GB2024579A - Resistance heating tape - Google Patents

Abstract

A heating tape comprising a pair of elongate electrodes 10 embedded in a body 11, 12 of electrically conductive material wherein the highest current density in the effective current path between the electrodes 10 is at a location 12 spaced from and intermediate the electrodes. The conductive material is a silicone rubber or other elastomer having conductive particles e.g. carbon black dispersed therein. The cross- sectional area of the current path between the electrodes may be reduced by embedding insulators or insulated supply wires in the conductive body or by arranging slots in the body transverse to the major surfaces of the tape. <IMAGE>

Description

SPECIFICATION Improvements relating to heating tapes This invention relates to electrically conductive heating tapes of the type, hereinafter referred to as the type described, comprising a pair of elongate electrodes embedded in a body of electrically conductive material such as silicone rubber or other elastomer having dispersed therein particles of conductive material such as carbon black.

The invention is particularly, but not exclusively, concerned with a heating tape as described in our co-pending application no. 20821/77.

An object of the invention is to provide a heating tape of the type described above wherein electrical failure of the tape is avoided or is reduced.

According to one aspect of the invention we provide a heating tape of the type described wherein the highest current density in the effective current path between the electrodes, as herein defined, is at a location spaced from and intermediate the electrodes.

According to another aspect of the invention we provide a heating tape of the type described wherein the smallest cross-sectional dimension of the effective current path in a lateral cross section of the tape is at a location intermediate the electrodes.

In general the effective current path is bounded at the electrodes by a part of the electrode/body interface which has a portion which faces generally towards the other electrode and which is of a transverse extent substantially equal to one half of the total peripheral extent of the electrode/body interface.

In the case of a circular or substantially circular electrode the current path is bounded at the electrodes by a part of the electrode/body interface a normal to which extends in a direction which has a component extending towards the other electrode.

Said smallest cross sectional dimension is preferably not more than 60% of the transverse dimension of said part of the interface.

According to another aspect of the invention we provide a heating tape of the type described wherein the smallest cross sectional dimension of the body between the electrodes is smaller than the maximum effective cross sectional dimension of the electrodes.

The maximum effective cross sectional dimension of the electrode is, if the electrodes are of different size, the maximum cross sectional dimension of the smallest electrode. If the electrodes are of composite construction, for example, a cylindrical copper wire inner part in a tubular base of conductive rubber of higher conductivity than the body, the effective dimension is the sum of the diameter of the copper wire, Dw and the product of the total thickness Tc and the ratio of the electrical conductivity of the wire and case Cw, Cc. That is to say: Dew + Cc Cw Said smallest cross sectional dimension of the body is preferably not more than 60% of the maximum effective cross sectional dimension of the electrodes.

Conventionally a heating tape of the type described is generally rectangular in lateral cross section. We consider that when such tapes fail it is due to the carbon chains in the electrically conductive rubber adjacent the electrodes breaking down due to them carrying the most current since the smallest cross sectional dimension of the electrically conductive rubber and thus, the highest current density, in said lateral section is in the part of the rubber surrounding the electrodes.

A tape embodying the present invention avoids or reduces the problem of tape failure due to the above cause by locating the smallest cross-section dimension and hence the highest current density as specified above.

The tape may comprise in said lateral section a main body part of electrically conducting material and at each end thereof electrode surrounding parts of greater overall thickness than the main body part and which project transversely relative to the main body part on one side only of the main body part.

The electrode surrounding parts may be of generally circular external configuration in said cross section, one surface of the main body part being tangential to the circular electrode surrounding parts and the other surface of the main body part being parallel to and spaced from said one surface.

Alternatively the tape may include a nonconductive part located between the electrodes of such a configuration as to provide said reduced cross-sectional dimension part. Said part may be a non-conductive insert.

The tape may be of generally constant crosssectional dimension in said lateral section between the electrodes and have an insert of glass fibre or silicone or other semi-flexible solid nonconductive material.

The insert may be generally rectangular in said lateral section and may be located so as to have a layer of conductive material on each side thereof transversely of said section.

In both this and the previous embodiment less conductive rubber is used than if the tape, except for the electrodes, comprised only rubber and hence production is facilitated as a longer length of tape may be made from a given mass of rubber.

