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Publication numberUS2538221 A
Publication typeGrant
Publication dateJan 16, 1951
Filing dateSep 1, 1944
Publication numberUS 2538221 A, US 2538221A, US-A-2538221, US2538221 A, US2538221A
InventorsWarren A. Wilber
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Thermostatically controlled valve
US 2538221 A
Abstract  available in
Images(1)
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Claims  available in
Description  (OCR text may contain errors)

Jan. 16, 1951 w. A. WILBER THERMOSTATICALLY CONTROLLED VALVE Filed Sept. 1, 1944 I NVENTOR. J] Mfr-2x74 l l/f/ber if BY ATTORNEY Patented Jan. 16, 1951 UNITED STATES PATENT OFFICE THERMOSTATICALLY CONTROLLED VALVE Warren A. Wilber, Albany, N. Y. Application September 1, 1944, Serial No. 552,322

4 Claims. 1

'My invention relates to a valve for use in hot water heating systems in which the temperature in any radiation space may be automatically controlled independent of the temperature in any other radiation space separated therefrom. It relates to a valve adapted to be associated with each radiator or each group of radiators in a given radiation space and which may be thermostatically controlled to regulate the temperature in said space.

In apartment houses, o-ifices and other buildings where there are a plurality of separate radiation spaces it is very desirable that the temperature in each apartment or ofdcebe controllable independently of the temperature in any of the other offices or apartments and without the necessity of manually opening and closing radiator valves. Hence, the principal object of my invention is to provide a valve for use in a heating system which will have the foregoing desirable characteristics.

I accomplish these objects by means of the heating system and the valve described below and illustrated in the accompanying drawing in which:

Fig. l is a fragmentary diagrammatic elevation view of my hot water heating system;

Fig. 2 is a side elevation view of the control valve;

Fig. 3 is an enlarged vertical section through the control valve with certain portions broken away; and

Fig. 4 is a top plan view of a detail.

Referring to the drawings:

is a hot water heating furnace having uptakes or water outlets 2 and a return water inlet 3. 4 and 5 are radiators in diiferent radiation spaces separated by the partition 6." Pipes 1 and 3 are adapted to conduct water to the radiators 4 and 5, respectively, through the usual manually controlled valves 9 and I0, and water is returned from the radiators to the heater by means of pipes II and I2, respectively, which communicatewiththe return water inlet' 3 in the radiator; Between each of the pipes 1, and 8, respectively, and the uptakes 2 is a special valve I3. the details of which I will now describe.

Each of the valves 3 comprises a casing or body l4 having a water inlet l5 and an outlet l8. Within the body I4 is a closure element having a seat I8 around the inner end of the inlet passage. The valve is disposed in the heating system so that the seat of the closure element I1 is substantially horizontal. In the top center, the closure element is provided with a cylindrical boss or stud l9 which extends through the eye 20 in the latch element 2| (see Fig. 4) the latch element being secured to the closure element by means of the cotter pin 22 which extends through a hole in the stud l9 and lies in recess 23 in the element 2|.

At one end, the element 2| is pivoted to the housing as shown at 24; the hole for the pivot pin 25 being closed on each side of the housing by a pipe plug 26. At the other end, the element 2| is provided with a depending portion 2] having an inclined step 28 thereon which is adapted to cooperate with the other latch element comprising the crank 29. The crank 29 is also pivoted in the housing at 30 and the holes in the housing for the pivot pin are closed by pipe plugs 3|.

The body is provided with an upwardly-extending, exteriorly-threaded nipple 32 to which the electromagnet 33 is secured by the coupling nut 34. No claim of novelty is made to the electromagnet per se which comprises the winding 35 having the terminals 38 and 31 and the armature 38 which is mounted to slide within the tubular core 39. The lower portion of the armature is hollow and is closed at the bottom by means of the plug 40 having a central passage through which the bolt 4| may freely slide. The lower end of the bolt is flattened and pivotally connected at 42 to a link 43 which, in turn, is pivotally connected to the end of arm 44 of the crank 29,as shown at 45.

In the position of the parts as shown in Fig. 3. it will be noted that the lower end of the crank arm overlies and engages the inclined step on the latch 2|, thus holding the closure element I1 on its seat l8. The head 46 of the bolt 4| is spaced somewhat above the plug 40 so that the latter, when the electromagnet is energized and the armature 38 is snapped upwardly, will hit the bottom of bolt head 46 a sharp blow thus positively kicking the crank 29 out of engagement with the latch element 2|. So long as the electromagnet is energized the crank 29 will be maintained out of locking engagement with the latch element and the closure element will be free to rise to open the valve when acted upon by water pressure on the inlet side thereot.

Referring to Fig. 1, 48 and 49 are electrical power lines, 50 is a transformer, 5| is a motor connected to a pump 52 which is adapted to force a circulation of water through the heater and the pipes leading to those radiators whose associated valves l3 are open and to build up pressure against the closure elements of those valves l3 which are closed.

53 is a diagrammatic end view of a cam shaft having a cam 54 thereon which is adapted to force the contacts 55 and 56 together. The cam shaft 53 is understood to be driven by a motor, not shown, so that the contacts 55 and 56 are intermittently pushed together. The cam may be provided with a dwell of any length so that the contacts are held together for any desired interval of time. When these contacts are together the motor 51' is directly connected to the power lines and will operate to create a forced circulation of water in the system.

