|Publication number||US3268846 A|
|Publication date||Aug 23, 1966|
|Filing date||Aug 26, 1963|
|Priority date||Aug 26, 1963|
|Publication number||US 3268846 A, US 3268846A, US-A-3268846, US3268846 A, US3268846A|
|Inventors||Glen H Morey|
|Original Assignee||Templeton Coal Company|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (21), Referenced by (42), Classifications (11)|
|External Links: USPTO, USPTO Assignment, Espacenet|
G. H. MOREY HEATING TAPE Aug. 23, 1966 2 Sheets-Sheet 1 Filed Aug. 26, 1963 INVENTOR.
GLEN H. MOREY TWA- my FIG-5 ATTORNEYS Aug. 23, 1966 v G. H. MOREY 3,268,846
HEATING TAPE Filed Aug. 26, 1963 2 Sheets-Sheet 2 I N VENTOR. GLEN H. MOREY BY 751mg "may;
ATTORNEYS United States Patent 3,268,846 HEATING TAPE 7 Glen H. Morey, Terre Haute, Ind., assignor to Templeton Coal Company, Terre Haute, Ind., a corporation of Indiana Filed Aug. 26, 1963, Ser. No. 304,412 6 Claims. (Cl. 338-212) This invention relates to heating tapes and is particularly concerned with a heating tape having ribbon like resistance heating elements therein.
Heating tapes of the type in which resistant heating elements are contained within an insulating sheath are Well known and those with ribbon type heating elements of the general nature with which the present invention are concerned are illustrated in my issued United States patents numbered 2,939,099; 2,952,001; 2,966,648; 2,982,- 932; 2,985,860. The present invention is particularly concerned with an improved heating tape of this general nature and to a method of making the same, which makes the tape more economical to manufacture and more adaptable to various situations in which it might be used.
Another object of this invention is the provision of a flexible electrical resistance heating tape and a method of manufacturing the same which requires the minimum in special material and equipment.
A still further object of this invention is the provision of an electric resistance heating tape and a method of manufacturing the same in which substantially commercial products are employed as the main components of the tape.
A still further object of this invention is the provision of an electric resistance heating tape having a plurality of resistance elements therein which can be selectively connected in various circuit arrangements to adapt a given tape to varying supply voltages.
Still a further object of this invention is the provision of an electric resistance heating tape which will bevfluid impervious and which will not tend to absorb liquids in any way whatsoever.
A still further object is the provision of a flexible resistance heating tape in which the external surface of the tape can .be made highly resistant to attack by chemicals and which will also be resistant to abrasion.
These and other objects and advantages of this invention will become more apparent upon reference to the following specification taken in connection with the accompanying drawings, in which:
FIGURE 1 is a somewhat diagrammatic perspective view showing a tape according to the present invention;
FIGURE 2 is a perspective sectional view showing details of construction of one form of the tape;
FIGURE 3 is a sectional view indicated by line 3-3 on FIGURE 1 taken through one end of the tape showing one manner in which the end of the tape can be finished;
FIGURE 4 is a view similar to FIGURE 3 and is indicated by line 44 in FIGURE 1 but is taken at the opposite end of the tape showing one manner of finishing the tape so that electrical connection can be made to the heating elements therein;
FIGURE 5 is a sectional view indicated by line 5--5 on FIGURE 4 showing how a connector member can be secured to a resistance heating element of the tape;
FIGURE 6 is a schematic perspective view showing one manner of manufacturing the tape according to the present invention, and
FIGURE 7 is another schematic perspective view showing an alternate method of manufacturing the tape.
FIGURE 8 is a perspective view showing .a modified form which the invention can take.
Referring to the drawings somewhat more in detail,
as will be seen in FIGURES 1 through 5, the heating tape comprises a plurality of ribbon like resistance heating elements 10 arranged in spaced parallel relation. The exact size of the ribbons of resistance material, of course, is variable within wide limits in accordance with the supply voltage which will be used to energize the tape and the length of the tape of the desired wattage. Calculation of these particular factors would be made according to conventional practices. As an example of a tape that could be manufactured according to this invention, the ribbons might be about three-eighths of an inch wide and be some two to four thousandths inches in thickness.
