USRE20566E - Electrical heating unit - Google Patents
Electrical heating unit Download PDFInfo
- Publication number
- USRE20566E USRE20566E US20566DE USRE20566E US RE20566 E USRE20566 E US RE20566E US 20566D E US20566D E US 20566DE US RE20566 E USRE20566 E US RE20566E
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- US
- United States
- Prior art keywords
- heating element
- recess
- heating
- cement
- resistor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
- 238000010438 heat treatment Methods 0.000 title description 99
- 239000004568 cement Substances 0.000 description 22
- XEEYBQQBJWHFJM-UHFFFAOYSA-N iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 14
- 229910052751 metal Inorganic materials 0.000 description 11
- 239000002184 metal Substances 0.000 description 11
- 239000000203 mixture Substances 0.000 description 9
- 239000004020 conductor Substances 0.000 description 7
- 229910052742 iron Inorganic materials 0.000 description 7
- 239000011810 insulating material Substances 0.000 description 5
- 239000000463 material Substances 0.000 description 5
- 239000011819 refractory material Substances 0.000 description 5
- 229910001018 Cast iron Inorganic materials 0.000 description 2
- 230000001413 cellular Effects 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000007747 plating Methods 0.000 description 2
- 206010022114 Injury Diseases 0.000 description 1
- 239000011248 coating agent Substances 0.000 description 1
- 238000000576 coating method Methods 0.000 description 1
- 230000001721 combination Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 238000010411 cooking Methods 0.000 description 1
- 238000009792 diffusion process Methods 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 230000004927 fusion Effects 0.000 description 1
- 229910001385 heavy metal Inorganic materials 0.000 description 1
- 235000000396 iron Nutrition 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000005498 polishing Methods 0.000 description 1
- 229920003245 polyoctenamer Polymers 0.000 description 1
Images
Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F75/00—Hand irons
- D06F75/08—Hand irons internally heated by electricity
- D06F75/24—Arrangements of the heating means within the iron; Arrangements for distributing, conducting or storing the heat
Definitions
- This invention relates to electrical heating units particularly irons, hot plates, cooking utensilsand in fact any type of electrical heating apparatus employing an electrical resistance heating element.
- One of the main objects. of the invention is to provide a heating unit in which it is practical to manufacture the heated member or sole plate and the heating element in different localities and to then assemble the same.
- Another object of the invention is to provide a heating device of the character described in which the heating element and the heated mem-' her are intimately connected thermallyand me- 15 chanically.
- Another object of the invention is to provide a heating unit of the character described having a heated member and an electrical resistance heating element which are intimately connected together by means of a'thin layer of cement having a high coeflicient of thermal conductivity whereby a mechanical and thermal bond is formed between the heated member and the heating element.
- Another object of the invention is to provide 'a heating unit of the character described employing an electrical resistance heating element in the form of a partiallysheathed unit which is provided with a heat insulating or obstructing 30 member which is disposed between the sheath and the resistance element, the heating element having one face open or unsheathed and disposed" in intimate contact with the body to be heated.
- the refractory embedded heating element which is baked at a high temperature.
- the cast base is produced separately preferably in a locality as m near as possible to the point of assembly, the heating elements proper being produced at a central plant specializing therein.
- the heating element itself is protected by a light weight sheet metal sheath which is shaped and designed-t0 15 fit closely in a recess which is provided in the base or sole plate of the electric iron or hot plate to be produced.
- the inside of the recess in the-sole plate is first coated with 20 a thin layer of high refractory heat. conducting cement having a high coeflicient of thermal conductivity.
- Fig. 3 is a vertical sectional view on the line'S-I of Fig. 1;
- Fig. 4 is an exaggerated fragmentarysectional view show ing the layer of cement between the heating element proper and the walls of the recess in the base of the iron; and
- Fig. 5 is a vertical sectional view of a slightly modified form of the invention in which the heat insulating and directing member is omitted.
