JP5236136B2 - Flat cable covering material and flat cable using the same - Google Patents

Description

  The present invention relates to a covering material for a flat cable and a flat cable using the same, and more particularly, a tape-like covering material that is covered by thermal bonding so that the conductor of the flat cable is sandwiched and embedded from both sides. It has excellent thermal adhesiveness, self-bonding properties, conductor embedding suitability, flame retardancy, heat resistance, blocking resistance, etc., and has little adverse effect on the human body during its manufacturing operations. The present invention relates to a flat cable covering material excellent in environmental suitability and a flat cable using the same.

Conventionally, flat cables are often used in various products such as personal computers, liquid crystal display devices, game machines, mobile phones, printers, copiers and other electronic / electrical equipment, and automobiles.
And these flat cables generally constitute a tape-like heat-adhesive covering material by laminating a base film, a primer coat layer (adhesion improving layer) or an adhesive layer, and a heat-adhesive resin layer in order, The heat-adhesive resin layer surfaces face each other and overlap each other, and a large number of conductors are sandwiched between the two and are thermocompression-bonded to be integrated.

Specifically, as such a flat cable, for example, a polyvinyl chloride resin film as a heat-adhesive resin layer is laminated on one surface of a base film such as a biaxially stretched polyester film by a dry lamination method or the like. After manufacturing the heat-adhesive coating material, the heat-adhesive coating material is laminated with the polyvinyl chloride resin film surface as the heat-adhesive resin layer facing each other, and a large number of conductors are sandwiched therebetween. Made of polyvinyl chloride, which is manufactured by heating and pressing with a heating roll, etc., melting a polyvinyl chloride resin film and embedding a large number of conductors in it, and heat-bonding the polyvinyl chloride resin films together Flat cables are known.
Alternatively, a thermal adhesive resin layer made of a resin composition containing a saturated polyester resin and a flame retardant is formed on one surface of a base film such as a biaxially stretched polyester film via a primer coat layer. A heat-adhesive coating material is manufactured, the heat-adhesive coating material is used, the heat-adhesive resin layer faces are overlapped, and a large number of conductors are sandwiched between them. A flat cable made of polyester resin is known which is manufactured by pressing and melting a heat-adhesive resin layer to embed a large number of conductors therein and heat-bonding the heat-adhesive resin layers together.

Problems to be solved by the invention

However, the above-mentioned flat cable made of polyvinyl chloride is often used because of its excellent flame retardancy, but the film of the polyvinyl chloride resin as the heat-adhesive resin layer has an adhesive property to the conductor. In particular, there is a problem in that a gap is generated between the conductor and delamination in a high temperature environment.
Furthermore, in the above-mentioned flat cable made of polyvinyl chloride, since it has poor adhesion to the conductor, it also has poor bending resistance. For example, in a bending test or sliding test, the conductor is cut in a short time. In addition, since a polyvinyl chloride resin film is used, there is a problem that may cause environmental destruction in disposal after use.

Further, in the above-mentioned polyester resin flat cable, since a biaxially stretched polyester film is used for the base film and a polyester resin is used for the heat-adhesive resin layer, it lacks flame retardancy and therefore heat It is necessary to impart flame retardancy by adding a large amount of a flame retardant to the resin composition constituting the adhesive resin layer.
Usually, in a flat cable, in order to impart flame retardancy, as a flame retardant, a halogen-based flame retardant such as chlorine or bromine as a main component, an organic or inorganic phosphorus compound, Uses antimony trioxide and other antimony oxides, hydrated metal compounds such as aluminum hydroxide and magnesium hydroxide, nitrogen compounds such as melamine compounds, and flame retardants such as metal powders, metal oxides and other inorganic compounds can do.

