JPS6222970Y2 - - Google Patents

Description

[Detailed Description of the Invention] This invention relates to a connection structure for lead laminate tape.

Recently, lead-laminated cables with excellent water resistance, chemical resistance, and shielding properties have been developed by covering the cable core with lead-laminated tape.

Fig. 1 shows the structure of this lead laminated cable, in which a plurality of cable cores 1 are wrapped with a pressing tape 2, and a lead laminate tape 3 is placed on top of this.
At the same time, both edges of the lead laminate tape 3 are overlapped to wrap the cable core 1, and a cable sheath 4 (outer covering) made of a thermoplastic material such as polyethylene is further wrapped around the outside of this lead laminate tape.
It is covered with

Further, as shown in FIG. 2, the lead laminate tape 3 has a lead tape 5 (lead alloy tape) with a
A reinforcing resin tape 6 made of a resin (for example, polyester) that does not melt due to the heat generated when extruding the cable sheath 4 and has a higher tensile strength than lead.
The cable sheath 4 is laminated with an adhesive resin tape 7 made of a resin (for example, ionomer) that has good adhesiveness to the cable sheath 4.

Conventionally, the above-mentioned lead laminate cable has been manufactured by the method shown in FIGS. 3A and 3B.

That is, a lead laminate tape 3 of a certain length (fixed length) wound around a bobbin 8 or the like is vertically applied to the cable core 1 being fed, and fed into the vertical forming machine 9 to form the cable core 1 into a lead laminate. The cable core 1 wrapped with tape 3 is then fed into a jacket extruder 10 to cover the cable sheath 4.

In addition, when producing a lead-laminated cable with the lead-laminated tape 3 attached vertically in a length longer than the standard length of the lead-laminated tape 3, the third
As shown in Figure B, it is necessary to connect the lead laminate tape 3. In other words, the rear end 3a' of the preceding lead laminate tape 3a that has been fed out for a fixed length is connected to the leading end 3b' of the subsequent lead laminate tape 3b that is fed out next. From the viewpoint of water resistance, chemical resistance, shielding properties, etc., the lead tapes 5a and 5b of both lead laminate tapes 3a and 3b had to be connected to each other without any gaps.

FIG. 4 shows an example of a conventional connection structure, and shows a portion where a leading end 3b' of a succeeding lead laminate tape 3b is overlapped with a rear end 3a' of a leading lead laminate tape 3a. At this time, the leading end 3b' of the succeeding lead laminated tape 3b has the end face 13 of the lead tape 5b protruding beyond the end face 11 of the reinforcing resin tape 6b, and the adhesive resin tape 7b of the succeeding lead laminated tape 3b is Lead laminate tape 3
The lead tapes 5a and 5b are connected to each other by adhesive such as solder, ultrasonic waves, etc., and the lead tapes 5a and 5b are stacked on the rear end of the lead tape 5a of the preceding laminated tape 3a. The adhesive resin tape 7b of the subsequent lead laminate tape 3b superimposed on the tape 5a was melted by the heat during extrusion molding of the sheath 4, and was designed to be thermally fused to each other.

However, since the lead tapes 5a and 5b are weak against heat and tension, the tension increases due to the increase in frictional force during longitudinal bonding, especially when passing through the longitudinal bonding forming machine, and the lead tapes 5a and 5b are easily damaged by the subsequent lead laminate. Problems such as the protrusion 14 (the part indicated by arrow A in the figure) of the lead tape 5b of the tape 3b breaking occurred, which became a problem in manufacturing long cables.

The present invention was developed in consideration of the above circumstances, and by covering only the lead tape part of the subsequent tape with reinforcing adhesive tape, it not only ensures the tensile strength of the lead tape but also improves heat resistance. The purpose is to provide an excellent lead laminate tape connection structure.

This invention will be explained below based on an embodiment shown in FIGS. 5A and 5B. In addition, the parts in the figure that are common to those in FIG. 4 are given the same reference numerals, and the description thereof will be omitted below.

What is indicated by the reference numeral 20 is a reinforcing tape that covers the lead tape 14 that is made to protrude from the tip of the following lead laminate tape 3b. This reinforcing tape 20
is made of a material (such as polyester, polyamide, polyamide-imide, or polyimide) that has excellent heat resistance and higher tensile strength than lead, and is made of an adhesive that spans the preceding lead laminate tape 3a and the following lead laminate tape 3b. It is attached by etc. In one embodiment, as shown in FIG. 5B, the length L ₁ of the reinforcing part 21 glued onto the succeeding lead laminate tape 3b and the connecting part 22 glued onto the leading lead laminate tape 3a.
The length L ₂ is approximately the same length, and the end portion 23 of the reinforcing portion 21 is overlapped with the reinforcing resin tape 6b of the subsequent lead laminate tape 3b via the lead tape 5b. It has been extended to a position where In addition, the preceding lead laminate tape 3a,
The mutually overlapping ends of the subsequent lead laminate tape 3b and the reinforcing tape 20 are inclined so that the edges of each layer of tape are at the same inclination angle θ with respect to the longitudinal direction of the tape. The inclination angle θ is approximately 45°≦θ with respect to the longitudinal direction.
The range is ≦60°.