The ribbons could be formed of Nichrome or some other suitable resistance material.
These ribbons are arranged in side by side relation as illustrated for example, four of the ribbons, and spaced about one-sixteenth inch apart.
The ribbons are sandwiched between two relatively thin plastic strips 12. This material might, for example, be Teflon or silicone rubber or other plastic material available in thin films and capable of withstanding temperatures up to the range of about 500 F. The Teflon and silicone rubber are merely representative examples of plastic materials of this nature. I
Plastic strips of the nature referred to about two inches wide would be satisfactory for encasing a group of four resistance element strips each about three-sixteenths inch wide and spaced apart about one-sixteenth of an inch. The faces of the plastic strips toward each other are of such a nature as to adhere to one another and to the re sistance elements, and this may be brought about by an adhesive coating on the plastic strips. Plastic of.the nature referred to, which includes Teflon and silicone rubber, is resistant to chemical attack and abrasion and is extremely flexible.
The tape, in being made of long ribbons of resistance material and long strips of plastic film, lends itself well to economic manufacture because these basic materials of the ribbon can be fed 01f continuous spools and the tape manufactured in continuous process and thereafter cut to length and finished.
The manner of finishing the tape, by which is meant the finishing of the opposite ends of a cut off section of the tape, can ibe accomplished in different manners, and one way of doing this is illustrated in FIGURES 3, 4 and 5.
FIGURE 3 shows that one end of the tape is provided with a Teflon or silicone rubber or plastic cap or fitting 16 cemented as by cement 18 to the plastic sheathing of the tape and confining with the end of the tape a space 20 into which the ends of the ribbons 10 extend. Within this space the ribbons can be interconnected in pairs by connector strips 22 connected by rivets 24 with the ends of the resistance ribbons.-
ln the particular arrangement shown in FIGURE 3, each pair of interconnected ribbons would form a single heating element with two serially connected legs. Obviously, individual connection could be made to the resistance heating elements in which case they would all be in parallel, and could be energized singly or in multiple. Still further, it would be possible to connect the ribbons 10 so that they were all in series if so desired, and any 'of these circuit arrangements could be made to adapt the tape to the particular supply voltage available for any given tape. It will be understood that the connections illustrated in FIGURE 3 are therefore only representative of many circuit arrangements that could be made with a multiple ribbon tape according to the present invention.
FIGURE 4 shows one treatment of the end of the tape opposite the end shown in FIGURE 3. (In FIGURE 4 each resistance ribbon 10 has a connector 26 secured thereto by a rivet 28 and there is provided an insulating plastic cap or fitting 30 cemented to the Plastic sheath of the tape by adhesive 32. This fitting is also sealed to connector members 26 by adhesive 34 and confines with the end of the tape a space 36 wherein the connector elements are attached to the ends of the heating ribbons. The connector elements 34 in FIGURE 4 as well as connector elements 22 in FIGURE 3 are preferably substantially thicker than the ribbons 10 as will be seen in FIGURE 5. These connector elements can be conveniently connected to the resistance elements by riveting, but could also be spot welded or brazed thereto.
FIGURE 6 shows somewhat diagrammatically the preferred manner of manufacturing a resistance heating tape according to the present invention. In FIGURE 6, 50 indicates the supply spools of the resistance ribbons and the individual ribbons will feed therefrom through a guiding comb 52 to predetermine and maintain the proper spacing between the ribbons. 54 indicates spools of the plastic material to be applied to opposite sides of the group of ribbons. These films are guided over guide rolls 56 and applied to opposite sides of the group of resistance ribbons. Pressure rolls 8 apply pressure to the outer faces of the plastic strips to cause them toadhere to each other and to the opposite sides of the resistance ribbons.
