US1890265A - Liquid treating apparatus - Google Patents

Description

Dec. 6, 1932. c. J. RODMAN ET AL LIQUID TREATING APPARATUS 2 Sheets-Sheet 1 Filed Sept. 28, 1929 S R O T N E V m Dec. 6, 1932. c. J. RODMAN ET AL LIQUID TREATING APPARATUS Filed Sept. 28. 1929 2 Sheets-Sheet 2 Patented Dec. 6 1932 UNITED STATES Pars N'r OFFICE I I LARENoE .1. RODM'AN AND RUSSELL r. DUNMIRE, or ALLIANCE, OHIO, AssIeNoEs 'ro TEE BUCKEYE TWIST DEILL COMPANY, or ALLIANoE, 01:10, A CORPORATION 01';- mg

LIQUID TREATINGAPIARATUS Application filedSeptember 28, 1829. Serial No. 895,811.

Our invention relatesto liquid treating apparatus and more particularly to an electrical control system for oil purifying apparatus.

In our co-pending' application Serial No.

373,503 filed June 25, 1929, we have disclosed a. method and apparatus for treating liquids and more particularly fortreating insulating oils used in electrical apparatus. In the treatment of such liquids, .a heater is disposed in a pipe line for Warming liquid prior to its being fed under pressure into a vacuum tank for removing certain of the impurities by the shock to the liquid in suddenly passing from a condition of pressure to an atomized spray in a rarefied atmosphere. From the vacuum tank the liquid is passed to a selected one of a plurality of filters through which the liquid is forced under pressure.

7 By the present invention we provide a system of electrical control in which a driving motor for the several pumps used in thepurifying apparatus and the heater are controlled in accordance with the operation of the apparatus. The entire starting operation of the device is under the control of a single switch. If the device is started, the heater and the driving motor for one or more of the pumps are controlled by the pressure of the fluid entering the filters. The heater is enerpump motor or motors in accordance with its own temperature. By controlling the aparatus in accordance with the pressure of Enid entering the filter, excessive filter presthrough the filtering media or disrupt them are avoided.

The accompanying drawings illustrate a present preferred embodiment of the invention, in which Figure 1 is a diagrammatical view of circuits and apparatus embodying our invention;and Q a Figure 2 is a detail electrical wiring diagram showingthe control circuits.

Referring to the drawings, liquid to be treated, and particularly insulating oils such as are usedin electrical transformers, circuit breakers and the like, is supplied to a vacuum 50 treating tank 2.by apump 3 through a heater gized and de-energized independently of the sures such as are apt to forceimpurities 4 disposed in a connecting pipe line 5. A. pump 6 is connected through a pipeline 7 to the top of thevacuum tank 2 for'maintaining a deslred rarefied pressure therein.'- Bafiies- 8 and 9 and a deflectingcone 10 are disposed in I thetank 2 for'baflling liquid and diverting it to an outlet 11 in the tank2. The details of the baflies, reflector and the operationthereof are described in our-co-pending application Serial No. 373,503 filed June 25, 1929. The

treating of liquids by suddenly releasing them from pressure into a condition of vacuum produces a shock which has pronounced advantages in the treating of such liquids, and particularly in purifying electrical insulating oil. 1 e

Adischarge pump 12 connected to the outlet 11 forces the treated liquid from thetank 2 through a pipe line 14 to one of a plurality offilters 15 which are in turn connected to a storage tank 16. For preventing impurities from being forced through thefilters 15 by the pressure of thepump 12 and also to prevent the destruction of the filtering medium itself, a pressure switch 17 is disposed in the pi e line 14 between the pump 12and a plura ity ofvalves 18. Thevalves 18 selectively control 3516 admission of fluid to the difi'erent. filters A motor 19 is provided for driving thepumps 3, 6 and 12. The pump 6 is connected to the motor 19 through a reduction gearing 20 or a chain drive.Pumps 3 and 12 are directly connected to the motor 19 by a shaft 21. It is to be understood that independent, motor drives for thepumps 3, 6 and 12 may be used if desired. Athermostat 30 is provided in theheater 4 for controlling the energization thereof.

Referring to Figure 1, the motor 19, the 9heater 4, thethermostat 30 and the pressure switch 17 are shown connected to anelectrical cabinet 31 by electrical conductors. Thecabinet 31 is connected by conductors to a service switch, 32. The details of the electrical cir- 5 'cuits embodied in and controlled by apparatus in thecabinet 31 are shown in Figure 2.

In Figure 2 the motor 19 is illustrated as a three-phase Y connection and theheater 4 is illustrated as a three-phase Y connectedreupon the the pipe line 14.

switch 32 connectssupply conductors 34, 35

- and 36 to terminals oncontactors 37 and 38 for controlling the motor 19 and theheater 4, res ectively.

or controlling the energization of thecontactors 37 and 38,.we provide an initiating circuit which is controlled by the pressure switch 17, so that it is impossible to start either them0tor'19 or theheater 4 when the pressure switch is open, thereby insuring proper filteringof the fluid in its movement through thefilters 15 by keeping the pressure within'a safe, working range. The initiating circuit comprises aconductor 39 extending 34 to a terminal 41 in the pressure switch 17 a moving contact arm 42.01? the pressure switch 17, aterminal 44 engaged by the contact arm'42, and through aconductor 45 toterminal 46 on a" push button switch'47.