In a further alternative there may be embedded within the tape between the electrodes one or more electrically conductive wires which are electrically insulated from the electrically conductive material of the body. This arrangement is advantageous when long tapes are used or where T-junctions are used since it can simplify the wiring of the power circuits.

In a still further alternative the tape may be of constant thickness in said lateral cross section and there being at least one groove formed in the rubber between the electrodes and extending in the transverse direction of the section so as to produce a region of reduced dimension in the electrically conductive material.

In one embodiment a single groove may be provided extending tansversely inwardly from one side surface of the tape to a position adjacent the other side surface and spaced inwardly thereof.

In another embodiment a pair of opposite grooves may be formed one extending inwardly from each of the side surfaces to form a region of reduced thickness in the electrically conductive material between the bottom of the grooves.

In a further embodiment three grooves may be provided, two extending inwardly in a transverse direction of the section from one side surface and the other being located longitudinally between the first mentioned two grooves and extending inwardly in the transverse direction of the section from the other side surface to produce two regions of reduced dimension in a direction extending longitudinally of the lateral section between said other groove and each of the two first mentioned grooves.

The invention will now be described in more detail with reference to the accompanying drawings wherein:-, FIGURE 1 is a lateral cross section through one embodiment of the invention, FIGURE 2 is a similar section through another embodiment of the invention, FIGURE 3 is a similar view through a third embodiment of the invention, FIGURE 4 is a similar view through a fourth embodiment of the invention, FIGURE 5 is a similar view through a fifth embodiment of the invention, and FIGURE 6 is a similar view through a sixth embodiment of the invention.

Referring to Figure 1, an electrically conductive tape is of indefinite length and in a lateral section taken at right angles to the longitudinal extent of the tape is of the configuration shown in Figure 1.

Thus in lateral section the tape comprises a pair of spaced metal wire electrodes 10 embedded in electrically conductive material, 11, 12 such as rubber and preferably rubber of the composition described in our co-pending application No.

20821/77. The electrode surrounding parts 11 are of generally circular configuration and are connected together by a main body part 12 of the tape which is of constant thickness having a first side surface 1 3 which is planar and which extends tangentially to the outer surface of the electrode surrounding parts 11 and a second side surface 14 spaced a constant distance from the first mentioned side surface 1 3 irl a direction transversely of said lateral section and hence also of planar configuration and which extends, as a result, chordally of the electrode surrounding parts 11. The whole tape is surrounded by a nonconductive outer sheath of rubber indicated at 15.

Thus, the main body part 12 of the tape is of less overall thickness than the overall thickness of the tape in the electrode surrounding parts 11.

The resulting cross sectional dimension D of the electrically conductive material of the main body part is less than that D1 + D2, of the electrically conductive material of the annular electrode surrounding part so that the part 12 acts as a current limiting region since the current density will be highest in this region.

In assessing the current density in this, and in the following embodiments, the effective current path is bounded at the electrode by the half cylindrical portion of the electrode/body interface facing the other electrode. Thus the current path has in all the embodiments, a transverse dimension of n/2 times the electrode diameter. In the case of substantially non-circular electrodes the transverse dimension of the part of the interface which bounds the current path can be approximated to one half of the total peripheral extent of the interface.

Preferably the dimension D is not more than 60% of said transverse dimension of the current path.

It is also to be noted that the dimension D is less than the effective maximum cross sectional dimension of the electrodes and is preferably not more than 60% of said effective maximum cross sectional dimension.

The effective maximum cross sectional dimension of the electrodes is, where there are electrodes of different diameter the maximum cross sectional dimension of the smallest electrode.

In the present embodiment, the electrodes comprise a wire electrode 10 which is embedded in a thin case 1 Oa of electrically conductive rubber which is of greater electrical conductivity than the electrode surrounding body part and is made of a material described in our copending application 7917355 claiming priority from U.K. patent application No. 20418/78. In this case the efective maximum cross sectional dimension of the electrode is equal to Cc Dw +Tc(-) Cw where Dw is the wire dimension, Tc is the total thickness of the case and Cc and Cw are, respectively, the conductivity of the case and wire.