A pressure sensitive adhesive may be supplied to the faces of the plastic strips that engage each other, but it is possible also to employ heat sensitive adhesive material, and in this case, the rolls 58 could be heated in order to cause the plastic strips to adhere to each other and to the resistance ribbons. In still other cases the adhesive material on the plastic strips could be heat curable, and in this case, the tape would be passed through a heating station such as the over 60. Pressure rolls could also be included in this oven if so desired, as indicated at 6Q.
The arrangement described above permits manufacturing of the tape in continuous lengths so that production is extremely rapid and economical, and so that tapes of any desired length could readily be manufactured.
FIGURE 7 shows schematically another method of manufacturing the tape in which the resistance ribbons are fed through a spacing comb 70 and then downwardly through a hopper 72 and between calendering rolls 74. Hopper 72 contains plastic material 76 which is calendered by rolls 74 and pressed and formed together and about the ribbons 10 whereby to form an integral body of plastic material completely enclosing the resistance ribbons. In most cases the plastic material would be cured by passing the tape through an oven 78 following calendering rollers 74.
In the manufacture of a tape according to the present invention, simple plastic material for the films on opposite sides of the resistance ribbons wo-uld many times be adequate. However, it is also within the purview of this invention to utilize supported or reinforced films. Support for the films, for example, might comprise netted or woven textile material imbedded therein or applied thereto and reinforcement of the films might take the form of textile or glass fibers or the like imbedded in the plastic material. Fibrous material of this nature is indicated by the lines 80 in FIGURE 7. It will be understood that the fibrous material would be distributed through the plastic material according to any predetermined pattern or any random pattern.
In any case, the fibrous material would greatly reinforce a plastic material and give it considerably greater strength and greater resistance to abrasion and would in this manner, not only strengthen the entire tape and make it more wear resistant, but would also increase the protection of the individual resistance heating elements enclosed within the plastic sheath.
FIGURE 8 shows an arrangement wherein the resistance ribbon-like elements 90 are encased in braided textile material 92 which may, for example, be glass fibers or quartz fibers or the like.
The tubular sheaths surrounding the ribbon-like resistance heating elements permit movement of the resistance heating elements due to contraction and expansion, and thus relieve them from stress which would otherwise be imposed upon them if they were confined between layers of plastic material adhering thereto. With the resistance heating elements encased within the sheaths a plastic coating 94 is applied to the heating elements in the same manner as has been described above in connection with the previous modifications. This figure also shows how the individual resistance heating elements could be held in spaced relation by cords 96 between adjacent heating elements. These cords not only fix the spacing between the adjacent resistance heating elements but also reinforce the entire heating tape against longitudinal stresses imposed thereon.
It will be understood that the tape according to the present invention could have conventional plug-in type connector means at one or both ends, if so desired, as is shown in my Patents 2,982,932 and 2,985,860 for greater convenience in connecting and disconnecting the heating element to a source of electrical energy.
An advantageous tape construction can be arrived at by employing as the plastic material relatively thin rib bons of unsintered Teflon without the application of any adhesive. The Teflon ribbons are pressed on opposite sides of the resistance ribbons and are then heated up to about 600 F. which will bring about sintering of the Teflon and the direct fusion of the Teflon ribbons with each other between the resistance elements. This heating can be done with the application of pressure in order to insure complete and continuous fusing of the Teflon ribbons with each other.
The net result of making the resistance ribbon in this manner is a flexible tape relatively inexpensive to construct and in which the encapsulating plastic material is fused into a homogeneous mass completely surrounding the resistance heating elements and absolutely fluid tight. A particular advantage of this last described method is that the Tefllon material is relatively inexpensive and is easy to handle so that the resulting tape is quite inexpensrve.
The tape according to the present invention is completely fluid tight and can be used in locations where heating tapes having fabrics sheaths would be impractical or even inoperative.
On account of the extremely large area of the resistance heating elements high wattage per unit could be developed by a tape according to the present invention without the temperature of the resistance heating elements at the surface thereof becoming high enough to cause deterioration of the plastic sheath. This is a distinct advantage of the ribbon-like resistance heating element over the fine wire resistance heating elements of conventional tapes.
It will be understood that this invention is susceptible to modification in order to adapt it to different usages and conditions; and accordingly, it is desired to comprehend such modifications within this invention as may fall within the scope of the appended claims.