  However, in recent years, in the flat cable, when the above-mentioned halogen flame retardant or organic or inorganic phosphorus compound flame retardant is used as the flame retardant, the flat cable is being used or used. There is a risk of causing environmental problems such as air pollution and river water pollution during later disposal, etc., and when antimony oxide is used, there is a risk of adverse effects on the human body in the process and operation of handling it. Therefore, in order to enhance the safety as much as possible, it is necessary to constitute the flame retardant with a system that does not contain a halogen-based flame retardant and a phosphorus compound, and further a flame retardant for antimony oxide.

  The present invention has been made in order to solve such problems, and the object of the present invention is to provide a flat cable covering material with thermal adhesiveness to a conductor (metal), self-bonding property, and embedded conductor. In addition to the properties of the flame retardant, heat resistance, blocking resistance, sliding resistance (flexibility), etc., it has excellent performance as a flat cable coating material, as well as halogen flame retardants and phosphorus compounds. An object of the present invention is to provide a flat cable covering material that does not contain antimony oxide in addition to a flame retardant and is excellent in environmental suitability and safety such as manufacturing work, and a flat cable using the same.

Means for solving the problem

[Means for Solving the Problems]
The above problems can be solved by the following present invention. That is, the invention described in claim 1 is a flame retardant thermal adhesive comprising at least one surface of a heat resistant substrate film containing an adhesive improvement layer and a filler containing a flame retardant in a thermal adhesive resin. A flat cable covering material having a structure in which an adhesive resin layer is laminated in order, wherein the heat-resistant substrate film is a biaxially stretched polyethylene terephthalate film, and the thermoadhesive resin is a linear saturated polyester having a linear main chain the system resin as a main component, the flame retardant is a halogen-based flame retardant, excluding a phosphorus compound and antimony oxide, Ri mixed system der containing at least aluminum hydroxide, zinc stannate, a melamine sulfate, the The particle size of aluminum hydroxide, the zinc stannate and the melamine sulfate are all 0.01 to 15 μm, and the content of the filler containing a flame retardant in the flame retardant thermal adhesive resin layer is And 0 to 80 wt%, and, among the fillers, including the flame retardant, the content is 30 to 45 mass% of aluminum hydroxide, the content of zinc stannate is 5-20 wt%, the melamine sulfate It consists of the covering material for flat cables characterized by content being 2-10 mass% .

  In the covering material for flat cable of the present invention, in order to further improve the environmental suitability and safety for human bodies such as manufacturing workers, the material composition and halogen-containing compound and phosphorus are provided. In addition to the compound containing, antimony oxide is excluded, and as the heat-adhesive resin, not a polyvinyl chloride resin, but a resin mainly composed of a linear saturated polyester resin, Regarding flame retardants for imparting flame retardancy to coating materials, in addition to halogen compounds such as chlorine and bromine compounds and phosphorus compounds, antimony oxide is removed, and at least a hydrated metal compound and a metal oxide compound By using a flame retardant of a mixed system of nitrogen compounds, it gives the performance such as thermal adhesiveness and effective flame retardance necessary for coating materials. Those that could be.

  Therefore, by adopting the configuration as described above, the heat-resistant substrate film has heat resistance, insulating properties, flexibility, bending resistance and mechanical strength, and the heat-resistant substrate film is formed by the adhesion improving layer. And the flame-retardant heat-adhesive resin layer are firmly bonded, and with the flame-retardant heat-adhesive resin layer, in addition to thermal adhesion to the conductor, self-bonding, conductor embedding, flame retardancy, Various properties necessary for a flat cable covering material such as blocking resistance and sliding resistance are provided, and a flat cable covering material excellent in environmental suitability and safety in manufacturing can be provided. .

Furthermore, content of the filler containing the flame retardant in the flame retardant thermal adhesive resin layer is 60 to 80% by weight, and among the filler containing the flame retardant, the content of the hydrated metal compound The amount is 30 to 45% by weight, the content of the metal oxide compound is 5 to 20% by weight, and the content of the nitrogen compound is 2 to 10% by weight.

