted to energize said pilot relay, a time delay relay adapted to interrupt said holding circuit after a predetermined period,a circuit. associated with said time delay relay having a switch therein controlled by said motor reversing relay anda switch in the holding circuit controlled by said pilot relay and adapted tobe closed by the operation of said pilot relay in response to the pressure responsive device.
  • a fluid pressure regulating system the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, a reversible electric motor operatively connected to said valve and in substantially continuous operation to open or close said valve, a pressure responsive device in said distri bution pipe, circuits associated with said motor and adapted to operate it ineither direction, a
  • motor reversing relay controlling switches in said circuits and adapted to open or close them to reverse the motor
  • a pilot relay controlling said motor reversing relay
  • a circuit controlling said pilot relay and having a switch therein means operated by said pressure responsive device to close said switch upon decrease in pressure in said distribution pipe and to open it upon increase of pressure therein
  • a time delay relay controlled by said motor reversing relay and adapted to close a switch in the motor circuit after a predetermined interval when the pilot relay has caused the operation of the motor reversing relay by deenergizing it and a holding circuit adapted to keep said pilot relay energized for a definite predetermined period when said pressure responsive device has closed the switch energizing said pilot relay causing it to operate the motor reversing relay comprisinga circuit adapted to energize said pilot relay, a time delay relay adapted to interrupt said holding circuit after a predetermined period, a circuit associated with said time delay relay having a switch therein controlled by the motor reversing relay and a switch in the

Description

April 1 1940. P. J. DUGAN 2,197,176
FLUID PRESSURE REGULATOR Filed April 15, 1937 2 Sheets-Sheet l l 1 5 i I l INVENTOR. Peierffiu an BY Jamil 7cm ATTORNEYS April 40- P. J. DUGAN 2,197,176
rfwm PRESSURE REGULATOR 7 Filed April 15, 1937 2 Sheets-Sheet 2 i Trfi 2.9 191 a? INVENTOR. Pezer J Dayan ATTRNEYS invention will appear from the following descripopening or closing valves 5!.
Patented Apr. 16, 1940 7 Peter J. Dugan, Cr estwood, N. Y.
Application April 15, 1937, Serial N0. 136,991
8 Claims.
My invention relates to fluid pressure regulation and improvements in the methods and ap--' para-tus for carrying out said regulation.-
An object of my invention is to provide a meth' d of maintaining practically constant the pressure in a fiuid distribution system under varying conditions of consumption and demand on said system.
Another object is to provide a method whereby a predetermined pressure may be maintained substantially constant at a given pointin a distribution system. Another object is to provide a pressure-regulating apparatus which is sensitive to minute variation in pressure, permitting the maintenance of an extremely lowpressure without interruption in the supply of fluid to the distribution system Another object is to provide a method of pressureregulation which may be carried out by a relatively simple form of apparatus.
Other objects, features and advantages of my tion:
' Fig. 1 illustrates-the apparatus used in this invention and its layout 'in general; and
Fig. 2 illustrates schematically the electric circuit for'the operation of the pressure regulating apparatus.
Referring to the drawings in detail, there is a duction in the pressure of the fluid as it flows from the supply pipe 6|! to the distributionpipe and said valve is adjustable so that this reduction in pressure may be varied to maintain the fluid pressure at a given point in the distribution system substantially constant .under varyingconditions of load or demand on the system. The valve 48 is a well-known type of reducing valve, its adjustment being effected by These valves 5| are carried on a valve rod 49 which extends through the topof the valve 48, being secured to and movable by a lever 46. The lever 46 is pivoted at one end 52 on a supporting bracket 53, and movement of the lever about this pivotal point carries the valve rod 49 up or down, opening or closing the valves 5| correspondingly.
To control the movement of the lever 46, there is a counterbalancing weight 45'and a cable 42 secured to the levers free end 44. The weight 45 is a constant force tending tohold the lever 46 as far down aspermitted by the cable 42. The lever 46' is raised against the action of the weight v 45-by means ofthecable 42.