5'! and 58 are thermostats by means of which electrical contact is made between the points 59 and 60 and BI and 62, respectively. Thus,

when points 59 and 60 of thermostat 51 are in contact an electrical circuit iscompleted through the secondary of the transformer 58 and the particular valve l3 with which the thermostat 51 is associated.

In operation, when there is no demand forheat from radiator 4, for example, there is no circulation of hot water through radiator 4 because the closure element H in valve l3 associated therewith is held upon its seat by the latch. However, when a demand for heat from radiator 4 occurs, contact points 59 and B0 of the thermostat are brought together, thus permitting the closure element in the valve [3 associated therewith to be forced upwardly and open by the pressure of water on the inlet side thereof, so that, thereafter, hot water circulates through-the radiator 4 so long as the pump 5! ispin operation. It will thus be apparent that the temperature in each radiating space may be controlled by its individual thermostat independently of the other radiating spaces.

While I have shown only one radiator in each space it is to be understood that any number of radiators may be fed from the pipe controlled by valve 13. It is also to be understood that while I have shown only one valve connected to each of the uptakes 2, the uptake 2 may serve any number of valves controllingthe flow of water to any number of radiators or group of radiators. I

While I have described my invention in its preferred embodiment it is to be understood that.

the words which I have used are words of description rather than of limitation and that changes within the purview of the appended claims may be made without departing from the true scope and spirit of my invention.

What I claim is:

1. A valve adapted for use in a hot water heating system comprising a casing provided with an inlet, an outlet, and a passage for the flow of water between said inlet and outlet, a valve seat in said passage, a valve element adapted to cooperate with said seat for closing said passage, a mounting for said element adapting it to be moved away from said seat in the direction of the flow of water through said valve by water pressure acting directly on the inlet side trollable means for holding said element on said seat against said water pressure and automatically locking it on said seat when reseated.

2. A valve adapted for use in a hot water heating system comprising a casing provided with an inlet, an outlet, and a passage for the flow of water between said inlet and outlet, a valve seat in said passage, a valve element adapted to cooperate with said seat for closing said passage, a mounting for said element adapting it to'be moved away from saidseat in the direction of the flow of water through said valve by water pressure acting directly on the inlet side of said element and automatically to reseat itself when said pressure ceases, means for automatically inlet, an outlet, and a passage for the flow of,

water between said inlet and outlet, a valve seat in 'said passage, a valve element adapted to cooperate with said seat for closing said passage, a mounting for said element adapting it to be moved away from said seat in the direction of the flow of water through said valve by water, pressure acting directly on the inlet side of said; element and automatically to reseat itself by gravity when said pressure ceases, means for automatically locking said elementon said seat,

when reseated, against water pressure tending to unseat it, and means cooperating with said. a locking means and adapted to be thermostatically controlled for releasing said element.

4. A valve adapted for use in a fluid heating system and comprising the combination with a. casing provided with a fluid inlet, a fluid outlet and a passage for the flow of fluid between said inlet and outlet; of a valve in said passage including a closure element therefor normally in valve-'- closed position but adapted to be moved in the direction of fluid flow through said passage .by, fluid pressure acting directly on the inlet side,

of said element to effect an opening ofsaid valve and automatically to move into normal, valveclosed. position when said pressure ceases; means cooperating with said closure element for auto-,

matically locking it in valve-closed position; and

a solenoid adapted to be controlled by a ther-, mostat and cooperating with said locking means for releasing said closure element.

WARREN A. WLLBER...

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS 2,389,817 Rider ...,NOV. 27,

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1973842 *Mar 5, 1931Sep 18, 1934Charles Broderick FrederickHot water heating system
US1982561 *Feb 19, 1934Nov 27, 1934Williams James BernardAutomatic control for gas burners
US2005852 *Feb 25, 1933Jun 25, 1935Broderick Frederick CHot water heating system
US2342589 *Sep 17, 1942Feb 22, 1944Lewis Leroy MValve for fire preventive systems
US2363117 *Jan 9, 1942Nov 21, 1944Pan American Refining CorpElectrically responsive pressure release means
US2389817 *Mar 10, 1944Nov 27, 1945Automatic Sprinkler CoValve for sprinkler systems
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3254666 *Mar 29, 1962Jun 7, 1966Baker Jr Hugh MTemperature restrained pressure relief device and method for relieving pressure of a fluid confined within a vessel
US4136823 *Feb 17, 1977Jan 30, 1979Kullberg Bengt Gustav Adolf EApparatus for the prevention or limitation of water damage
US4219041 *Apr 14, 1978Aug 26, 1980Mccabe Francis JElectro-thermal fire protection locking clip
US8844554 *Jul 17, 2009Sep 30, 2014Kabushiki Kaisha ToshibaValve mechanism opened in response to extremely high temperature
US20110155265 *Jul 17, 2009Jun 30, 2011Tetsuro KikuchiValve mechanism opened in response to extremely high temperature
USRE30493 *Jun 18, 1979Jan 27, 1981 Apparatus for the prevention or limitation of water damage
DE948659C *Jun 16, 1951Sep 6, 1956Scheer & Cie C FSchnelloeffnungsventil
Classifications
U.S. Classification137/468, 237/8.00R, 137/534, 137/527.8, 137/79, 251/89, 236/75
Cooperative ClassificationF16K1/42