- the reference character I designates the base of an electrically heated iron which is provided with a recess 2 which extends aboutthe iron.
- the bottom of the recess 2 is preferably flat and the side walls thereof have a slightly downward taper.
- -Fitti ng within the recess 2 is an electrical resistance heating element 3 which is of substantially the same shape as the recess and fits tightly therein.
- the heating element proper consists of a thin sheet siderable resistance to compression and tend to preserve the heat insulating value even though considerable pressure -is applied to the'heating element.
- This layer of heat insulating material isinterpo'sed between the inner surface of the sheet metal sheath and one side of the heat generating element or resistor in such a manner that the heating element or resistor proper is still completely surrounded by an electrical insulat- ⁇ ing heat conducting material, which facilitates the emission of heat from the resistor proper by conduction ⁇ and permitting ready lateral diffusion and equalization of heat between the various convolutions of the resistor element thereby avoiding hot streaks and high temperature local fusion points which would be the case if the resistor were, as is sometimes done, laid into grooves of refractory supporting material having other than the best heat conducting qualities.
- the resistor may be in the form of a ribbon wound in any suitable form but is hown in the drawing as in the form of a small 'elix and lies very near to the face of the element.
- metal sheath 4 which is shaped in section as will be seen from my construction that the open shown most clearly in Figs. 2, 3, and 4, and in or unsheathed portion of the heating element is which is arranged a slab 5 of heat insulating and pressed firmly in place and that there is interdirecting material. Also arranged withinthe posedonly the very slightest layer of cement sheath 4 is a coiled electrical resistor 6 which which forms a thermal and mechanical bond beconsists of a plurality of helically wound coils arranged as shown most clearly in Figs. 1 and 2 and which are embedded in a mass of bonded, granular tightly compacted, refractory material which is baked at a high temperature.
- the sides of the sheath are turned over inwardly and embedded in the mass. of refractory material so as to be flush with the face thereof.
- the resistor is positioned closely adjacent the heating face of the element.
- the layer of granular refractory insulating material between the resistor and the face of the element is approximately .050 of an inch but may vary from 3/64 of an inch to .of an inch, depending upon the character of the heating unit.
- Disposed between the heating element proper and the walls of the recess ⁇ is a thin layer 1 of cement having a high coeificient of I thermal conductivity and which forms a mechanical and thermal bond between the heating element proper and the walls-of the recess.
- This layer of cement is very thin and just sufficient to make a bond without unduly increasing the space hetween-the resistor and-the metalv surfaceto be heated.
- the recess is first coated with a thin layer of cement and of approximately of an inch in thickness and in a plastic or semi-fluid condition. The element is then pressed frictionally into the recess and the excess cement is forced out around the edges of the element so as to leave only a sufficient amount of they cement to fill any irregularities or small air pockets.
- the layer 5 of heat insulating material is refractory heat insulating material of the highest possible compressive strength so that its cellular or other heat obstructing character will not be undulyimpaired in the process of compressing the element.
- Such materials are obtainable in the market in the form of artificial refractory identical with that disclosed in the remaining figures.
- an electrical heating unit the combination of'a sole plate having a recess therein, a heating elementfitting within said recess, said heating element including a resistor embedded in refractory heat conducting material and enclosed within a sheath having an open face, a thin layer of cement having a high coefficient of thermal conductivity disposed between the open face of e heating element and the bottom of the recess and bonded therewith.
- a sole plate having a recess theidn, af'fiheating element fitting within said recess said heating element including a resistor embedded in refractory heat conducting material and enclosed within a sheath having an open face, a thin layer of cement having a high coefficient of thermal conductivity disposed between the open slabs of cellular construction which have conface of the heating element and the bottom of ducting material enclosed within a sheath having an open face, a thin layer of cement having a high coeflicient of thermal conductivity disposed between the open face of the heating element and the bottom of said recess and forming a thermal '16 and mechanical bond therewith.