Thecable 42 is carried over pulleys 54 and 55 to awinding drum 38 to which it is secured and on which a portion of the cable is wound, thus, when additional cable is wound on the drum, it will raise the lever 46 opening the valves ,5! correspondingly andywhen part of the cable is unwound, it will permit the weight 45 to carry. the lever 46 down, closing the valves 5| correspond-1.
ingly." An electric motor 4!! drives the winding drum 38 through reducing gears 39 by which the revolutions of the motor are reduced in the ratio of about 1800 to 1. f
The electric motor 40 is connected by a double pole knife switch to a source of direct current B-B' on which it operates. is a well-known type of compound wound reversing motor having an armature circuit comprised of a series field coil 2|, an interpolar field" coil 22, a non-inductive speed governing rheostat 25, and an armature winding 23 connected in series to the source of direct current BBf and a shunt field coil'3'i also connected to thesource.
of direct current B-Bf'. 5
The direction of the motors rotation is re-, versed by reversing the flower" current in the armature winding 23 and for this purposethe flow or current isreversed' in the circuit comprised of the armature winding, the interpolar' field coil and the speed governing rheostat. Forv this purpose, one 'endof this circuit is connected in series with a switch l9 and. the series field coil to one side of the power supply and is also con- This motor 1 nected in series with a switch to the other side of the power supply. The other end of said circuit is connected'in series with a control button 26, a switch-28', a switch 21 andthe series field coil toone side of the powersupply and is also connected in lseries with a switch 29 to the other side of the power supply. When the switches l9 and 29 are closed, the switches 28, 21 and 29 are open andvice versa."
For controlling the operation of these switches and of the electric motor 40, a pressurewresp'onsive device l2 located at a given point in the distribution pipe is'adjusted so that, when the pressure at-the given point falls below a predetermined value, it will close, pressure gauge contacts H connecting a coil Ill of a pilot relay H) to a source of alternating current A-A caus ing the relay to operate andclosecontacts H and I3. .1
As previously described, the closing of the contacts I9 and 29 permits current to flow in the armature circuit and it will flow in a direction to cause the motor to rotate so as to drive the winding drum 38 to take up a portion of the cable 42 and, consequently, permit an increase in the fluid pressure. The opening of contacts 20 and 21 interrupts the opposite flow of current in. the motor armature.
The closing of the contacts 34 connects a coil 33 of a relay 33' to the source of direct current BB', causing that relay to operate to open contacts 28 in the motor armature circuit in series with the contacts 21 as previously stated.
'The opening of contacts 36 disconnects the coil 35 of a relay 357 from the source of direct current BB causing that relay to operate to open contacts I4 which are connected in series with the holding contacts I3. The operation of the last-mentioned relay 35' on opening the contacts I4 is slightly delayed. This delay may be obtained in a number of wellknown ways. The relay used here in particular is a relay having spring tension acting in addition to the relay coil 35 to keep the contacts I4 closed, and a supplementary coil 32 opposing this action. The spring 35" is arranged to provide such spring tension. The supplementary coil 32 is connected in series with a current fixing resistance 30, and another supplementary coil 3| to the source of direct current BB'. When the relay coil 35 is deenergized, its residual magnetic efiect and the spring tension keep the relay from operating at once, but as soon as this residual magnetic efiect drops to a point where the effect of coil 32 will overcome it and thespring tension, the relay will operate to open the contacts I4.
The timing out of said relay may be set at a fixed value by adjusting the spring tension on the relay or the current in the supplementary coil 32. This time may be from to 3 seconds as the operation of the apparatus may require.
After the contacts I4 have been opened and when the fluid pressure in the distribution pipe 50 has increased to the predetermined value, the
pressure device I2 will permit the pressure gauge contacts II to open, disconnecting the coil ID of the pilot relay I from the source of alternating current AA', causing the pilot relay to operate to open its contacts I1 and- I3.
Opening, contacts I! opens the connection of the motor operating relay I B to the source of direct current B-B, causing said relays operation to open the contacts I9, 29 and 34 and to close the contacts 20, 2'! and 36. i The opening of contacts I9 and 29 opens the motor armature circuit from the source of direct current BB'. causing the motor 40 to stop and thereby stopping the rotation of the winding drum 38. However, the contacts 29 and 2'! in the motor armature circuit are closed and the motor 40 is now connected to the source of direct current 3-3 but for the contacts 28 in the armature circuit.
The opening of the contacts 34 disconnects a coil 33 of a time delay relay 33' from the source of direct current BB, causing this relay to operate to close the contacts 28 which are still open in the motor armature circuit. The operation of this relay 33' is delayed similarly to that of the time delay relay 35' previously described and it has the other supplementary coil 3I on it. The spring 33" on this relay is similar to spring 35 in effecting the delayed action. The delay is sufficient to permit the motor 48 to come to a full stop before the contacts 28 are closed.
The motor now will rotate in a direction to drive the winding drum 38 in a direction to release a portion of the cable 42, permitting the weight 45 to carry the lever 48 down and close the valves 5| in accordance with the amount of cable released, thus decreasing the fluid pressure in the distribution pipe 50.