Referring to Figure 2 the tape again comprises a pair of wire electrodes 110 embedded in electrically conductive material as described in the first embodiment. A main body part 112 is made, in this case, of the same overall thickness as electrode surrounding parts 111, which in this example are of semi-circular shape, and embedded in the'main body part 112 is a nonelectrically conductive insert 116 which in the present example is made of woven fibre glass cloth but which may be made of any semi-flexible, solid, non-conducting material such as fibreglass in other forms or silicone strip.The dimensions of the insert 1 6 are arranged so that the sum of the thicknesses of the electrically conductive material in the parts indicated at 11 7 is less than the sum of the thickness D, + D2 of the electrically conductive material in the electrode surrounding regions 111 so that the parts 117 act as a current limiting part of the tape.

It will be appreciated that the insert 11 6 may be of other configuration than that described hereinbefore so long as it has the effect of producing current limiting regions of reduced thickness compared with the thickness of the electrically conductive material in the parts 111.

The tape is again enclosed in an outer sheath of non-conductive material such as rubber as indicated at 11 5.

Referring now to Figure 3, in this example the heating tape again comprises two electrically conductive wires 210 embedded in electrically conductive rubber of the same material as described in connection with Figure 1. The wires 210 are embedded in an electrode surrounding part 211 of the rubberofsemi-circular configuration and the main body of the tape comprises a part 212 of constant thickness having planar side surfaces 213 and 214.

Embedded within the main body part 212 are two electically conductive wires 218 which are surrounded by insulating material 219 so that they are insuiated from the body of the tape 212.

If desired, one or more than two such electrically conductive wires may be provided. The insulating material need not be of uniform thickness.

The wires 218 thus define reduced portions 21 7 of the electrically conductive rubber so that these act as current limiting portions in similar manner to the previously described embodiments, since the sum of the thickness of the portions 21 7 is less than the sum of the thickness D, + D2. The whole tape is again enclosed within a sheath of electrically insulating rubber indicated at 215.

Referring now to Figure 4, in this embodiment the tape again comprises two electrically conductive wires 310 surrounded by electrically conductive rubber portions 311 of semi-circular configuration whilst the main body of the tape 312 again has generally planar side surfaces 313 and 314. The electrically conductive rubber of which the parts 311 and 312 are made is as described in connection with the previous embodiments.

In this embodiment a current limiting portion 317 is provided by the presence of grooves 320 and 321. The groove 320 extends inwardly of the tape from the side surface 31 3 in a direction transverse to the lateral section shown in Figure 4 and does of course, extend in the longitudinal direction of the whole tape. The groove 320 is of limited extent in the longitudinal direction of the lateral section. A similar groove 321 extends in the transverse direction of the lateral section from the surface 314 and is aligned with the groove 320 in the longitudinal direction of that section thereby defining a current limiting part 31 7 therebetween of less thickness than the sum of the thickness D, 8 D2.

The tape is again enclosed within a sheath of electrically insulating material 31 5 which also extends within the grooves 320 and 321.

Referring now to Figure 5 an alternative embodiment of the invention relating to that of Figure 4 is shown which again comprises electrode wires 410 surrounded by electrically conductive rubber 411 whilst the main body of the tape is indicated at 412 and the material of which the parts 411 and 412 are made is as described hereinbefore.

In this example s single groove 420 extends inwardly in the transverse direction of the section from the side surface 413 and affords a current limiting portion 41 7 between the bottom end of the groove 420 and the other side surface 414 since the thickness of the portion 417 is less than the sum of the thickness D, + D2.

The tape is again encompassed in a sheath of insulating rubber 415 which extends into the groove 420.

Referring now to Figure 6, a further modification is shown and in this case the tape comprises wire electrodes 510 surrounded by electrically conductive rubber 511 whilst the main body of the tape 512 again has generally planar side surfaces 513 and 514. The material of the parts 511 1 and 512 is as described in the previous embodiments. In this embodiment however two grooves 520 are provided at longitudinally spaced apart positions of the transverse section of the tape, which extend transversely inwardly from the surface 513 towards the other surface 514 whilst longitudinally between the two grooves 520 is provided a further groove 521 which extends transversely inwardly from the surface 514 towards the surface 513.Thus in this case the current limiting portions are as indicated at 51 7 and in this case their dimension in the longitudinal direction of the section is significant i.e. the sum of the distances a - b is less than the sum of the thickness D, + D2 If desired more than 3 grooves may be provided. It will be appreciated that the cross section of the groove may be other than the rectangular configuration described hereinbefore.

The groove or grooves of the embodiments of Figures 4 to 6 could also be filled with a thermally conductive material to improve heat dissipation from the tape, or alternatively, the grooves could be filled with a material of lower conductivity than the main body of the tape in order to modify the overall conductivity.