- an electrical heating unit the combina tion of a heated member having a recess therein, an electrical resistance heating element disposed within said recess, a thin layer of cement disposed between the heating face of the element and walls of the recess and forming a mechanical and thermal bond therebetween, and a metal sheath enclosing said heating element except for the heating face thereof.
- an electrical heating unit the combination of a heated member having a recess therein, an electrical resistance heating element fitting within said recess and comprising a metal sheath 'in which is arranged one or more coils of wire embedded in a mass of refractory heat conducting material, said sheath having an open face and having its edges turned inwardly and embedded in the refractory material, and a layer of cement covering the face and sides of said heat- 85 ing element and providing,a mechanical and thermal bond between the heating element and the walls of said recess.
- an electrical resistance heating element fitting within said recess and comprising a metal sheath in which is arranged one or more coils of wire embedded in a mass of refractory heat conducting material, said sheath having an' open face and having its edges turned inwardly and embedded in the refractory material, and a layer of cement covering the heating face and sidw of said heating element and providing a mechanical and thermal bond between the heating element and the walls of said recess, the resistor being disposed closely adjacent the open face of the heating element.
- an electrical heating unit the combination of a heated member having a recess therein, an electrical resistance heating element fitting within said recess and comprising a metal sheath in which is arranged one or more coils of wire embedded in a mass of refractory heat conducting material, said sheath having an openfaee, a layer of cement covering theface and sides of said heating element and providing a mechanical and thermal bond between the heating element and the walls of said recess, the resistor being dis-/ posed closely adjacent theopen face of the heating element, and a heat deflecting member disposed between the sheath and the open face of the element;
- an electrical heating unit the combination of a heated member having a recess'therein, an electrical resistance heating element disposed within said recess, a layer of cement disposed between a heating surface of said element and a wall of said recess and forming a mechanical and thermal bond therebetween, and a metal sheath forming a surface of said heating element other than said heating surface.
- An electrical heating unit comprising: a heated member having a recess therein; an electrical resistance heating element disposed in said recess; said heating element including a resistor embedded ina mass of refractory electrically insulating heat conducting material presenting a free heating surface; a layer of cement disposed between said otherwise free heating surface and a wall of said recess and forming a mechanical and thermalbond therebetween; and a metal sheath forming a surface of said heating element other than said heating surface.
- anelectrical heating unit the combination of a heated member having a recess therein, an electrical resistance heating element disposed insaid recess, said heating element having side surfaces adjacent the side walls of said recess and having a heating surface adjacent the bottom wall of said recess, a layer of cement disposed between said heating surface of said element and the bottom wall of said recess and forming a mechanical and thermal bond therebetween, and metal sheath means forming surfaces of said heating element excepting at least said heating surface but including at least the side surfaces of said heating element.
- an electrical heating unit the combination of a heated member having a recess therein, an electrical resistance heating element disposed in said recess, a layer of cement disposed between a heating surface of said element and a wall of said recess and forming a mechanical and thermal bond therebetween, a metal sheath forming a surface of said heating'element other than said heatingsurface, and a body of heat insulating material forming a part of'said heating element and disposed at-the side of said heating element opposite from said heating surface thereby to increase the flow of heat toward said heating surface.
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Surface Heating Bodies (AREA)
- Resistance Heating (AREA)
Description
NOV. 30, 1937. 5 W|EGAND Re. 20,566
ELECTRICAL HEATING UN IT Original Filed Nov. 16, 19:53
Edwin. L. 1N V ,,NTOR r 'Z-M,
AJ- TOR NLTS Reissues] Nov. 30, 1937 um'rso STATES 20,566 ELECTRICAL HEATING UNIT Edwin L. Wiegand, Pittsburgh, 1a.-
orixinalNo. 1,994,676, dated March 19; 193 5, Serial No. 698,323, November 16, 1933. Applica- .tion for reissue July 29, 1935, Serial No. 33,743
11 Claims. (01. 219-25) This invention relates to electrical heating units particularly irons, hot plates, cooking utensilsand in fact any type of electrical heating apparatus employing an electrical resistance heating element.