From the terminal 41, ajumper connection 48 extends to a terminal 49 which is also inthe pressure switch 17'. A contact arm 50 in the switch 17 completes a circuit between the terminal 49 and another terminal 51.

Thecontact arms 42 and 50 of the pres sure switch 17 are adapted to move simultaneously, thereby disconnecting theter minals 44 and 51 from theconductor 39 occurrence of excessive pressure inA conductor 52 extends from the terminal 51 to a terminal 54 on arelay 55. Afront contact'member 56 on the relay is adapted to connect the terminal 54 with a terminal 57 from whichaconductor 58 extends to a terminal 59 on .the contactor 37. The conductor 58: is also provided with a terminal 60 cooperating with a threerpoint switch 61-. As the push button-switch 47 and the switch 61 are utilizedin starting the motor 19 and as the'pressure switch 17 controls the circuits for supplying electrical energy to theswitches 47 and 61, it follows that the operation of the motor cannot take place 'when the pressureswitch 17 is open circuited, thereby indicating a condition of excessive pressure in the pipe line 14. Norniall the contacts through the pressure switch- 1 are closed to energize theconductor 58, and its terminals 59 and 60 together with thecon gpctor 45 and theterminal 46 of the switch When it is desired to start the motor 19, the switch 61 is placed in position to complete a circuit between the terminal 60 and aterminal 62. When it is desired to start theheater 4 before the motor 19,-the starting circuit through the switch 61 need not be completed until after theheater 4 has become heated. The switch 61 also completes a circuit between theterminal 62 and a terminal from a terminal 40' on'theconductorconductors 34, 35 and36 through front.contacts 78, 79 and 8 0 and conductors the windings of the motor 19. Fuses 84 and 63 for energizing thewindin 64 of the contactor 37. The circuit extends from theterminal 63 through conductor 65, thewinding 64, aconductor 66, a service switch 67 and aconductor 68 to thesupply conductor 35. However, the entire circuit between theconductors 34 and 35 is still open at therelay 55. For energizing therelay 55 to complete the circuit between the terminals 54 and 57, thepush button switch 47 is depressed to complete a circuit extending from theterminal 46 through a contact 69 in the.switch 47, a terminal 70, a conductor 71, a terminal 7 2, winding of therelay 55, a conductor 74, a' terminal and aconductor 76 to a terminal 7 7 on theconductor 35. The completion of this circuit energizes therelay 55 to close its contacts which, in turn, completes the circuit for the contactor 37 through the pressure switch 17 and the switch 61 as heretofore described.

Upon the "closing of the contactor 37, the

are connected 81, 82'and 83, respectively, to

85 are preferably placed in theconductors 81 and 83. Upon the closing of the contactor 37, a circuitis completed-formain taining the'coil 64 energized independently of the switch 61.

' This circuit extends from the terminal 59 on the conductor 58'through I a front-contact 86 on the contactor 37,a terminal 87 and aconductor 88 to the .ter-

minal 62. For manually stopping the motor 19,- the switch 61 is operated to open the cir- 1 cuit between theterminals 62 and 63 which, causes the de-energization of the winding 64 ofthe contactor 37.- j v V v,

Theheater 4 may be energizedsimultaneously with or previous to the energization of the motor 19 inaccordance with the setting of the switch 61. Inpractice the energizzb tion of theheater 4 often takes place previous to the energization of the motor 19: The energization of theheater 4 is. also controlled by thepush button 47 The 'closing of thepushbutton switch 47 tween the terminal-46 and a terminal 89 in theswitch 47 through the contact 69 and a jumper 90. From the terminal 89 the circuit extends through aconductor 91, ater minal 92, a conductor 94, a manuallyoperable switch 95, aconductor 96, acoil 97 of the contactor 38 a conductor 98, aservice switch 99 and aconductor 100 to the supply conductor 35'. The completion of this circompletes a circuit becuit closes thecontactor 97 for connecting i conductors 104, 1 5 and 106, respectively.

nemes sswitch 47 and for putting thecontactor 97 under control of thethermostat 30 ,a circuit is completed which extends from the terminal 46 throu h a conductor 109,thethermostat 30, a con uctor 110, a contact 111 on arelay 112,'and aconductor 113 to the terminal 92. This circuit bridges theswitch 47 between theterminals 46 and 92.

As the circuit contains thethermostat 30,

the operation ofthe contactor is made de-' pendent upon the opening and closing of thethermostat 30. So long as therelay 112 remains energized and theswitch 95 closed, the circuit for the-contactor 97 may be made and broken b a movement of the thermostat in accor ance with the heat of theheater 4. The circuit for theheater 4 may be opened manually by theswitch 95 when desired: By opening theswitch 99, the heater is rendered inoperative although the motor 19 may operate. Conversely, the opening of the switch 67 while theswitch 99 is closed permits the use of the heater without the use of the motor 19.

