CN106030725A - Flat cable - Google Patents

Abstract

A flat cable includes a plurality of coaxial cables mutually arranged in parallel, wherein in the coaxial cable, a cross-sectional area of a central conductor is 0.006 mm2 or less, and an insulating film having a base material, and a thermoplastic adhesive layer formed on the base material. The insulating film is stuck on only one side of a parallel plane of the plurality of coaxial cables, and the plural coaxial cables are fixed to the thermoplastic adhesive layer.

Description

Flat cable

Technical field

The present invention relates to a kind of flat cable with coaxial cable.

Background technology

There is flat cable to be bent and carry out cloth according to the routing path of flat cable The situation of line.Under normal circumstances, FPC (flexible printed circuit board) is used to perform wiring, But in the case of transmission high-speed electrical signals, there is the restriction of communication speed or distance.As Solution, it may be considered that use the coaxial cable with good high-speed transfer performance.Such as, In patent documentation 1, in order to each coaxial cable constituting flat cable is stopped up, first First, many coaxial cables are arranged in same level, and flexible adhesives is applied to Coax cable center is neighbouring and solidifies.Then, fold the end of each coaxial cable, utilize Folded portion needed for adhesive tape fixed fold part, and formation.

Reference listing

Patent documentation

[patent documentation 1] JP-A-2010-218832

Summary of the invention

Technical problem

In the method utilizing the binding agent described in patent documentation 1 to be fixed, viscous in solidification While mixture, the part of binding agent may flowing and the causing coaxial cable that arranges Position deviation.In this case, the distance change between each coaxial cable, consequently, it is possible to Become the work being difficult to be connected with the terminal of substrate or adapter.Additionally, utilizing two In the case of root coaxial cable carries out Diversity Transmit, the length difference between coaxial cable may make Time deviation characteristic declines.

Additionally, in the case of using this technology, it is difficult to the applied amount making binding agent is stable, And the time needed for Gu Hua is more than one day, thus it is not suitable for producing in enormous quantities, and only For small lot batch manufacture.

Solution includes the most constructed as below: utilize adhesive from the coaxial electrical being arranged in parallel Two surface mount base materials of cable.But, in this configuration, the adhesive portion of base material is thickening And the most hardening, consequently, it is possible to become to be difficult to arrange coaxial cable according to routing path.Such as, When folding the adhesive portion of base material, include the thickness of the base material being positioned on two surfaces Folding laminated portions thickening so that folded state is easily because of coaxial cable and be positioned at two The restoring force of the base material on surface and be released from.

In order to obtain flexibility, need only to be pasted onto in a face side, but in this case, Adhesive is exposed on outside.In this case, it may occur that the adhesion of such as foreign body etc. are secondary Shortcoming.

It is an object of the invention to provide a kind of thin and flexible flat cable, this flat cable Gluing can not be exposed while the range deviation prevented between each coaxial cable Agent.

The technical scheme of solution problem

A kind of flat cable according to the present invention, including:

Many coaxial cables, it is arranged parallel to each other, in coaxial cable, center conductor Cross-sectional area be 0.006mm²Below；And

Dielectric film, it has base material and the thermoplastic adhesive layer being formed on base material,

Wherein, dielectric film is only adhered on the plane-parallel side of many coaxial cables, And many coaxial cables are fixed to thermoplastic adhesive layer.

Beneficial effects of the present invention

According to the present invention it is possible to provide a kind of thin and flexible flat cable, this flat cable Gluing can not be exposed while the range deviation prevented between each coaxial cable Agent.

Accompanying drawing explanation

Fig. 1 is the top view of flat cable according to an embodiment of the invention.

Fig. 2 is the cross-sectional view of the line E-E intercepting along the flat cable shown in Fig. 1.

Fig. 3 shows the top view of the modified example 1 of flat cable.

Fig. 4 is the organigram manufacturing equipment of the flat cable shown in Fig. 3.

Fig. 5 A and Fig. 5 B is the behaviour describing the block structure body being formed in flat cable process portion The view made.

Fig. 6 shows the top view of the modified example 2 of flat cable.

Detailed description of the invention

[summary of each embodiment of the present invention]

First, by the general introduction of explanation various embodiments of the present invention.

(1) include according to the flat cable of the exemplary embodiment of the present invention:

Many coaxial cables, it is arranged parallel to each other, in coaxial cable, center conductor Cross-sectional area be 0.006mm²Below；And

Dielectric film, it has base material and the thermoplastic adhesive layer being formed on base material,

Wherein, dielectric film is only adhered on the plane-parallel side of many coaxial cables, And many coaxial cables are fixed to thermoplastic adhesive layer.