.One of the main objects. of the invention is to provide a heating unit in which it is practical to manufacture the heated member or sole plate and the heating element in different localities and to then assemble the same. j
Another object of the invention is to provide a heating device of the character described in which the heating element and the heated mem-' her are intimately connected thermallyand me- 15 chanically.
Another object of the invention is to provide a heating unit of the character described having a heated member and an electrical resistance heating element which are intimately connected together by means of a'thin layer of cement having a high coeflicient of thermal conductivity whereby a mechanical and thermal bond is formed between the heated member and the heating element.- c
26 Another object of the invention is to provide 'a heating unit of the character described employing an electrical resistance heating element in the form of a partiallysheathed unit which is provided with a heat insulating or obstructing 30 member which is disposed between the sheath and the resistance element, the heating element having one face open or unsheathed and disposed" in intimate contact with the body to be heated.
It is-old in the art to provide a heating device such as an iron in which the resistor is embedded .'or molded directly into the base of the iron or hot plate. This type of unit is objectionable as the heating element or resistor must be embedded in a cast base before the base has been suitably 4 flnishedby polishing and plating. In such case,
it is also necessary to ship the cast iron base complete with the heating element therein whichinvolves considerable expense; and it is necessary thereafter to suitably finish the parts for the market which involves the liability of damage to the base and heating element. To avoid these diflcultieaattempts have been made to manuvfacture the heating units of this type by first finishing the cast iron or other heavy metal'base and then embedding the element directly there-.
in; in which case it becomes necessary'to eliminate the baking of the heating element at a high temperature, which baking is quite desirable in production of heating elements in which the resistor is embedded in bonded granular refractory material. It is not practical to bake the heating element after it has'been placed in the iron as the finishing and plating will be likely to become scratched and burned when subjected to the high temperature necessary to bake the heating element.
According to my method, .I first produce the refractory embedded heating element which is baked at a high temperature. The cast base is produced separately preferably in a locality as m near as possible to the point of assembly, the heating elements proper being produced at a central plant specializing therein. The heating element itself is protected by a light weight sheet metal sheath which is shaped and designed-t0 15 fit closely in a recess which is provided in the base or sole plate of the electric iron or hot plate to be produced. When both the sole plate and the heating element have been completed and delivered to the point of assembly the inside of the recess in the-sole plate is first coated with 20 a thin layer of high refractory heat. conducting cement having a high coeflicient of thermal conductivity. The heating element proper is then pressed into the recess by means of a press and suitable platens. The coating of cement forms a strong mechanical and thermal bond between the heating element and the base. The excess ce-. ment is squeezed out around the edges of the eleinent and a unit is created which is very neat in appearance and has all of the required character-- istics of mechanical and thermal integration. The electrical parts are effectively shielded against moisture and mechanical injury and the heating element is disposed with its open face in 35 intimate contact with the surface to be heated. After the heating element is secured in place as described, the assembly is baked in an oven at a suflic'iently high temperature and for a sufficient time to drive out the moisture and 'to' im- 40 prove the bonding action of the cement but without destroying the finish. It will thus be seen that the resulting structure will consist of a rethe line 2-2 of Fig. 1; Fig. 3 is a vertical sectional view on the line'S-I of Fig. 1; Fig. 4 is an exaggerated fragmentarysectional view show ing the layer of cement between the heating element proper and the walls of the recess in the base of the iron; and Fig. 5 is a vertical sectional view of a slightly modified form of the invention in which the heat insulating and directing member is omitted.
Referring now ,to the drawing the reference character I designates the base of an electrically heated iron which is provided with a recess 2 which extends aboutthe iron. The bottom of the recess 2 is preferably flat and the side walls thereof have a slightly downward taper. -Fitti ng within the recess 2 is an electrical resistance heating element 3 which is of substantially the same shape as the recess and fits tightly therein. The heating element proper consists of a thin sheet siderable resistance to compression and tend to preserve the heat insulating value even though considerable pressure -is applied to the'heating element. This layer of heat insulating material isinterpo'sed between the inner surface of the sheet metal sheath and one side of the heat generating element or resistor in such a manner that the heating element or resistor proper is still completely surrounded by an electrical insulat- \ing heat conducting material, which facilitates the emission of heat from the resistor proper by conduction\ and permitting ready lateral diffusion and equalization of heat between the various convolutions of the resistor element thereby avoiding hot streaks and high temperature local fusion points which would be the case if the resistor were, as is sometimes done, laid into grooves of refractory supporting material having other than the best heat conducting qualities. The resistor may be in the form of a ribbon wound in any suitable form but is hown in the drawing as in the form of a small 'elix and lies very near to the face of the element.
I have found from experience that at the higher energy densities anything interposed between a) heat source and a member which is to receive heat therefrom impedes the transfer of heat, even though the interposed member or material have the highest heat transferring qualities. It
metal sheath 4. which is shaped in section as will be seen from my construction that the open shown most clearly in Figs. 2, 3, and 4, and in or unsheathed portion of the heating element is which is arranged a slab 5 of heat insulating and pressed firmly in place and that there is interdirecting material. Also arranged withinthe posedonly the very slightest layer of cement sheath 4 is a coiled electrical resistor 6 which which forms a thermal and mechanical bond beconsists of a plurality of helically wound coils arranged as shown most clearly in Figs. 1 and 2 and which are embedded in a mass of bonded, granular tightly compacted, refractory material which is baked at a high temperature. The sides of the sheath are turned over inwardly and embedded in the mass. of refractory material so as to be flush with the face thereof. It will also be noted that the resistor is positioned closely adjacent the heating face of the element. In practice the layer of granular refractory insulating material between the resistor and the face of the element is approximately .050 of an inch but may vary from 3/64 of an inch to .of an inch, depending upon the character of the heating unit. Disposed between the heating element proper and the walls of the recess {is a thin layer 1 of cement having a high coeificient of I thermal conductivity and which forms a mechanical and thermal bond between the heating element proper and the walls-of the recess. This layer of cement is very thin and just sufficient to make a bond without unduly increasing the space hetween-the resistor and-the metalv surfaceto be heated. Before the element is placed within the recess, the recess is first coated with a thin layer of cement and of approximately of an inch in thickness and in a plastic or semi-fluid condition. The element is then pressed frictionally into the recess and the excess cement is forced out around the edges of the element so as to leave only a sufficient amount of they cement to fill any irregularities or small air pockets.
The layer 5 of heat insulating material is refractory heat insulating material of the highest possible compressive strength so that its cellular or other heat obstructing character will not be undulyimpaired in the process of compressing the element. Such materials are obtainable in the market in the form of artificial refractory identical with that disclosed in the remaining figures.
It will now be clear that I have provided an electrical resistance heating unit which will accomplish the objectsof the invention as hereinbefore stated. It is to be understood that the embodiment of the invention herein disclosed is merely illustrative and is not to be considered'in a limiting senseas the invention is limited only in accordance with the scope of the appended claims.
Having thus described my invention, what I claim is:
1. In an electrical heating unit, the combination of'a sole plate having a recess therein, a heating elementfitting within said recess, said heating element including a resistor embedded in refractory heat conducting material and enclosed within a sheath having an open face, a thin layer of cement having a high coefficient of thermal conductivity disposed between the open face of e heating element and the bottom of the recess and bonded therewith. 1
2. In an electrical heating unit, the combination of a sole plate having a recess theidn, af'fiheating element fitting within said recess, said heating element including a resistor embedded in refractory heat conducting material and enclosed within a sheath having an open face, a thin layer of cement having a high coefficient of thermal conductivity disposed between the open slabs of cellular construction which have conface of the heating element and the bottom of ducting material enclosed within a sheath having an open face, a thin layer of cement having a high coeflicient of thermal conductivity disposed between the open face of the heating element and the bottom of said recess and forming a thermal '16 and mechanical bond therewith.