Therelay 112 is connected between theterminals 72 and 7 5 so that it is energized when therelay 55 is energized. The closing of therelay 112 completes a circuit from a terminal 118 on the conductor 71 through a conductor 119, afront contact 120 on therelay 112, and a conductor 121 to a terminal 122 on the conductor 109. The completion of this circuit bridges thepush button switch 47 between thecontacts 46 and 70 through the contactor 69. Accordingly, upon the release ofpush button switch 47, the motor and heater continue to operate unless stopped by the operation of the pressure switch 17 provided the separate control switches and thethermostat 30 are closed.

While we have shown and described the present preferred embodiment of our invention, it is to be understood that it may be otherwise embodied within the spirit of the invention and the scope of the appended claims.

We claim 1. A fluid treating device comprising a I h ater for the fluid, a filter therefor, means ;50

for supplying fluid to said heater and filter and means responsive to the pressure of the fluid supplied to the filter for stopping operation of said supply means and said heater.

2. A fluid treating device comprising a heater for the fluid, a filter therefor, means for supplying fluid to said heater and filter,

means responsive to the pressure of the fluid supplied to the filter for stopping operation of said supply means and said heater, and

means for controlling said heater independently to maintain a definite temperature therein.

3. A liquid treating device comprising a liquid treating chamber, a heater for liquid, a filter, a connecting conduit between said chamber and filter, a pressure operated switch 1 connected thereto, a pump, an operating motor therefor, and means controlled by said pressure switch for preventing operation of said motor and heater, and independent means for controlling said heater to maintain a definite temperature therein.

v4. A liquid treating devicecomprising a tank, liquid supply therefor, a pump for supplying liquid from said tank under pressure to a filter, a motor for actuating the pump, a heater connected between the tank and its supply means for treating liquid moving to said tank, a pressure operated switch disposed on the discharge side'ofvsaid pump, and means controlled thereby for de-energizing said motor and heater on the occurrence of excessive pressure in said filter and means for controlling the heater in accordance with its temperature. v

5. A liquid treating device comprising a tank, a pump for delivering liquid from the tank to a filter, means for supplying liquid to the tank, a heater in the inlet to the tank, and a switch controlled in accordance with the pressure at the discharge end. of said pump, for controlling. said pump and heater.

6. A liquid treating device comprising a treating tank, a pump associated with said tank for deliverlng liquid from said tank, a heater for liquid traversing said tank, means for energizing said motor and heater, and a normally closed pressure 0 erated switch associated with said pump or rendering said means ineffective upon conditions of excessive pressure on the discharge side of said pump.

7. A liquid treating device including a heater and a motor driven pump, a starting switch therefor, means actuated by the discharge pressure of the pump for rendering said starting switch ineffective, and a thermostat for further controlling said heater.

8. A liquid treating device comprising a heater for liquid, a chamber for subjecting heated liquid to a reduced pressure, a filter, a pump for transferring liquid from said chamber to said filter, a pressure operated switch connected between said chamber and filter responsive to the back pressure of said filter, for controlling the energization of said motor and heater, and means for independently controlling the energization of said heater in accordance with its temperature.

9. A liquid treating device comprising a heater for liquid to be treated, a treating chamber connected thereto, motor actuated means for controlling the pressure in said chamber, a filter, a pump for conveying liquid from said chamber to said filter, motor operated actuating means for the a pump, means responsive to the back pressure on said filter for controlling the energization of the motor means cooperating with said chamber, pump, and heater, and means for independently controlling. said heater in accordance with its temperature, said pressure responsive' means serving when operated to render said independent controlling means inefieetive upon occurrence of excessive back pressures on said filter. 10. In a fluid treating sfystem, a fluid heater on the supply side thereo a pump and a filter on the discharge side, means for operating said heater and pump, means responsive to the pressure in the filter for rendering the pump and heater ineffective, and independent control means for the heater responsive to the temperature-therein. 4

- 11; In afluid treating system, a fluid heater on the suppl side thereof, a pump and a. filter on the disc arge side, operation initiatin means common to the heater and pump,.-an

meansfor rendering the heater alone inefl'ective.

g0 12. In a fluid treating system, a fluid heater on the supply side thereof, a pump and a filter on the discharge side, operation initiating means common to the heater and pump, means for rendering the heater alone inefiective, and means for de-energizing the heater and stopping the pump when the discharge pressure of the latter exceeds a certain value.

13. In a fluid treating system, a fluid heater on the supply side thereof, a pump and a filter :m on the discharge side, means for simultaneously rendering saidheater and pump effective, means for simultaneously rendering them both inefiective, and independent means for controlling said heater; a5 14. In a fluid treating system, afluid heater on the supply side thereof, a'pump and a filter on the discharge side, control means for the heater and pump responsive to the pressure in the filter, and thermostatic control means for 40 'theheater. I

In testimony whereof we have hereunto set i our hands; I

CLARENCE J RODMAN. RUSSELL P. DUNMIRE.

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