JP2006216338A - Electromagnetic wave shield tape and cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electromagnetic wave shield tape which can be easily mounted on an existing cable or the like, and that, can well carry out electromagnetic wave shield doing away with a gap between conductors, as well as a cable with the electromagnetic wave shield tape wound around its outer periphery. <P>SOLUTION: The electromagnetic wave shield tape 1 is structured by laminating a hot-melt magnetic tape 5 made by filling a magnetic filler in a hot-melt material on a conductive mesh tape, and melting it for integration. Further, both end edges 3a of the mesh tape 3 stick out of end edges of the hot-melt magnetic tape 5. The electromagnetic wave shield tape 1 is wound spirally around a cable 11 from the vicinity of its one end so that an end edge 3a of the mesh tape 3 overlaps another, whereby, an outer periphery of the cable 11 can be covered with the conductor without any gaps. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an electromagnetic wave shielding tape that shields electromagnetic waves wound around a cable or the like and enters and exits the cable or the like, and a cable around which the electromagnetic wave shielding tape is wound.

Conventionally, it has been considered to cover a cable or the like with a conductor and shield electromagnetic waves entering and exiting the cable or the like (see, for example, Patent Documents 1 and 2).
JP-A-11-185542 JP-A-10-241925

  However, when the cable is covered with a tube-like conductor as in Patent Document 1, the existing cable cannot be shielded with electromagnetic waves later. That is, in this case, it is necessary to remove the existing cable and replace it with a cable covered with a tubular conductor.

  On the other hand, in the technique described in Patent Document 2, since an electromagnetic wave shield can be applied by spirally winding a tape-shaped conductor around a cable, an electromagnetic wave can be easily applied to an existing cable. Can be shielded.

  However, in this case, in order to support the conductor, an insulator having the same width as the conductor is laminated on the conductor, and the following problems arise. That is, when the cable is spirally wound around the outer periphery of the cable, a gap is generated between the edges of the tape-like conductor, and electromagnetic waves enter and exit from this portion. Accordingly, the present invention provides an electromagnetic wave shielding tape that can be easily attached to an existing cable or the like, and that can perform good electromagnetic wave shielding by eliminating a gap between conductors, and the electromagnetic wave shielding tape. Was made for the purpose of providing a cable wound around the periphery.

  The present invention made to achieve the above object is an electromagnetic wave shielding tape obtained by laminating a hot melt tape that is melted by heating and a conductive tape having conductivity, and one or both sides of the conductive tape. Is characterized in that the edge of the protrusion protrudes from the edge of the hot melt tape.

  In this invention comprised in this way, the electromagnetic waves which go in and out of the cable etc. can be shielded by winding a conductive tape around the circumference of a cable etc. spirally. Moreover, if the hot-melt tape laminated | stacked on the electroconductive tape is heated and fuse | melted after the said winding, the position of an electroconductive tape can be fixed and supported. Therefore, the electromagnetic wave shielding tape of the present invention can be easily attached to an existing cable or the like.

  Furthermore, in this invention, since the edge of the one side or both sides of the said conductive tape protrudes from the edge of a hot-melt tape, the said winding can be performed so that the edge of an adjacent conductive tape may overlap. . By doing so, the outer periphery of the cable or the like can be covered with a conductive tape (corresponding to the above-mentioned conductor) without any gap, and electromagnetic wave shielding can be performed very well. In the present invention, it is also easy to connect the edge of the conductive tape protruding from the edge of the hot melt tape to the ground electrode. In this case, the potential of the conductive tape covering the outer periphery of the cable or the like is set to the ground potential. The electromagnetic wave shielding can be performed even better.

  In the present invention, various types of conductive tape can be used as the conductive tape as long as the tape has conductivity. However, the conductive tape may be a wire mesh tape. In this case, by laminating the hot melt tape, there is a further effect that fraying of the mesh can be prevented.

  In the present invention, various types of hot melt tape can be used as long as it melts by heating. However, the hot melt tape may be made of a resin filled with a magnetic filler. In this case, electromagnetic waves entering and exiting the cable or the like can also be absorbed by the magnetic filler filled in the resin. That is, in this case, the reflection of the electromagnetic wave by the conductive tape and the absorption of the electromagnetic wave by the magnetic filler can be carried out in parallel, and the further effect that the electromagnetic wave shielding can be performed more satisfactorily occurs.