The closing of contacts 36 connects the coil 35 of the time delay relay 35' to the source of direct current BB', causing the relay to operate, closing contacts M in the holding circuit now open which is not operating at this time as the contacts I3 controlled by the pilot relay I8 have been already opened.
' When the fluid pressure in the distribution pipe 58 drops below the predetermined value, the pressure responsive device I2 will again close its contacts I I and the cycle of operations will be repeated.
In conjunction with the winding drum 38, there are limit controlling switches 9, in the pilot relay circuit and 26 in the motor armature circuit which are operated by cams 56 and 51, respective ly, mounted on shaft 58 which carries the winding drum 38. Thus if the winding drum is driven too far in a direction releasing the cable 42, the cam 51 will open the switch 26 in the motor armature circuit and stop the motor, .or if the drum is driven too far in a direction winding cable 42 on it, the cam'56 will open the switch 9 in the pilot relay circuit and thereby cause the reversal of the motors operation.
In series with the coil I 6 of the motor reversing relay I6 and its contacts I I controlled by the pilot relay there is an operating button switch I8 by which the operation of the apparatus may be controlled to secure the proper sequence of operations.
A warning of any extreme changes in pressure in the distribution pipe 50 is provided by a bell circuit connected to the source of alternating current A-A'. This circuit has a transformer 5. the primary of which is connected to the source of alternating current A-A' and the secondary of which has a single pole knife switch 6, a bell 8, and contacts I in series with it.
When the knife switch 6 is closed, the warning circuit is placed in operation and a warning will be sounded by a bell 8 on the closing of the contacts Iwhich are controlled by a relay 2'.
The relay 2' has a coil 2 connected at one end to one side of the source of alternating current A--A and connected at its other end to an indicating hand 3 of a pressure gauge 4. On the face or" the pressure gauge 4 contact members BI and 62 may be set at desired limits and these contact members are connected to the other side of the source of alternating current so that when the pressure exceeds the set limits. the indicating hand will close on one of the contact mem bers connecting the relay coil 2 to the source of alternating current causing the relay 2' to operate and close the contacts I in the bell cir rect type by m'aking suitable modification in the apparatus. While I have illustrated and "described certain embodiments of my invention, it will beapparent that other types of mechanism may be used to obtain the same results, and it .is understood that by so illustrating and describing preferred embodiments, I have not limited thev invention other than as disclosed in the claims in view of the priorart.- -I claim:
1. In a fluid pressure combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve conmeeting said pipes, a reversible electric .motor operatively connected to said valve'and in substantially continuous operation to open or close the valve, a pressure responsive device in said distribution pipe, means controlled by said pres-. sure responsive device to operate the motor in one direction to open the valve'upon decrease in pressure in the distribution pipe, and means likewise controlled by said device to substantially immediately reverse said motor to cause it to start to close said valve when the pressure in said distribution pipejhas increased to a predetermined point.
2. In a "fluid pressure regulating system, the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, said valve comprising a stem, a lever having one end pivoted to a fixed pivot and pivotally connected to saidstem intermediate the ends of the lever, a cable secured to the other end of said lever, a drum upon whichsaid cable is wound, a substantially continuously operating reversible electric motor operatively con nected to said drum through reduction gearing, a pressure responsive device in said distribution pipe, and means controlled by said pressure responsive device to operate said motor in either.
direction as the pressure in said distribution pipe increases and decreases.
3. In a fluid pressure regulating system, the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, a reversible electric motor operatively connected to said valve and in sub stantially continuous operation to open or close the valve, a pressure responsive device in said distribution pipe, circuits associated with said motor and adapted to operate it in either direction, a motor reversing relay controlling switches in said circuits and adapted to open and close them to reverse the motor, a pilot relay controlling said motor reversing relay, and a circuit controlling said pilot relay and having a switch therein adapted to be closed by said pressure responsive device upon decrease of pressure in said distribution pipe and to be opened by said deviceupon increase of pressure.