Of the fillers containing the flame retardant, as the flame retardant, at least a hydrated metal compound, a metal oxide compound, and a nitrogen compound are used. In addition, a halogen compound, a phosphorus compound, and an oxidation compound are used. As long as it does not contain an antimony compound such as antimony, a flame retardant other than the above or an inorganic or organic filler such as an antiblocking agent can be appropriately selected and used. The content of the filler containing the flame retardant in the flame retardant heat-adhesive resin layer is preferably 60 to 80% by weight, and when the content is less than 60% by weight, the flame retardant property is insufficient. When it exceeds wt%, the thermal adhesiveness is lowered, which is not preferable. Further, among the fillers containing the flame retardant, the content of the hydrated metal compound is 30 to 45% by weight, the content of the metal oxide compound is 5 to 20% by weight, and the content of the nitrogen compound is 2 It is preferably 10 to 10% by weight. Although the hydrated metal compound has a large flame retarding effect, if the content is too large, the thermal adhesiveness is hindered, so it is preferable to make it up to 45% by weight. Although a metal oxide compound alone does not have a great effect of flame retardancy, it is excellent in action as a flame retardant aid, so it is preferably contained in a range of up to 20% by weight. In addition, since the nitrogen-based compound has a large flame retarding effect but is expensive, it is effective to use it in the range of up to 10% by weight in combination with the hydrated metal compound. Thus, as a flame retardant, an excellent flame retardant effect can be obtained by using at least a hydrated metal compound, a metal oxide compound, and a nitrogen compound in combination. In addition, when the content of the hydrated metal compound, the metal oxide compound, and the nitrogen compound is less than the respective specified ranges, sufficient flame retardancy cannot be obtained, which is not preferable. The particle diameter of such a flame retardant is preferably about 0.01 to 15 μm from the viewpoint of flame retardancy and processability. Therefore, by adopting the like arrangement, the covering material flat cable, without lowering various performances other than flame resistance can be imparted to ensure good flame retardancy.

Furthermore, the hydrated metal compound of the flame retardant is aluminum hydroxide, the metal oxide compound is zinc stannate, and the nitrogen compound is melamine sulfate.

Among the hydrated metal compounds, metal oxide compounds, and nitrogen compounds as the flame retardant, hydrated metal compounds are aluminum hydroxide, metal oxide compounds are zinc stannate, and nitrogen compounds are melamine sulfate. These are particularly preferable in that a higher flame retarding effect can be obtained with a small amount of each.
Therefore, by adopting such a configuration, in addition to the effects of the invention described in claim 1 or 2, flame retardancy can be achieved without impairing other performance such as thermal adhesiveness of the covering material for flat cables. It can be made even better.

And the invention described in claim 2 is such that the flame retardant thermal adhesive resin layer surfaces of the flat cable covering material according to claim 1 are opposed to both sides of a plurality of conductors arranged in parallel. The flat cable is characterized in that it is formed by heat bonding so that the conductor is embedded by heating and pressing from the outside.

  By adopting such a configuration, the flat cable is provided with excellent performance, environmental suitability, and safety of the flat cable covering material according to any one of claims 1 to 3. Provides flat cables with excellent productivity such as sliding resistance (flexibility), heat resistance, flame retardancy, insulation, etc., as well as environmental suitability and safety during manufacturing. can do.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic cross-sectional view showing a configuration of an embodiment of a covering material for a flat cable according to the present invention.
FIG. 2 is a schematic cross-sectional view showing the configuration of an embodiment of a flat cable manufactured using the flat cable covering material of the present invention.