According to the structure of (1), in the case of coaxial cable is arranged abreast, dielectric film is only It is adhered on the plane-parallel side of coaxial cable, in coaxial cable, center conductor Cross-sectional area be 0.006mm²Below.As a result, it is possible to prevent the thickness of flat cable Increase, it is possible to obtain the flat cable thinner and softer than conventional flat cable.Therefore, For example, it is possible to perform cloth in the case of whole flat cable is domed according to routing path Line.Additionally, because each coaxial cable all can be fixed to paste dielectric film parallel On the parallel plane of the many coaxial cables arranged, so in the case of fixing step, can To prevent the range deviation between each coaxial cable.Additionally, because the present invention's is flat Flat cable has thermoplastic adhesive layer, so being exposed to coaxial cable side or being positioned at coaxial Adhesive phase between cable keeps following state: except heating and fusing cable time it Outward, adhesive phase does not have adhesion characteristic in the normal use time.As a result, example will not be produced The secondary shortcomings such as the adhesion such as foreign body.

(2) edge while each coaxial cable is all positioned in parallel within parallel plane Under the state of equidirectional bending, dielectric film can only be adhered on plane-parallel side.

According to the structure of (2), with the part that each coaxial cable is fixed to its straight state The structure carrying out folding is compared, and the thickness of the sweep of each coaxial cable can be thinning, And sweep can be with deliquescing.

(3) part for coaxial cable can be in close contact with base material, and coaxial cable is another A part can be exposed from thermoplastic adhesive layer.

According to the structure of (3), thinner and softer flat cable can be obtained.Pasting absolutely In the case of velum, do not worry that the thermoplastic adhesive layer of fusing or deliquescing is attached to other Parts.

(4) sheath of formation coaxial cable can be brought by being wound around polyester adhesive.

The sheath of coaxial cable needs the material to thermoplastic adhesive layer with good affinity Material, and be securely fixed.Such as, to by polyester tape being spirally wound two circles For the sheath formed above, at heating and the thermoplastic adhesives of profiled insulation film again In the case of Ceng, sheath is securely affixed to adhesive phase, additionally, thermoplastic adhesives Layer enters the gap between the spiral winding portion of sheath, thus improves adhesive force.

Therefore, polyester tape the sheath formed is securely affixed to the thermoplasticity of dielectric film Adhesive phase.Result, it is also possible to prevent the range deviation between each coaxial cable.

(5) base material of dielectric film can be polyester, and thermoplastic adhesive layer can be polyester Binding agent.

According to the structure of (5), because the thermoplastic adhesive layer of dielectric film and coaxial cable Sheath formed by the material of same type, so thermoplastic adhesive layer and sheath hold each other Easily adhere to each other.As a result, each coaxial cable is all fixed tightly by dielectric film, and It is possible to prevent to produce range deviation.

[details of each embodiment of the present invention]

Hereinafter, by with reference to the accompanying drawing reality to the embodiment of the flat cable according to the present invention Example is described.

As depicted in figs. 1 and 2, flat cable 1 includes: many (in this example being five) Coaxial cable 10, it is arranged to flat state abreast；And dielectric film 20, it covers flat Five coaxial cables 10 that row is arranged.In flat cable 1, each coaxial cable 10 all exists Extend while remaining state that is the most parallel and that be equally spaced, and with rectilinear form It is formed in the intra-zone being arranged in parallel.In each coaxial cable 10, from dielectric film 20 In expose a terminal part 11A and another terminal part 11B.These terminal parts 11A and 11B It is soldered to substrate, to form the terminal part connected.Additionally, these terminal parts 11A Adapter can be attached with 11B.

Coaxial cable 10 includes center conductor 11, interior insulator 12, outer conductor 13 and sheath 14.Interior insulator 12 is formed on the periphery of center conductor 11.In outer conductor 13 is formed at On the periphery of insulator 12.Sheath 14 is formed on the periphery of outer conductor 13.

Center conductor 11 is made up of metal wires such as such as copper cash.Such as, use than AWG (U.S. State line rule) the thin conductor of conductor as center conductor 11.It is to say, use cross section Area is 0.006mm²Following conductor is as center conductor 11.