  Furthermore, in the present invention, the method for laminating the hot melt tape and the conductive tape is not particularly limited. However, the hot melt tape and the conductive tape are solidified by once melting the hot melt tape. May be attached to each other. In this case, the hot melt tape and the conductive tape can be integrated easily and firmly, and the further effect that the durability of the electromagnetic wave shielding tape can be further improved occurs.

  Moreover, the cable of the present invention is characterized in that the electromagnetic wave shielding tape described in any of the above is spirally wound around the outer periphery. For this reason, the cable of the present invention is covered with the conductive tape without any gap as described above, and the electromagnetic waves entering and exiting the cable are well shielded. Therefore, if the cable of the present invention is used, it is possible to prevent noise from being generated in a signal transmitted through the cable, or to prevent noise from being generated in surrounding circuits due to current transmitted through the cable. Can be done very well.

  Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a plan view showing a configuration of an electromagnetic wave shielding tape 1 to which the present invention is applied. As shown in FIG. 1, the electromagnetic wave shielding tape 1 is formed by laminating a hot-melt magnetic tape 5 (corresponding to a hot melt tape) on a conductive mesh tape 3 (corresponding to a conductive tape) and integrating them. It is constituted by. Further, the edge 3 a on both sides of the mesh tape 3 protrudes from the edge of the hot melt magnetic tape 5. First, the manufacturing method of this electromagnetic wave shielding tape 1 is demonstrated. The manufacturing process of the electromagnetic wave shielding tape 1 includes the following processes.

  (1) Manufacturing process of hot melt magnetic tape 5: There are various methods for manufacturing a magnetic filler. For example, Fe-Si-Cr, Fe-Si-Al, Fe-Ni, and amorphous materials have melted. Manufactured from materials by gas atomization method or water atomization method. Further, if necessary, it may be flattened to a desired aspect ratio using an attritor, and heat treatment for removing distortion may be performed in a nitrogen atmosphere or the like.

  The above is an example of magnetic filler production, but the production method differs depending on the material. For example, if it is a ferrite-type material, after mixing materials and carrying out temporary baking, a magnetic filler is manufactured with a grinding | pulverization and a spray dryer. In addition, it is not limited as a magnetic filler, A various thing can be used.

  This magnetic filler is mixed with a molten hot melt material and coated on a base material 7 (see FIG. 2) made of PET or the like to form a sheet, thereby producing a hot melt magnetic tape 5. As the hot melt material, various materials such as polyester, epoxy, acrylic and urethane can be used.

  (2) Manufacturing process of electromagnetic wave shielding tape 1: Hot melt magnetic tape 5 obtained as described above is placed on commercially available mesh tape 3 as shown in FIG. 2 (A), and shown in FIG. 2 (B). As above, heat press from above and below. By doing so, the hot-melt magnetic tape 5 melts and enters the mesh of the mesh tape 3, and both are firmly integrated.

  After the hot melt magnetic tape 5 is solidified, the electromagnetic wave shielding tape 1 can be obtained by peeling the substrate 7 from the hot melt magnetic tape 5 as shown in FIG. As the mesh tape 3, various types made of conductive yarn, conductive cloth, metal (Cu, Sn plated copper wire) and the like can be used.

  The electromagnetic wave shielding tape 1 configured as described above is used by, for example, spirally winding around an outer periphery of a cable or the like. FIG. 3 is an explanatory view showing an example of mounting the electromagnetic wave shielding tape 1 on the cylindrical cable 11.

  When the electromagnetic wave shielding tape 1 is attached to the cable 11, the electromagnetic wave shielding tape 1 is spirally wound from the vicinity of one end of the cable 11, as shown in FIGS. At the time of winding, as shown in FIG. 3B, the edge 3a of the mesh tape 3 is overlapped.

  When the winding of the electromagnetic wave shielding tape 1 is completed as shown in FIG. 3C, the outer circumference of the cable 11 is subsequently smaller than the outer circumference of the electromagnetic shielding tape 1 after winding as shown in FIG. The electromagnetic wave shielding tape 1 is heated and pressure-bonded to the cable 11 by passing through a heating jig 13 having a hole 13a having a larger diameter.