As will be described later, the inclination angle θ prevents the tape cross-sectional area from changing rapidly at the joint between the laminate tapes where the preceding laminate tape transitions to the subsequent laminate tape, and thereby improves the vertical splicing. This prevents local stress concentration from occurring on the lead tape during molding or when running it under a predetermined tension for longitudinal mounting, thereby preventing damage to the tape during molding. However, the parts where the leading and trailing laminate tapes overlap each other are more rigid than other parts, which causes slight changes in the formability during longitudinal splicing and in the flexibility of the completed cable. Therefore, care should be taken to keep the overlap between the laminated tapes to a minimum.

Considering the above points, it is preferable that the inclination angle θ is selected to be 45°≦θ≦60° as described above.

In addition, according to the applicant's experimental example, when the length L ₃ of the lead tape 5b protruding from the subsequent lead laminate tape 3b is 10 mm≦L ₃ ≦30 mm, it has been confirmed that a sufficient electrical connection can be made. It was done.

Moreover, the preceding lead laminate tape 3a of the adhesive resin tape 7b of the following lead laminate tape 3b
The overlapping length L ₄ is 20 mm according to a similar experimental example.
It was confirmed that when ≦L ₄ ≦30 mm, the sheath etc. could be fused with sufficient strength by the heat during extrusion molding.

As mentioned above, if a material with excellent heat resistance is used as the reinforcing tape 20 that covers the protruding lead tape, the degree of influence of heat on the lead tape can be reduced during extrusion molding of the sheath. be able to.

As is clear from the above description, in this invention, an inclination angle θ is given to each end of the laminated tapes to be connected, and at the joints between the preceding and succeeding laminated tapes, the lead tapes are also connected to each other. The reinforcing tape that is pasted over the tape should have the same inclination angle θ as the end of the laminate tape at its front and rear ends, and the protruding length of the lead tape in the subsequent laminate tape should be selected to be 10 to 30 mm. The length of the adhesive resin tape overlapping the leading laminated tape in the tape should be selected to be 20 to 30 mm. By providing the above-mentioned essential configurations, it becomes possible not only to simply absorb the tension applied to the connection part with the reinforcing tape, but also to make the connection with the previous one. This prevents abrupt changes in the tape cross-sectional area at the joint when transitioning from one laminated tape to the next, which makes it possible to avoid a predetermined change in the tape cross-sectional area when forming in a longitudinal-forming machine or for longitudinal-forming. When running under tension, stress concentration is prevented from occurring locally on the lead tape, and the lead tape is prevented from being damaged due to an increase in the frictional force received from the vertical splicing machine during lead laminated cable production. This will prevent any inconvenience.

In addition, by providing the above-mentioned essential configurations, the required mechanical connection strength and electrical connection are ensured, and furthermore, by providing the above-mentioned essential configurations, the laminated tape This prevents the formation of a step facing the running direction on the outer surface (lower surface in FIG. 2 of the present application), and allows smooth passage through the vertical splicing machine and the jacket extrusion machine without any hitch. The effects obtained and the synergistic effects of the above actions and effects make it possible to produce high-quality lead laminate cables.

[Brief explanation of the drawing]

Figure 1 is an explanatory diagram of the lead laminate cable, Figure 2 is an explanatory diagram of the lead laminate tape, Figure 3 is A,
B is an explanatory diagram of the manufacturing process of lead laminate cable,
FIG. 4 is an explanatory diagram showing a connection part of a conventional lead laminate tape, and FIG. 5 shows an embodiment of the present invention, in which A is a side view and B is a plan view. 3...Lead laminate tape, 3a... Leading lead laminate tape, 3b... Following lead laminate tape, 4... Cable sheath (outer covering),
5, 5a, 5b...Lead tape (lead alloy tape),
6, 6a, 6b...reinforcing resin tape, 7, 7
a, 7b... adhesive resin tape, 11, 13...
End face, 14... Protruding part, 20... Tape for reinforcing part, 21... Reinforcing part, 22... Connection part, 23...
End, 3a'...rear end, 3b'...tip.

Claims (1)

[Scope of utility model registration request] A reinforcing resin tape 6a, 6b having a higher tensile strength than the lead tape is placed on one side of the lead tape 5a, 5b.
is laminated, and adhesive resin tapes 7a and 7b made of resin with good adhesion to the sheath are laminated on the outer surface of this reinforcing resin tape. It has a structure in which lead laminate tapes 3a and 3b are connected by overlapping their ends, and the edge of the leading lead laminate tape 3a has a predetermined angle of inclination with respect to the longitudinal direction of the tape. The ends of the subsequent lead laminate tapes 3b are cut in a straight line at θ, while the ends of the subsequent lead laminate tapes 5b are made to protrude more than the other tapes, and the edges of each tape are the same as those of the preceding lead laminate tapes. Cut at an inclination angle θ, the protruding lead tape 14 of the succeeding lead laminate tape and the adhesive resin tape 7b are closely stacked on the lead tape 5a of the preceding lead laminate tape, and this superposed subsequent lead tape Reinforcement is made from above the laminate tape to span over each lead tape of the preceding and following lead laminate tapes, and has a higher tensile strength than the lead tape and has the same inclination angle θ as the end of each lead laminate tape at the front and rear ends. The adhesive tapes 20 are overlapped and bonded together, and the protrusion length of the lead tape of the subsequent lead laminate tape is selected to be 10 to 30 mm, and the preceding lead laminate of the resin tape for adhesion of the subsequent lead laminate tape is selected. The length of the reinforcing tape 20 overlapping the tape is selected to be 20 to 30 mm, and furthermore, the rear end of the reinforcing tape 20 overlaid on the following lead laminate tape is overlapped with the reinforcing resin tape of the following lead laminate tape. A lead laminated tape connection structure featuring: