US1551868A - Method of the application and construction of electrical heating units - Google Patents

Method of the application and construction of electrical heating units Download PDF

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US1551868A
US1551868A US343976A US34397619A US1551868A US 1551868 A US1551868 A US 1551868A US 343976 A US343976 A US 343976A US 34397619 A US34397619 A US 34397619A US 1551868 A US1551868 A US 1551868A
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construction
resistor
application
heat
electrical heating
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US343976A
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Clark Charles Albert
Smith Alva Thomas
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating

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  • This invention relates to the method -of the application and construction of electrical heating units which are imbedded in high refractory materials and said refractory materials together with the heating element are imbedded in a metallic mass being held there under pressure by a metallic plate or the like.
  • Another novel and valuable feature of this invention consists of utilizing a high refractory material of high thermal conductivity in combination with another high refractory material of 'low thermal conductivity.
  • Another novel feature of this invention consists of the means wherein the resistor together with the refractory materials is imbedded under high pressure into a metallic mass so proportioned that the heat will be transmitted in the desired direction.
  • This improved method of heating may be accomplished by using cast metallic materials, stamped or formed metallic materials or high refractory moulded materials, in
  • the preferable high refractory materials of high thermal conductivity consists of quartz, talc, fire clay, alundum or any other suitable high refractory material either plastic or nonplastic.
  • the nonplastic material may be made plastic by the use of suitable binders such as sodium silicate, fire clay or other suitable materials.
  • the preferable high refractory materials of low thermal conductivity consist of any of the aforesaid in combination with any low thermal conductive material such as as bestos, sil-o-cel or the like.
  • Another valuable featureof our invention consists of the novel construction of the terminals which are integral with and a part of the heating unit.
  • the construction of the heating unit is substantially as follows:
  • the resistor is centralized in a recess by a series of prepared shapes consisting of igh refractory materials one side of which is formed to receive and centralize the resistor.
  • shapes may be rectangular or wedge shaped as may he desired, one series of which shapes being of low thermal conductivity and the other shapes which are diametrically opposite being of high ther mal conductivity.
  • the shapes are placed in their proper relative position in acavity and a pressure plate or the like is forced under pressure into the cavity thus forcing and compressing the shapes compactly into the cavit and around the resistor, thoroughly imbed ding the resistor, preferably composed of a coil of resistance wire of comparatively small diameter thus incorporating the resistor and the differentiated shapes together with the surrounding mass and the unit terminals into one compact heating unit.
  • Figure 1 is an isometric View illustrating one of the shapes of the refractory mate rial.
  • Figure 2 is a typical section showing the resistor imbedded in the refractory materials.
  • Figure 3 is a plan View showing the application of this method applied to a laundry iron.
  • Figure 4 is a section of Figure 3, taken on line A-A Figure 5, is a section on line BB of Figure 6, illustrating one application of this construction as applied to an immersion heater. 1
  • Figure 6 is a plan View of Figure 5.
  • this heating unit is substantially as follows, a resistor 1, is imbedded in a cavity or channel 2, in a metallic casting 3, shown in Figure 2, said resistor being centralized by two types of prepared shaped high refractory materials adapted to be crushed and compressed into said cavity and around the resistor on all sides completely imbedding the said resistor.
  • the prepared shape 4 sur-' ductivity, and diametrically opposite is a high refractory shaped material of high thermal conductivity and is adjacent to the thinner section of the mass 3, which surrounds the heating element, together with 4 and 5, the other three sides being relatively thicker.
  • the reslstor 1 is centralized in the cavity or-channel 2, by the prepared shapes 4 and 5, which are crushed around said resistor 1, by the pressure of the plate 8.
  • the principal feature of this invention being toconstruct a heating unit that Will transmit the heat from the resistor 1, to the surface to be heated 7 with the least possible amount of thermal resistance, thereby increasing the life of the element and providing a comparatively low resisting path for the heat flow-in the desired direction, thus increasing the eliiciency of said unit.
  • the terminal construction as shown in Figure 4 consists of an insulating block or the like composed of porcelain, lava, or other high refractory insulating compositions, which is integral with and a part of the heating unit and carries a terminal 10, attached thereto, through which the resistor 1, passes and is attached thereto either by welding, brazing or clamping.
  • the iron as shown in section in Figure 4 has a pressure plate 11, which also serves as a weight for the iron and has a cover 12, through which the block 9, and the terminal 10, passes.
  • FIG. 5 Another type of this construction is shown in Figure 5, in section and in Figure 6 in plan View, illustrating an immersion heater.
  • the cast plate 12 has projections 18, which serve for the same purpose as the pressure plate 8, in Figure 2 and also has a flange 14.
  • the resistor together with the prepared shapes 4: and 5, are contained in a channel 16, of the formed sheet metal plate 15, which plate 15, is brazed, soldered, silver soldered, or otherwise hermetically attached to the plate 12, at 17.
  • the terminals 18, are attached to the insulating block or the like which in turn is attached to the tube 20, screwed into the casting '12, at 21, and the interior of the said tube 20, carries the insulating means 22, through which the resistor 1, or the leads 23, pass to be connected to the terminal 18.
  • An electric heating unit comprised of a resistor, a grooved metallic base, a plurality of insulating blocks of good heat conductivity in the bottom of said groove, a
  • insulating blocks of poor heat means adapted to prevent the downward radiation of heat, a heating element, insulating means adapted to rapidly carry heat upwardly and provisions for clamping said elements and means together under pressure.
  • heating element means to accelerate the upward radiation of heat
  • a clamping pressure plate adapt-ed to store up heat