4. In a fluid pressure regulating system, the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve com necting said pipes, a reversible electric motor operatively connected to said valve and in substantially continuous operation to open or close the valve, a pressure responsive device in said distribution pipe, circuits associated with said motor and adapted to operate it in either direction, a motor reversing relay controlling regulating system, the
switchesin said circuits and adaptedto-open and close them to reverse the motor, a pilot relay controlling said motor reversing relay, a circuit Y controlling said pilot relay. and having aswitch therein adapted :to be closed by said pressure responsive device upon decrease of pressure in said distribution pipe and to be openedbysaid device upon-increase of pressure, a holding circuit to maintain saidpilot relay "in position to energize said motor reversing relay, and means to open said holding circuit after a predeteri'lvined interval. 1 I
5, In afiuid pressure regulating system, the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said'pipes, "a' reversible electric motor op erativ-ely connectedto said valve and in substantially continuous operation to open or close said valve .-a pressure responsive device in said distribution pipe, circuits associated with said motor and adapted to'operate it ineither direction, a motor reversing relay controlling switches in said circuits and adapted to open or close them to reverse the motor, a pilot relay oontrolling said motor reversing relay, a circuit controlling said pilot relay and having a switch therein, means operated by said pressure responsive device to close said switch upon decrease'in pressure in said distribution pipe and to open it upon increase of pressure therein, and a time delay relay controlled by said motor reversing relay and adapted to close a switch in the motor circuit after a predetermined interval when the pilot relay has caused the operation of the motor reversing relay by deenergizing it.
6. In a fluid pressure. regulating system, the
and an adjustable pressure reducing valve connecting said pipes, a reversible electric motor optil combination of a supply pipe, a distribution pipe, I
tribution pipe, circuits associated with said motor and adaptedto operate it in either direction, a motor reversing relay controlling switches in said circuits and adapted to open or close them to reverse the motor, a pilot relay controlling said mo-x tor reversing relay, a circuit controlling said pilot relay, and having a switch therein, means operated by said pressure responsive device to close said switchupon decrease in pressure in said distribution pipe and to open it upon increase 01' pressure therein, and a holding circuit adapted to keep said pilot relay energized for a definite'pre determined periodwhen said pressure responsive device has closed the switch energizing said pilot relaycausing it to operate the motor reversing relay comprising a circuit adapted to energize said pilot relay, a time delay relay adapted to interrupt said holding circuit after a predetermined period,a circuit. associated with said time delay relay having a switch therein controlled by said motor reversing relay anda switch in the holding circuit controlled by said pilot relay and adapted tobe closed by the operation of said pilot relay in response to the pressure responsive device.
7. In a fluid pressure regulating system, the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, a reversible electric motor operatively connected to said valve and in substantially continuous operation to open or close said valve, a pressure responsive device in said distri bution pipe, circuits associated with said motor and adapted to operate it ineither direction, a
motor reversing relay controlling switches in said circuits and adapted to open or close them to reverse the motor, a pilot relay controlling said motor reversing relay, a circuit controlling said pilot relay and having a switch therein, means operated by said pressure responsive device to close said switch upon decrease in pressure in said distribution pipe and to open it upon increase of pressure therein, and a time delay relay controlled by said motor reversing relay and adapted to close a switch in the motor circuit after a predetermined interval when the pilot relay has caused the operation of the motor reversing relay by deenergizing it and a holding circuit adapted to keep said pilot relay energized for a definite predetermined period when said pressure responsive device has closed the switch energizing said pilot relay causing it to operate the motor reversing relay comprisinga circuit adapted to energize said pilot relay, a time delay relay adapted to interrupt said holding circuit after a predetermined period, a circuit associated with said time delay relay having a switch therein controlled by the motor reversing relay and a switch in the holding circuit controlled by said pilot relay and adapted to be closed by the operation of said pilot relay in response to the pressure responsive device.
8. In a fluid pressure regulating system, the combination of a supply pipe, a distribution pipe, and an adjustable pressure reducing valve connecting said pipes, said valve comprising a stem,
' versible electric motor operatively connected to said drum through reduction gearing, a pressure responsive device in said distribution pipe, and means controlled by said pressure responsive device to operate said motor in either direction as the pressure in said distribution pipe increases and decreases, a time delay relay controlled by said motor reversing relay and adapted to close a switch in the motor circuit after a predetermined.
interval when the pilot relay has caused the operation of the motor reversing relay by deenergizing it and a holding circuit adapted to keep said pilot relay energized for a definite predetermined period when said pressure responsive device has closed the switch energizing said pilot relay causing it to operate the motor reversing relay comprising a circuit adapted to energize said pilot relay, a time delay relay adapted to interrupt said holding circuit after a predetermined period, a circuit associated with said time delay relay having a switch therein controlled by said motor anda switch in the reversing relay holding circuit controlled by said pilot relay and adapted to be closed by the operation of said pilot relay caused in response to the pressure responsive device.
PETER J. DUGAN.
US136991A 1937-04-15 1937-04-15 Fluid pressure regulator Expired - Lifetime US2197176A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3429335A (en) * 1965-12-15 1969-02-25 Donaldson Co Inc Fluid flow control apparatus

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3429335A (en) * 1965-12-15 1969-02-25 Donaldson Co Inc Fluid flow control apparatus

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