A covering material 10 for a flat cable shown in FIG. 1 is configured by laminating an adhesive improvement layer 2 and a flame retardant thermal adhesive resin layer 3 in this order on one surface of a heat resistant base film 1. .
The heat-resistant base film 1 is excellent in heat resistance and flexibility, and preferably excellent in mechanical strength, dimensional stability, chemical resistance, solvent resistance, electrical insulation and the like. For example, polyethylene terephthalate, poly Polyesters such as butylene terephthalate, polyethylene naphthalate, polytetramethylene terephthalate, polyolefins such as polypropylene and ethylene-propylene copolymer, polyamides such as nylon 12, nylon 6, nylon 66, wholly aromatic polyamide, polyamide imide, polyether imide Non-stretched or stretched films such as polyimide, polyether sulfone, polyether ketone, polyphenylene sulfide, polyarylate, polyester ether, and the like can be used. Among these, a biaxially stretched polyethylene terephthalate film is excellent in the ease of film formation and economy as well as the above performance, and can be particularly preferably used.

  The thickness of the heat-resistant substrate film 1 is usually 5 to 200 μm. Further, the surface of the heat-resistant substrate film 1 on which the adhesion improving layer 2 and the flame-retardant heat-adhesive resin layer 3 are provided may be subjected to adhesion strengthening treatment such as corona discharge treatment, plasma treatment, and ozone treatment. preferable.

Next, the adhesion improving layer 2 is preliminarily formed on the heat resistant base film 1 in order to improve the adhesion when the flame retardant thermal adhesive resin layer 3 is laminated on the heat resistant base film 1 by coating or the like. It is provided on the laminated surface, and can be formed by a method of applying and drying a coating solution of the following adhesion improver on the heat resistant substrate film 1.
Examples of the adhesion improver include heat resistant base film 1 and flame retardant from polyethyleneimine, organic titanium compounds, polyolefin compounds, polybutadiene compounds, isocyanate compounds, polyester urethane compounds, polyether urethane compounds, and the like. Can be selected in consideration of adhesion compatibility and workability with the heat-resistant heat-adhesive resin layer 3.
In particular, in the present invention, the heat resistance of the bonded portion is good, and a two-component curable adhesive having a main component of a polyol that can be cured at a low temperature of 30 to 40 ° C. after coating and solvent drying, and an isocyanate as a curing agent. It is preferable to use an improver in that the heat resistance and adhesion of the flat cable can be improved.

  The main ingredients of the adhesion improver include diol components such as ethylene glycol, diethylene glycol, dipropylene glycol, 1,4-butanediol, 1,6-hexanediol, neopentyl glycol, adipic acid, azelaic acid, and sebacic acid. Polyester polyols synthesized from dibasic acid components such as isophthalic acid and terephthalic acid and modified products thereof, polyether polyols such as polyethylene glycol, polyoxypropylene glycol, and polytetramethylene ether glycol, and modified products thereof Low molecular polyols such as ethylene glycol, diethylene glycol, dipropylene glycol, 1,4-butanediol, 1,6-hexanediol, neopentyl glycol, trimethylolpropane, etc. It is possible to use.

  In addition, curing agents for adhesion improvers include isocyanate monomers such as tolylene diisocyanate, diphenylmethane diisocyanate, hexamethylene diisocyanate, isophorone diisocyanate, tris (isocyanate phenyl), methane-tris (isocyanate phenyl) thiophosphate, and tolylene diisocyanate. In addition, urethane prepolymers obtained by adding an isocyanate monomer such as hexamethylene diisocyanate to trimethylolpropane, isocyanate-modified products such as hexamethylene diisocyanate burette, hexamethylene diisocyanate, and isophorone diisocyanate trimer can be used.

A titanium coupling agent, a silane coupling agent, an inorganic filler, etc. can also be added as an auxiliary agent for further improving the adhesive strength, heat-resistant adhesiveness, and reaction rate of the adhesive improver.
Such an adhesion improver is prepared by appropriately adding a solvent such as toluene, ethyl acetate, methyl ethyl ketone, isopropyl alcohol, and the like, such as roll coating method, reverse roll coating method, gravure coating method, gravure reverse coating method, etc. The adhesion improving layer 2 can be formed by applying and drying the heat resistant substrate film 1 by a known coating means. The thickness of the adhesion improving layer 2 may be thin, and about 0.1 to 5 μm is appropriate.

