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Publication numberUS1915523 A
Publication typeGrant
Publication dateJun 27, 1933
Filing dateOct 13, 1931
Priority dateOct 13, 1931
Publication numberUS 1915523 A, US 1915523A, US-A-1915523, US1915523 A, US1915523A
InventorsRalph S Ferguson
Original AssigneeRalph S Ferguson
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Valve mechanism for heat flasks
US 1915523 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

June 1933. R. s. FERGUSON VALVE MECHANISM FOR HEAT FLASKS Filed Oct. 15, 1951 E. 5. FERGUSON v Patented June 27, 1933 RALPH S. FERGUSON, OF BALTIJHORE, MARYLAND VALVE IVIECIIANISIII FOR HEAT FLASKS Application filed October 13, 1931. Serial No. 568,639.

This invention relates to heat flasks for therapeutics and other uses; and more particularly, to a flask containing a chemical normally in liquid state having the property of changing its state with evolution of heat when brought into contact with air; This type of flask is described in my application bearing Serial No. 538,387, the chemical specified being sodium acetate in mixture with a small proportion of water, and which is merely exemplary of other substances which may be used with like effect.

Since the chemical contained inthe flask is to be controlled by contact with air, it is essentially important that the control means be positive and efficient under all circum stances, It is further desirable that this control means he of simple construction. Here tofore manually operated pet cocks have been used which are generally objectionable as it is very difficult to control the amount of air entering the flask and also the exit of the air which is necessary during the reactuation.

The prime object of my invention is to provide a valve of simple construction that is semiautomatic in operation during certain phases of the use of such a flask.

Another object of the invention is to provide a wiping action in the initial operation of the valve wherein the liquid will be removed from the valve stem during the admission of air. It seems that the liquid chemical used in flasks of this sort are in a state of stability so that the formation of a crystal due to contact with the air will upset the stability causing a gradual crystallization of the liquid through out, and resulting in the generation of heat. This process, however, is slow unless some initial impetus is given at the commencement of the operation which is at the time of first admitting air to the flask. 7

I have discovered, as outlined in my application Serial No. 538,387 that this crystallizing operation is expedited by a wiping action which removes the first formed crystal from the valve stem.

Still another object is to provide means in the valve structure for returning the valve to its valve seat after having been removed therefrom manually, and the valve adapted to be removed from the valve seat duringthe reactuating process which is necessary to permit the escape of air which initially caused the crystallization of the liquid chemical. e Other objects of the invention will appear from the specification and claim forming a part of this application.

In the drawing:

F'gure 1 is a side elevation of the flask;

Figure 2 is a vertical section taken through the flask; and a I Figure 3 is a detailed fragmentary vertical section taken through the valve construction. I

Referring to the drawing in which like parts are designated with similar numerals:

Numeral 4 designates a casing preferably formed of a conductive material such as metal, and being constructed in conformity with the disclosure set forth in my application Serial. No. 538,387.

Valve mechanism which is generally designated by the reference character 5 is disposed in an opening 6, said mechanism comprising a valve housing 7 brazed or otherwise hermetically secured to the casing 4, and having a passage 8 extendingtherethrough, the upper inner portion of the passage 8 forming a valve seat 9, the valve seat 9 having inwardly sloping walls 10 and 11. A tapered valve 12. is adapted to seat in the valve seat 9, said valve 12 having at its upper end a knob 13 and at its lower end a valve stem 14.' Surrounding the valve stem 14 is a coil spring 15 adapted to bear against'astop member 16 at the lower end of the valve stem and against the underside 17 of the valve housing 7.

As actually used. the flask will be filled with chemical liquid through the opening 6 and the valve construction placed in position.