Interior insulator 12 and sheath 14 are made up of insulating resin.By being wound around such as polyester adhesive Bring formation sheath 14.Sheath 14 needs the material being in close contact with thermoplastic, and can To be formed by fluorubber such as extruded such as THV.Sheath 14 has such as The external diameter of below 0.30mm.

Dielectric film 20 includes base material 21 and thermoplastic adhesive layer 22.Dielectric film 20 is heat Plastic-bonded oxidant layer 22 is formed on the thin film on a side surface of base material 21, and The thickness of dielectric film 20 is formed as such as 50 μm to 75 μm.Dielectric film 20 be only pasted onto by On the side of the parallel plane 10a of five coaxial cable 10 formation.Dielectric film 20 is by such as Thermoprint part (hot stamp) or pair of rolls heat and pressurization, thus paste coaxial cable 10 Parallel plane 10a on.

The base material 21 of dielectric film 20 is by resin (such as, the polyester) structure with insulating properties Become.The thickness of base material 21 is formed as such as 8 μm to 20 μm.Thermoplastic adhesive layer 22 It is made up of the binding agent of such as epoxy resin, acrylic resin or polyamide.Thermoplastic bonded The thickness of oxidant layer 22 is formed as such as 30 μm to 67 μm.Each coaxial cable 10 is all consolidated Determine to thermoplastic adhesive layer 22, and a part for coaxial cable 10 is embedded to thermoplasticity and glues In mixture layer 22.In the case of coaxial cable is pasted as shown in Figure 2, thermoplasticity is glued It is less than the diameter of coaxial cable 10 that mixture layer is preferably set to thickness.In other words, it is preferable that Ground, a part for coaxial cable contacts with base material, and another part of coaxial cable is from thermoplastic Property adhesive phase exposes.

In a usual manner the many coaxial cables being arranged in parallel are being fixed in flat cable In the case of, base material is stuck and is fixed into: from the plane-parallel vertical both sides of coaxial cable The parallel plane of coaxial cable is clamped in centre.But, in this configuration, because base material It is adhered on plane-parallel vertical side, so flat cable is the most thickening and the most hardening. In this flat cable, may become to be difficult to arrange coaxial cable according to routing path. When folding the adhesive portion of base material along the direction intersected with parallel plane, including being pasted onto two The thickness of the base material on individual surface is thickening in interior folding laminated portions, thus extensive because of base material Multiple power and become to be difficult to keep folded state.

On the other hand, according to the flat cable 1 of the present embodiment, at coaxial cable 10 abreast In the case of layout, dielectric film 20 only pastes the side of the parallel plane 10a of coaxial cable On, in coaxial cable 10, the cross-sectional area of center conductor 11 is 0.006mm²Below. As a result, it is possible to prevent the thickness of flat cable 1 from increasing, it is possible to obtain than conventional flat electricity The flat cable 1 that cable is thinner and softer.It is thus possible to improve according to routing path bending soft Property, and such as can be easily performed cloth in the case of whole flat cable 1 is domed Line.

Additionally, according to the flat cable 1 of the present embodiment, the sheath 14 of coaxial cable 10 with And the thermoplastic adhesive layer 22 of dielectric film 20 is formed by the material of same type, to improve Bond properties.As a result, such as, by while using thermoprint part, roller etc. to heat Paste dielectric film 20, can be while guaranteeing pliability and thinness, only by each coaxial electrical Cable 10 is securely affixed on a surface of dielectric film 20.

Additionally, as it has been described above, by paste dielectric film 20 and fix each coaxial cable 10, It is possible to prevent in the case of the step of fixing coaxial cable 10 coaxial each be arranged in parallel Appearance distance deviation (deviation of the coaxial cable such as, produced because of bending) in cable 10. As a result, for example, it is possible to be easily accomplished by the terminal part 11A of each coaxial cable 10 and 11B be soldered to the work in the case of substrate or adapter is attached to terminal part 11A and Work in the case of 11B.Additionally, dielectric film 20 is being pasted on coaxial cable 10 Afterwards, when the marginal portion (residual part in the direction of the width cutting and removing dielectric film 20 Point) time, there is not the bending part produced because of range deviation such that it is able at cutting edge Prevent coaxial cable 10 impaired in the case of edge portion.Furthermore, it is possible to prevent because each coaxial Length difference between cable 10 and the time deviation characteristic in the case of Diversity Transmit that causes Decline.