  The flame-retardant heat-adhesive resin layer 3 is formed of a layer of a resin composition in which a heat-adhesive resin contains a flame retardant, other fillers, etc., and the formation method is not particularly limited. A method of preparing a coating solution by adding a flame retardant, other fillers, etc. to a solution of a heat-adhesive resin, and applying and drying the coating solution on the adhesive improvement layer 2 using a known coating means Can be formed. In addition, when the film thickness of the flame-retardant heat-adhesive resin layer 3 is large, you may coat in multiple steps.

The heat-adhesive resin used for the flame-retardant heat-adhesive resin layer 3 has a heat-adhesive property with a conductor, self-fusing property, conductor embedding property, etc. at the same time as fixing a flame retardant. It is necessary to have blocking resistance and the like, and for that purpose, it is preferable to use a resin mainly composed of a linear saturated polyester resin.
The linear saturated polyester resin preferably has a glass transition point of −50 ° C. to 80 ° C. and a weight average molecular weight of 7000 to 50000, and further suitably includes a polyester polymer plasticizer as necessary. Thus, a heat-adhesive resin can be constituted.

  In addition, as a flame retardant contained in the above heat-adhesive resin, in the present invention, at least aluminum hydroxide, magnesium hydroxide, etc., except for halogen compounds, phosphorus compounds, antimony compounds such as antimony oxide, etc. Three types of flame retardants: metal hydrated metal compounds, metal oxide compounds such as zinc stannate, copper oxide, and molybdenum oxide, and nitrogen compounds such as melamine sulfate and other melamine compounds, urea, triazine, isocyanurate, and guanidine compounds In addition, for example, boric acid, zinc borate, zirconium compound, tin compound, dawsonite, calcium aluminate hydrate, calcium carbonate, barium metaborate, calcium aluminum silicate, and Metal powder such as copper metal powder, silicone polymer, Erosen, fumaric acid, can also be appropriately selected and used maleic acid.

The content of the filler containing the flame retardant flower agent in the flame retardant thermal adhesive resin layer 3 is preferably 60 to 80% by weight for the reason described above.
The thickness of the flame-retardant heat-adhesive resin layer 3 can be appropriately selected depending on the thickness of the conductor (metal cable) to be coated, the application, and the usage environment, but it maintains the adhesive strength with the metal cable and follows the bending. In general, the thickness is in the range of 0.1 to 2 times the thickness of the metal cable, and can be formed to be, for example, about 20 to 100 μm.

Next, FIG. 2 is a schematic cross-sectional view showing the configuration of one embodiment of a flat cable manufactured using the flat cable covering material of the present invention, specifically, the flat cable having the configuration shown in FIG. It is a schematic cross section which shows the structure of the flat cable manufactured using the coating | coated material 10.
That is, the flat cable 100 shown in FIG. 2 has a plurality of conductors (metal cables) 4 to 4 arranged in parallel with each other on both sides thereof, the heat resistant substrate film 1 shown in FIG. The flat cable covering materials 10 and 10 having a structure in which the improvement layer 2 and the flame-retardant heat-adhesive resin layer 3 are sequentially laminated are overlapped so that the flame-retardant heat-adhesive resin layers 3 and 3 face each other. The flame-retardant heat-adhesive resin layers 3 and 3 are melted by heating and pressing from the outside with a heating roll or the like, and a plurality of conductors 4 to 4 are embedded therein, and the flame-retardant heat-adhesive resin layer 3 and 3 are heat-fused and integrated, and can be manufactured in this way.