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  • Resistance Heating (AREA)

Description

Sept. 1, 1925- 1,551,868
' c. A. CLARK ET AL METHOD OF THE APPLICATION AND CONSTRUCTION OF ELECTRICAL HEATING UNITS Filed Dec. 1919 INVENTORS WWW fZ a/ Patented Sept. 1, 1925.
UNITED STATES PATENT OFFICE.
CHARLES ALBERT CLARK AND ALVA THOMAS SMITH, OF NEW YORK, N. Y.; SAID SMITH ASSIGNOR TO SAID CLARK.
METHOD OF THE APPLICATION AND CONSTRUCTION OF ELECTRICAL HEATING- UNITS.
Application filed December 10, 1919. Serial No. 343,976.
To all whom it may concern Be it known that we, CHARLES ALBERT CLARK and ALvA THOMAS SMITH, citizens of the United States, and residents of New York city, in the county of New York and State'of New York, have invented new and useful Improvements in Methods of the Application and Construction of Electrical Heating Units, of which the following is a i specification.
This invention relates to the method -of the application and construction of electrical heating units which are imbedded in high refractory materials and said refractory materials together with the heating element are imbedded in a metallic mass being held there under pressure by a metallic plate or the like.
Another novel and valuable feature of this invention consists of utilizing a high refractory material of high thermal conductivity in combination with another high refractory material of 'low thermal conductivity.
The function of these high refractory materials utilized in this combination is to provide a suitable means for maintaining the resistor in a relatively fixed position and to direct the heat in the desired direction.
Another novel feature of this invention consists of the means wherein the resistor together with the refractory materials is imbedded under high pressure into a metallic mass so proportioned that the heat will be transmitted in the desired direction.
This is accomplished by surrounding the heating element on three sides by ametallic mass relatively thick and the fourth side by a mass relatlvely thin, by placing the low 40 heat conductive refractory material adjacent to the relatively thick mass and the high heat conductive refractory material adjacent to the relatively thin mass, for the purpose of conducting the heat to be utilized in the direction to be desired.
This improved method of heating may be accomplished by using cast metallic materials, stamped or formed metallic materials or high refractory moulded materials, in
conductive refractory material and on the other side by a low thermal conductive refractory material.
The preferable high refractory materials of high thermal conductivity consists of quartz, talc, fire clay, alundum or any other suitable high refractory material either plastic or nonplastic.
The nonplastic material may be made plastic by the use of suitable binders such as sodium silicate, fire clay or other suitable materials.
The preferable high refractory materials of low thermal conductivity consist of any of the aforesaid in combination with any low thermal conductive material such as as bestos, sil-o-cel or the like.
We have obtained excellent results however with the use of combination of alundum cement and talc for a refractory material of high thermal conductivity and for a refractory material of low thermal conductivity have utilized the aforesaid combination with the addition of asbestos or sil-o-cel.
Another valuable featureof our invention consists of the novel construction of the terminals which are integral with and a part of the heating unit. a I
The construction of the heating unit is substantially as follows: The resistor is centralized in a recess by a series of prepared shapes consisting of igh refractory materials one side of which is formed to receive and centralize the resistor.
These prepared "shapes ma be rectangular or wedge shaped as may he desired, one series of which shapes being of low thermal conductivity and the other shapes which are diametrically opposite being of high ther mal conductivity.
The shapes are placed in their proper relative position in acavity and a pressure plate or the like is forced under pressure into the cavity thus forcing and compressing the shapes compactly into the cavit and around the resistor, thoroughly imbed ding the resistor, preferably composed of a coil of resistance wire of comparatively small diameter thus incorporating the resistor and the differentiated shapes together with the surrounding mass and the unit terminals into one compact heating unit.
\Ve attain these results by the illustra-- tions in the accompanying drawing where like parts are referred to by similar numerals throughout the drawing, in which:
Figure 1, is an isometric View illustrating one of the shapes of the refractory mate rial.
Figure 2, is a typical section showing the resistor imbedded in the refractory materials.
Figure 3, is a plan View showing the application of this method applied to a laundry iron.
Figure 4:, is a section of Figure 3, taken on line A-A Figure 5, is a section on line BB of Figure 6, illustrating one application of this construction as applied to an immersion heater. 1
Figure 6, is a plan View of Figure 5.