Exist furthermore, it is possible to there is the thermoplastic adhesive layer 22 of short hardening time by use In short time, each coaxial cable 10 is fixed to dielectric film 20.As a result, at fixing coaxial electricity After cable 10, the exposing surface of thermoplastic adhesive layer 22 does not have adhesion characteristic.Cause This, be possible to prevent foreign body be attached to coaxial cable 10 in the side not covered by base material 21 On periphery.

Therefore, dielectric film 20 is only adhered to the side table of the coaxial cable 10 being arranged in parallel On face, but thermoplastic adhesive layer 22 is securely affixed to sheath 14, and coaxial cable Between gap filled by thermoplastic adhesive layer 22, such that it is able to keeping thinness and softness Five coaxial cables 10 it are securely fixed while degree.

(modified example 1)

It follows that by with reference to each accompanying drawing modified example 1 (flat cable 2) to flat cable 1 It is described.

As it is shown on figure 3, in the flat cable 2 of modified example 1, each coaxial cable 10 Sweep 30a and 30b being positioned at two positions all bends, and flat be arranged in parallel Face is formed as crank shape.In this example, the direction X shown in Fig. 3 be each coaxial The direction that cable 10 extends, and it is referred to as longitudinal X of coaxial cable 10.Flat cable 2 Each coaxial cable 10 all keep while equidistance on longitudinal X the most substantially Identical position bends in same direction, and does not the most change and be arranged in parallel Coaxial cable 10 parallel plane in arrangement order.The sweep of coaxial cable 10 The angle of bend of 30a and 30b is configured to arbitrarily angled.In this example, each coaxial electrical Sweep 30a and 30b being positioned at two positions of cable 10 is respectively with the angle of about 60 ° Bend in opposite direction.

Dielectric film 20 is formed as crank shape along the external shape of the layout of coaxial cable 10, To cover all five coaxial cables 10 bent.Dielectric film 20 is only adhered to coaxial electrical On the side of the parallel plane 10a of cable 10 (see Fig. 2).

It follows that the manufacture method of flat cable 2 will be described with reference to each accompanying drawing.

The manufacture equipment 40 shown in Fig. 4 of use manufactures flat cable 2.In the diagram, from same The each coaxial cable 10 that each supply spool 51 of shaft cable supply department 41 is released is by coaxially Cable aligned portions 42 is aligned to parastate, and is provided to process portion 43 subsequently.

In process portion 43, utilize the block structure body 60 shown in Fig. 5 A and Fig. 5 B parallel Plane bends coaxial cable 10.Specifically, as fig. 5 a and fig. 5b, at each Coaxial cable 10 is received under the state within trench portions 61a and 62a, the first alignment Block 61 is along the direction intersected with the longitudinal direction of trench portions 61a and 62a (in accompanying drawing downwards To) move relative to the second alignment block 62.Therefore, trench portions 61a and 62a it are accommodated in Internal coaxial cable 10 is by the first alignment block 61 cross directional stretch, and the angle with about 60 ° is curved Bent.

Subsequently, dielectric film 20 is supplied the upside of the parallel plane 10a to coaxial cable 10. Press on coaxial cable 10 by moving down heating plate from upside and add opaque film 20.Therefore, only dielectric film 20 is pasted onto coaxial cable 10 parallel plane 10a one On side, and utilize thermoplastic adhesive layer 22 fixing coaxial cable 10.

The flat cable processed through process portion 43 is wrapped on the spool 52 of wound portion 44 (see Fig. 4).By the strip-like flat being wrapped on spool 52 cable is cut into pre-fixed length Degree obtains the flat cable 2 (see Fig. 3) with following sweep 32a and 32b: should Sweep 32a and 32b is positioned at two positions and the angle with about 60 ° is the most curved Bent.

Flat cable 2 according to modified example 1, because each coaxial cable 10 is all formed as tool There are routing path bent portion 30a the most and the shape of 30b bending, so in bending In the case of the routing path of coaxial cable 10, it is not necessary to bending coaxial cable 10 again.Knot Really, must bend with causing the part so that routing path with the feelings at bending routing path The flat cable structure being folded under condition is compared because coaxial cable not to be layered in other coaxial Extend on cable, so sweep can be with deliquescing and lower thickness.

(modified example 2)

It follows that by with reference to each accompanying drawing modified example 2 (flat cable 3) to flat cable 1 It is described.