Although circular wire elements have been described in the above examples the electrodes may be of other shape such as strips or foil as can the electrically conductive wires 21 8.

In all the embodiments described and illustrated above the electrodes are embedded in a thin case of electrically conductive rubber. This may be the same material as the electrode surrounding and main, body parts or may be of different material, for example, material of greater electrical conductivity than the electrode surrounding and main, body parts such as the material described in our co-pending application claiming priority from U.K. Patent Application No.

20418/78.

If desired, however, the electrodes may be embedded directly into the material of the bonding.

It should also be appreciated that combinations of the embodiments described hereinbefore may be provided.

Claims (20)

1. A heating tape of the type described wherein the highest current density in the effective current path between the electrodes as herein defined, is at a location spaced from and intermediate the electrodes.

2. A heating tape of the type described wherein the smallest cross-sectional dimension of the effective current path in a lateral cross-section of the tape is at a location intermediate the electrodes.

3. A heating tape according to Claim 1 or Claim 2 wherein said smallest cross sectional dimension is not more than 60% of the transverse dimension of said part of the interface.

4. A heating tape of the type described wherein the smallest cross sectional dimension of the body between the electrodes is smaller than the maximum effective cross sectional dimension of the electrodes.

5. A heating tape according to Claim 4 wherein said smallest cross sectional dimension of the body is preferably not more than 60% of the maximum effective cross sectional dimension of the electrodes.

6. A tape according to any one of the preceding claims wherein the tape comprises, in said lateral section, a main body part of electrically conductive material and at each end thereof electrode surrounding parts of greater overall thickness than the main body part and which project transversely relative to the main body part on one side only of the main body part.

7. A tape according to Claim 6 wherein the electrode surrounding parts are of generally circular configuration in said cross section, one surface of the main body part being tangential to the circular electrode surrounding parts and the other surface of the main body part being parallel to and spaced from said one surface.

8. A tape according to any one of Claims 1 to 5 wherein the tape includes a non-conductive part located between the electrodes of such a configuration as to provide said reduced crosssectional dimension part.

9. A tape according to Claim 8 wherein said part is a non-conductive insert.

10. A tape according to Claim 9 wherein the tape is of generally constant cross-sectional dimension in said lateral section between the electrodes and has an insert of glass fibre or silicone or other semi-fiexible solid nonconductive material.

1 A tape according to Claim 9 or Claim 10 wherein the insert is generally rectangular in said lateral section and is located so as to have a layer of conductive material on each side thereof transversely of said section.

12. A tape according to any one Claims 1 to 5 wherein there are embedded within the tape between the electrodes, one or more electrically conductive wires which are.electrically insulated from the electrically conductive material of the body.

13. A tape according to any one of Claims 1 to 5 wherein there is at least one groove formed in the electrically conductive material between the electrodes and extending in the transverse direction of the section so as to produce a region of reduced dimension in the electrically conductive material.

14. A tape according to Claim 13 wherein the tape is of constant thickness in said lateral cross section.

15. A tape according to Claim 1 or Claim 14 wherein a single groove is provided extending transversely inwardly from one side surface of the tape to a position adjacent the other side surface and spaced inwardly thereof.

16. A tape according to Claim 13 or Claim 14 wherein a pair of opposite grooves are formed, one extending inwardly from each of the side surfaces, to form a region of reduced thickness in the elecrically conductive material between the bottoms of the grooves.

17. A tape according to Claim 13 or Claim 14 wherein three grooves are provided, two extending inwardly in a transverse direction of the section from one side surface and the other being located longitudinally between the first mentioned two grooves and extending inwardly in the transverse direction of the section from the other side surface to produce two regions of reduced dimension in a direction extending -longitudinally of the lateral section between said other groove and each of the two first mentioned grooves.

18. A tape according to any one of the preceding claims wherein the electrodes areembedded directly in the material of said body.

19. A tape according to any one of Claims 1 to 17 wherein the electrodes are coated with electrically conductive material, which may be of greater electrical conductivity than the material of the body, the coated electrodes being embedded in the material of said body.

20. A tape substantially as hereinbefore described with reference to and as shown in Figure 1 or Figure 2 or Figure 3 or Figure 4 or Figure 5 or Figure 6 of the accompanying drawings.