The basic construction of this heating unit is substantially as follows, a resistor 1, is imbedded in a cavity or channel 2, in a metallic casting 3, shown in Figure 2, said resistor being centralized by two types of prepared shaped high refractory materials adapted to be crushed and compressed into said cavity and around the resistor on all sides completely imbedding the said resistor.
In Figure 2, the prepared shape 4, sur-' ductivity, and diametrically opposite is a high refractory shaped material of high thermal conductivity and is adjacent to the thinner section of the mass 3, which surrounds the heating element, together with 4 and 5, the other three sides being relatively thicker.
' The purpose of this unique construction is to provide better thermal conduction between the resistor 1, and the surface to be heated 7, the remainder of the surrounding mass being of, a lower thermal conductiyity.
The reslstor 1, is centralized in the cavity or-channel 2, by the prepared shapes 4 and 5, which are crushed around said resistor 1, by the pressure of the plate 8.
The principal feature of this invention being toconstruct a heating unit that Will transmit the heat from the resistor 1, to the surface to be heated 7 with the least possible amount of thermal resistance, thereby increasing the life of the element and providing a comparatively low resisting path for the heat flow-in the desired direction, thus increasing the eliiciency of said unit.
The terminal construction as shown in Figure 4, consists of an insulating block or the like composed of porcelain, lava, or other high refractory insulating compositions, which is integral with and a part of the heating unit and carries a terminal 10, attached thereto, through which the resistor 1, passes and is attached thereto either by welding, brazing or clamping.
The iron as shown in section in Figure 4, has a pressure plate 11, which also serves as a weight for the iron and has a cover 12, through which the block 9, and the terminal 10, passes.
Another type of this construction is shown in Figure 5, in section and in Figure 6 in plan View, illustrating an immersion heater.
The basic principle of this heater and the application of the different arts utilized is substantially the same in pr1nciple as in the laundry iron, illustrated.
In this immersion heater the cast plate 12, has projections 18, which serve for the same purpose as the pressure plate 8, in Figure 2 and also has a flange 14.
The resistor, together with the prepared shapes 4: and 5, are contained in a channel 16, of the formed sheet metal plate 15, which plate 15, is brazed, soldered, silver soldered, or otherwise hermetically attached to the plate 12, at 17.
The terminals 18, are attached to the insulating block or the like which in turn is attached to the tube 20, screwed into the casting '12, at 21, and the interior of the said tube 20, carries the insulating means 22, through which the resistor 1, or the leads 23, pass to be connected to the terminal 18.
Having thus described our invention and illustrated the same in the accompanying drawing, we do not confine ourselves to the exact means illustrated herein only as the preferred embodiment of the invention, therefore:
We claim:
1. An electric heating unit comprised of a resistor, a grooved metallic base, a plurality of insulating blocks of good heat conductivity in the bottom of said groove, a
plurality of insulating blocks of poor heat means adapted to prevent the downward radiation of heat, a heating element, insulating means adapted to rapidly carry heat upwardly and provisions for clamping said elements and means together under pressure.
3. In combination, a holding base, means to prevent downward radiation of heat, a
heating element, means to accelerate the upward radiation of heat, and a clamping pressure plate adapt-ed to store up heat.
Dated at New York, N. Y., this the 6 day of Dec., 1919.
CHARLES ALBERT CLARK. ALVA THOMAS SMITH.
US343976A 1919-12-10 1919-12-10 Method of the application and construction of electrical heating units Expired - Lifetime US1551868A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2512692A (en) * 1947-01-15 1950-06-27 Birtman Electric Co Resistance element and electric iron containing the same
US2512668A (en) * 1945-04-18 1950-06-27 Birtman Electric Co Resistance element for electric irons
US2541118A (en) * 1945-04-11 1951-02-13 Birtman Electric Co Resistance element for electric irons
US2585928A (en) * 1945-04-02 1952-02-19 Mcgraw Electric Co Electric iron and method of making of same
US4703154A (en) * 1985-08-06 1987-10-27 Ngk Insulators, Ltd. Infrared ray heater

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2585928A (en) * 1945-04-02 1952-02-19 Mcgraw Electric Co Electric iron and method of making of same
US2541118A (en) * 1945-04-11 1951-02-13 Birtman Electric Co Resistance element for electric irons
US2512668A (en) * 1945-04-18 1950-06-27 Birtman Electric Co Resistance element for electric irons
US2512692A (en) * 1947-01-15 1950-06-27 Birtman Electric Co Resistance element and electric iron containing the same
US4703154A (en) * 1985-08-06 1987-10-27 Ngk Insulators, Ltd. Infrared ray heater

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