  By this heating and pressure bonding, the hot melt magnetic tape 5 is once melted and then solidified, and the conductive mesh tape 3 can be fixed at a position slightly spaced from the outer periphery of the cable 11. Then, the electromagnetic wave reflecting and entering the cable 11 can be well shielded by the electromagnetic wave reflecting action by the conductive mesh tape 3 and the electromagnetic wave absorbing action by the hot melt magnetic tape 5. In addition, in this case, since the edges 3a of the mesh tape 3 are overlapped, the outer periphery of the cable 11 can be covered with a conductor (mesh tape 3) without any gap, and electromagnetic wave shielding can be performed very well.

  Therefore, in the cable 11 covered with the electromagnetic wave shielding tape 1 in this way, noise is prevented from being generated in a signal transmitted through the cable 11, or a surrounding circuit or the like is generated by a current transmitted through the cable 11. It is very good to prevent noise from being generated. Moreover, since the electromagnetic wave shielding tape 1 can be attached to the cable 11 by being spirally wound as described above, it can be easily attached to the existing cable 11.

  Further, in the electromagnetic wave shielding tape 1, the edge 3 a of the mesh tape 3 protrudes from the edge of the hot melt magnetic tape 5 as described above. For this reason, as shown in FIG. 4A, if the edge 3a is brought into contact with the casing 15 as a ground electrode, the potential of the mesh tape 3 is maintained at the ground potential and electromagnetic wave shielding is performed better. be able to.

  Further, as shown in FIG. 4B, the electromagnetic wave shielding tape 1 can be used by being wound around the flat cable 17 with its longitudinal direction aligned with the axial direction of the flat cable 17. Also in this case, the end edge 3a can be connected to the earth electrode via the eyelet 21, the ground wire 23, and the screw 25, and the mesh tape 3 is maintained at the earth potential as described above, and is extremely good. Electromagnetic wave shielding can be performed.

  In addition, this invention is not limited to the said embodiment at all, It can implement with a various form in the range which does not deviate from the summary of this invention. For example, instead of the hot melt magnetic tape 5, a general hot melt tape that does not include a magnetic filler may be used. Further, various conductive tapes such as a tape made of a metal foil can be used instead of the mesh tape 3. Also in this case, for example, when the holes are uniformly formed in the metal foil, the metal foil and the hot melt tape are made solid by melting the hot melt tape and penetrating the holes. As in the above embodiment, it can be firmly integrated.

  However, in the conductive tape of the present invention, it is not always necessary to have the mesh or the hole, and at least one side edge of the conductive tape protrudes from the edge of the hot melt tape and is laminated with the hot melt tape. It only has to be. Also in this case, as described above, the outer periphery of the cable 11 or the like can be covered with the conductive tape without a gap. Furthermore, the electromagnetic wave shielding tape of the present invention can be used for electromagnetic shielding applications by covering various members other than cables.

It is a top view showing the structure of the electromagnetic wave shielding tape to which this invention was applied. It is explanatory drawing showing the manufacturing method of the electromagnetic wave shield tape. It is explanatory drawing showing the example of mounting | wearing with the cable of the electromagnetic wave shielding tape. It is explanatory drawing showing the example of mounting | wearing using the earth | ground of the electromagnetic wave shielding tape.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Electromagnetic shielding tape 3 ... Mesh tape 3a ... Edge 5 ... Hot-melt magnetic tape 11 ... Cable 17 ... Flat cable

Claims (5)

Hot melt tape that melts by heating;
A conductive tape having conductivity;
An electromagnetic shielding tape formed by laminating
An electromagnetic wave shielding tape, wherein an edge of one side or both sides of the conductive tape protrudes from an edge of the hot melt tape.   The electromagnetic shielding tape according to claim 1, wherein the conductive tape is a wire mesh tape.   3. The electromagnetic wave shielding tape according to claim 1, wherein the hot melt tape is made of a resin filled with a magnetic filler.   The electromagnetic wave shielding tape according to any one of claims 1 to 3, wherein the hot melt tape and the conductive tape are attached to each other by once melting and solidifying the hot melt tape.   A cable, wherein the electromagnetic wave shielding tape according to any one of claims 1 to 4 is spirally wound around an outer periphery.