As shown in Figure 6, in flat cable 3, coaxial cable 10 be positioned at a position Sweep 30c bending, and be formed as in the plane being arranged in parallel letter L shape. Each coaxial cable 10 of flat cable 3 is all keeping mutually the same position relationship and holding Bend in same direction while equidistance, and do not change at coaxial cable 10 parallel flat Arrangement order in face.The angle of bend of the sweep 30 of coaxial cable 10 is random angle Degree (is about 90 °) in this example.As shown in Figure 6, coaxial cable 10 can bend to Circular shape, and straight part can have the angle of about 90 °.With similar with examples detailed above Mode, dielectric film 20 is formed as letter L along the external shape of the layout of coaxial cable 10 Shape, and be only secured on the side of parallel plane 10a.Flat electricity at this example In cable, coaxial cable is assembled in predetermined groove, and is using thermoprint part, roller etc. to carry out Dielectric film 20 is pasted while heating, from the manufacture change without there is arbitrary shape, and And flat cable can be manufactured with low cost high-volume.Coaxial cable 10 can bend, it is possible to To be aligned and to be affixed directly on the thermoplastic adhesives on base material.

Same in the flat cable 3 of the shape having as shown in modified example 2, can with The mode that examples detailed above is similar makes sweep deliquescing and makes thinner.

[example]

Each flat cable in above-mentioned flat cable 1 to 3 is carried out constant temperature test and end End portion treatment is assessed.

(test sample and assessment sample)

Above-mentioned flat cable 1 to 3 is set to target sample.

Use and there is 44AWG and cable that external diameter is 0.26mm as coaxial cable 10. Use following thin film as dielectric film 20: this thin film have base material 21 that thickness is 20 μm with And the thermoplastic adhesive layer 22 that thickness is 55 μm.In flat cable 1 to 3 each The thickness of flat cable is 0.28mm.

(constant temperature test)

By flat cable in each constant temperature chamber in the constant temperature chamber of-40 DEG C, 65 DEG C and 95 DEG C After 1 to 3 keeps 96 hours, observe the state of each parts.

(test result)

In all flat cables 1 to 3, there is not breaking in thermoplastic adhesive layer 22 Splitting and the peeling of base material 21, each coaxial cable 10 is all fixed by dielectric film 20 and is not had Abnormal.

(terminal part processes assessment)

In the end of flat cable 1 to 3, irradiate putting down as coaxial cable 10 with laser The width of line direction, burns dielectric film 20 and the sheath 14 of coaxial cable 10, and goes Except terminal part.

By the outer conductor exposed by removing dielectric film 20 and sheath 14 of coaxial cable 10 13 are immersed in welding bath, and weld each outer conductor 13.

(assessment result)

Laser can be utilized to be burnt together with sheath 14 by dielectric film 20.Furthermore, it is possible to one With removing burned dielectric film 20 and sheath 14.

Do not have removed dielectric film 20 and sheath 14 in coaxial cable 10 will not be because of cuttings And impaired, and outer conductor 13 can be welded.

Additionally, this invention is not limited to above-described embodiment, and can suitably and freely carry out Amendment, improvement etc..It addition, the material of parts in above-described embodiment, shape, size, The position etc. of numerical value, form and quantity and all parts is selected freely and is not subject to Limit, as long as the present invention can be realized.

Reference numerals list

1,2,3: flat cable

10: coaxial cable

10a: parallel plane

11: center conductor

14: sheath

20: dielectric film

21: base material

22: thermoplastic adhesive layer

30a, 30b, 30c: sweep

The longitudinal direction of X: coaxial cable

Claims (5)

1. a flat cable, including:

Many coaxial cables, it is arranged parallel to each other, in described coaxial cable, center The cross-sectional area of conductor is 0.006mm²Below；And

Dielectric film, it has base material and forms thermoplastic adhesive layer on the substrate,

Wherein, described dielectric film is only adhered to the plane-parallel of described many coaxial cables On side, and described many coaxial cables are fixed to described thermoplastic adhesive layer.

Flat cable the most according to claim 1, wherein, each described coaxial electrical The shape that cable bends while being all positioned in parallel within described parallel plane in same direction Under state, described dielectric film is only adhered on described plane-parallel side.

Flat cable the most according to claim 1 and 2, wherein, described coaxial cable A part contact with base material, and another part of described coaxial cable is from thermoplastic adhesives Expose in Ceng.

Flat cable the most according to any one of claim 1 to 3, wherein, passes through It is wound around polyester adhesive and brings the sheath forming described coaxial cable.

Flat cable the most according to claim 4, wherein, described dielectric film described Base material is polyester, and described thermoplastic adhesive layer is polyester binder.