4. In an electrical heating unit, the combina tion of a heated member having a recess therein, an electrical resistance heating element disposed within said recess, a thin layer of cement disposed between the heating face of the element and walls of the recess and forming a mechanical and thermal bond therebetween, and a metal sheath enclosing said heating element except for the heating face thereof.
5. In an electrical heating unit, the combination of a heated member having a recess therein, an electrical resistance heating element fitting within said recess and comprising a metal sheath 'in which is arranged one or more coils of wire embedded in a mass of refractory heat conducting material, said sheath having an open face and having its edges turned inwardly and embedded in the refractory material, and a layer of cement covering the face and sides of said heat- 85 ing element and providing,a mechanical and thermal bond between the heating element and the walls of said recess. 7
6. In an electrical heating unit, the combination of a heated member having a recess therein,
4|] an electrical resistance heating element fitting within said recess and comprising a metal sheath in which is arranged one or more coils of wire embedded in a mass of refractory heat conducting material, said sheath having an' open face and having its edges turned inwardly and embedded in the refractory material, and a layer of cement covering the heating face and sidw of said heating element and providing a mechanical and thermal bond between the heating element and the walls of said recess, the resistor being disposed closely adjacent the open face of the heating element.
'1. In an electrical heating unit, the combination of a heated member having a recess therein, an electrical resistance heating element fitting within said recess and comprising a metal sheath in which is arranged one or more coils of wire embedded in a mass of refractory heat conducting material, said sheath having an openfaee, a layer of cement covering theface and sides of said heating element and providing a mechanical and thermal bond between the heating element and the walls of said recess, the resistor being dis-/ posed closely adjacent theopen face of the heating element, and a heat deflecting member disposed between the sheath and the open face of the element;
8. In an electrical heating unit, the combination of a heated member having a recess'therein, an electrical resistance heating element disposed within said recess, a layer of cement disposed between a heating surface of said element and a wall of said recess and forming a mechanical and thermal bond therebetween, and a metal sheath forming a surface of said heating element other than said heating surface.
9. An electrical heating unit, comprising: a heated member having a recess therein; an electrical resistance heating element disposed in said recess; said heating element including a resistor embedded ina mass of refractory electrically insulating heat conducting material presenting a free heating surface; a layer of cement disposed between said otherwise free heating surface and a wall of said recess and forming a mechanical and thermalbond therebetween; and a metal sheath forming a surface of said heating element other than said heating surface.
10. In anelectrical heating unit, the combination of a heated member having a recess therein, an electrical resistance heating element disposed insaid recess, said heating element having side surfaces adjacent the side walls of said recess and having a heating surface adjacent the bottom wall of said recess, a layer of cement disposed between said heating surface of said element and the bottom wall of said recess and forming a mechanical and thermal bond therebetween, and metal sheath means forming surfaces of said heating element excepting at least said heating surface but including at least the side surfaces of said heating element.
11. In an electrical heating unit, the combination of a heated member having a recess therein, an electrical resistance heating element disposed in said recess, a layer of cement disposed between a heating surface of said element and a wall of said recess and forming a mechanical and thermal bond therebetween, a metal sheath forming a surface of said heating'element other than said heatingsurface, and a body of heat insulating material forming a part of'said heating element and disposed at-the side of said heating element opposite from said heating surface thereby to increase the flow of heat toward said heating surface.
- EDWIN L. WIEGAND.
Publications (1)
Publication Number | Publication Date |
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USRE20566E true USRE20566E (en) | 1937-11-30 |
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US20566D Expired USRE20566E (en) | Electrical heating unit |
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