The normal position of the valve 12 is closed being held firmly seated against the valve seat 9 by the spring 15 excluding air from the interior of the casingQ When it is desired to heat the flask, the knob 13 is'pulled outwardly, unseating the valve 12, and pernlitting a small quantity of air to flow through the passage 8. Since the valve construction, particularly the valve stem 14, extends into the casing 41, some of the liquid will accumulateon the valve stem 14. As the valve 12 is unseated, the valve stem 14 will be drawn outwardly and produce a wiping movement against the coils of the spring 15, which are closely Wound against the valve stem 14. This operation is performed at the same time that air is admitted into the casing and results in the immediate formation of a crystal at the point of wipingor rubbing. The formation of the initial crystal at once effects the stability of the liquid chemical and it immediately crystallizes throughout, generating heat in the flask. Upon the air having been once admitted, and the crystallization started, at the point of wiping orrubbing which is instantaneous with the admission ofair, the knob 13 will be released so as to seat'the valve 12 and prevent the escape of any volatileproduct of the reaction. In View of the large amount of chemical present, the heat will persist for several hours, and upon the flask cooling, the chemical will be in asolidified state.

j The chemical is restored to its original potential condition by placing the flask in boiling water and boiling it for a while, which liquefies" the chemical and results in the absorption of heat with great rapidity during this process. When the boiling has reached a point "at which a slight pressure, generally not exceeding two pounds,has-been generated in the casing, the valve 12 will open slightly under pressure exerted upon it and the stop member 16, sufliciently to relieve this pressure and will return to a closed condition upon the pressure'being relieved. Thus there is no danger of the flask bursting during this heating process. As the-solidified mass continues to liquefy, the flask will be filled with gaseous vapor Whioh'will tend to drive the air which has previously been admittedupwardly, and will finally force the same out through the valve as previously. described, after which thefvalve 12 will again be seated in closed position. .Upon the solidified'mass being reduced to a liquid, it may then beremoved from, the boiling water and allowed to cool after which it will be ready for-use-again. As long as air is excluded, the chemical will remain in a liquid state and in a stable condition.

Itis obvious'from my description that I have disclosed a valve to be used in connection with aheat flask of thetype described which is simple and positive in operation and that will automatically close the opening after air has been admitted and automatically relieve the internal pressure during the boiling step and automatically close the opening after the pressure during this oper- 81 1011 1188 been, relieved.

What I claim is:

Chemical heater comprising a flask; partially filled with a chemical, normally liquid, but which crystallizes upon contact with air with evolution of heat, a valve closure comprising seat structure in the wall of said flask,

a valve seating externally on said seat struc ture, a valve stem projectin inwardly from said valve and adapted to be contacted by said liquid, and a spring for closing said valve, surrounding said valve stem and held in compression against an abutment on said

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4003489 *Oct 24, 1975Jan 18, 1977Bingaman Harold JValved canning lid
US4503838 *Sep 15, 1982Mar 12, 1985American Hospital Supply CorporationLatent heat storage and supply system and method
US4587950 *Dec 31, 1984May 13, 1986Clairol IncorporatedHeat pack apparatus
US4829980 *Aug 26, 1986May 16, 1989Smith Martin LTrigger device for heat pack
US5295964 *Oct 2, 1991Mar 22, 1994Gauthier Robert THolder and warmer for IV solution containers
US5305733 *Mar 31, 1993Apr 26, 1994Omni Therm, Inc.Trigger to activate supercooled aqueous salt solution for use in a heat pack
US5662096 *Jul 3, 1995Sep 2, 1997Omni Therm, Inc.Trigger to activate supercooled aqueous salt solution for use in a heat pack
US5702375 *Jun 22, 1995Dec 30, 1997Stephen P. AngelilloAbsorbent pad and thermal pack
US5736110 *May 10, 1996Apr 7, 1998Angelillo; Stephen P.Activator for initiating crystallization of a supersaturated solution
US6265631Oct 7, 1997Jul 24, 2001Sherwood Services AgAbsorbent pad and thermal pack
US6878157Nov 20, 2001Apr 12, 2005Matthew WaltersTrigger to activate supercooled aqueous salt solution for use in a heat pack
U.S. Classification126/263.3, 215/260, 220/577, 220/89.1, 215/315, 251/322
International ClassificationA61F7/02, F28D20/02, A61F7/03, A61F7/08
Cooperative ClassificationY02E60/145, A61F7/03, F28D20/028
European ClassificationF28D20/02F, A61F7/03