What is claimed:
1. A flexible electrical heating tape comprising; two pairs of ribbon-like electrical resistance heating elements arranged in laterally spaced parallel relationship to each other, a body of fluid impervious flexible plastic insulating material surrounding said elements and adhered thereto to form an enclosure thereabout while exposing the extreme ends of said heating elements, each said pair of elements having their one adjacent ends electrically interconnected and having individual electric terminals connected with the other ends, and insulating caps for each end of said pairs of elements tape sealingly engaging said body of insulating material and enclosing the ends of said heating elements, said individual electric terminals having portions extending out of the pertaining one of said insulating caps for connection to an electrical power source.
2. A flat flexible electrical heating tape comprising; a
plurality of ribbon-like electrical resistance heating elements arranged laterally in spaced parallel relationship to form at least two pairs of adjacent heating elements, said pairs of heating elements being electrically joined at one end and having individual electrical terminals connected with the other ends, two thin plastic strips having faces which adhere to each other, said plurality of heating elements being sandwiched between said strips with said faces adhering to each other and to opposite sides of said heating elements to form a fluid seal therearound and therebetween, the ends of said heating elements being exposed at the ends of said strips, and insulating caps on the ends of said tape sealed to said plastic strips and enclosing the ends of said heating elements to fluidly seal each end of said tape, said terminals having portions extending out of at least one of said caps for connection to an electrical power source.
3. The electrical heating tape as claimed in claim 2 in which said plastic strips have reinforcement means imbedded therein.
4. The electrical heating tape as claimed in claim 2 in which said plastic strips have reinforcement means applied to the outside surface thereof.
5. A fiat flexible electrical heating tape comprising; two pairs of ribbon-like electrical resistance heating elements of uniform width and thickness in laterally spaced parallel relationship to each other, a body of fluid impervious flexible plastic insulating material capable of withstanding temperatures of about 500 F. surrounding said elements and adhered thereto to form an enclosure thereabout while exposing the extreme ends of said heating elements, connector elements electrically joining one end of said pairs of elements, terminal elements individually electrically joined to the other ends of said pairs of elements, tape sealingly engaging said body of insulating material and enclosing the ends of said heating elements and plastic cap members in sealing engagement with the outside of said plastic insulatingmeans to fluidly seal the ends of said pairs of elements, said terminal elements having portions extending out of said cap member for con" nection to an electrical power source.
6. A flat flexible electrical heating tape as claimed in claim 5 in which said plastic insulating means is a solid integral body of plastic material.
References Cited by the Examiner UNITED STATES PATENTS 303,735 8/1884 Jackson 174-117 X 2,543,970 3/1951 Horsfall et a1 29-15563 2,585,443 2/1952 Cox 338-212 2,610,286 9/1952 Cox 338-212 2,648,924 8/1953 Brewster 161-406 2,710,909 6/1955 Logan et a1 338-212 2,712,591 7/1955 Rogell 338-212 2,719,213 9/1955 Johnson 338-212 2,816,201 12/1957 Mulvey 219-213 X 2,845,519 7/1958 Willat 219-528 2,938,992 5/1960 Crurnp 338-208 X 2,961,522 11/1960 Hammer 219-543 X 2,982,932 5/1961 Morey 338-212 3,029,303 4/1962 Severino 161-406 3,031,739 5/1962 Boggs 29-15563 3,057,952 10/1962 Gordon 174-117 3,168,617 2/1965 Richter 174117 3,173,991 3/1965 Breakfield 174-117 3,197,729 7/1965 Sarazen 174-88 FOREIGN PATENTS 563,359 9/1958 Canada.
553,448 2/1923 France.
RICHARD M. WOOD, Primary Examiner.
V. Y. MAYEWSKY, Assistant Examiner.
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|U.S. Classification||338/212, 174/117.0FF, 219/549, 156/383, 219/528, 174/88.00R|
|Cooperative Classification||H05B3/565, H05B3/56|
|European Classification||H05B3/56, H05B3/56A|