Hereinafter, the present invention will be described more specifically with reference to examples.
[Example 1]
(Manufacture of flat cable sheathing)
A flat cable covering material having the structure shown in FIG. 1 is manufactured, and a biaxially stretched polyethylene terephthalate film (single-sided corona discharge treatment) having a thickness of 25 μm is used as the heat-resistant base film 1, and its corona discharge treatment surface. Then, a resin composition liquid containing a thermosetting polyester resin as a main component is applied and dried so as to have a dry thickness of 1 μm to form an adhesion improving layer (primer layer) 2, On top of that, a flame retardant thermal adhesive resin layer 3 having the following composition was applied by a bar coating method so that the thickness when dried was 35 μm and dried. The flat cable covering material of Example 1 was manufactured.

(Composition of coating solution for flame retardant thermal adhesive resin layer)
(1) Linear saturated polyester resin (glass transition point 12 ° C.) 30 parts by weight (2) Flame retardant / aluminum hydroxide (average particle size 1 μm) 40 parts by weight (3) Flame retardant / zinc stannate (Average particle size 2.0 μm) 15 parts by weight (4) Flame retardant, melamine sulfate 10 parts by weight (5) Other fillers, silica, etc. 5 parts by weight (6) Solvent (toluene / methyl ethyl ketone weight ratio 10/8) 150 parts by weight

(Manufacture of flat cables)
In order to manufacture a flat cable using the flat cable covering material of Example 1 manufactured above, the flame retardant thermal adhesive resin layers of the flat cable covering material of Example 1 are opposed to each other. Insert 15 copper cables with a tin plating on the surface of 1.0 mm width and 0.05 mm thickness as conductors (metal cables) between them, and insert them at a surface of 3 m / min. After heat-pressing between two heated rubber rolls rotating at a speed, the flame-retardant heat-adhesive resin layers on both sides are melted, and the conductors are embedded in the heat-bonded and integrated, The flat cable of Example 1 was manufactured by crimping and cooling between rubber rolls.
The roll temperature of the heated rubber roll was 180 ° C.

About the covering material for flat cables of Example 1 manufactured as mentioned above, and the flat cable manufactured using the covering material, the heat adhesiveness with respect to the conductor (metal) of a flame-retardant heat-adhesive resin layer, conductor embedding property When tested or investigated, all were good.
In addition, the result of a sliding resistance test in which the flat cable was repeatedly bent while being energized and the number of times of sliding until disconnection was measured was also good.

Furthermore, regarding the flame retardancy of the flat cable, it passed the flame retardancy test of UL standard VW-1.
As for the environmental suitability of the flat cable and the safety during manufacturing operations, it does not use compounds containing halogen elements, compounds containing phosphorus, or antimony compounds such as antimony oxide. It is clear that it is safe.

Effect of the invention

  As described above in detail, according to the present invention, there is provided a tape-shaped covering material for a flat cable, which is covered by thermal bonding so that the conductor (metal cable) of the flat cable is sandwiched from both sides and embedded. Excellent performance required for flat cable coating materials, such as thermal adhesiveness with metal), self-bonding, conductor embedding, heat resistance, flame resistance, and bending resistance (sliding resistance) At the same time, because it does not use halogen-containing compounds, phosphorus-containing compounds, and antimony compounds such as antimony oxide in its constituent materials, it is possible to safely perform manufacturing operations and to dispose of waste during and after use. Etc., and the use of the flat cable sheathing material, which has less adverse effects on the environment such as air pollution and water pollution, and has excellent safety and environmental suitability. The said performance and safety and an effect capable of providing an excellent flat cable environment suitability.

It is a schematic cross section which shows the structure of one Example of the coating | covering material for flat cables of this invention. It is a schematic cross section which shows the structure of one Example of the flat cable manufactured using the coating | covering material for flat cables of this invention.

DESCRIPTION OF SYMBOLS 1 Heat resistant base film 2 Adhesion improvement layer 3 Flame-retardant heat-adhesive resin layer 4 Conductor 10 Cover material for flat cables 100 Flat cable

Claims (2)

Flat with a structure in which at least one surface of a heat-resistant substrate film is laminated in order with an adhesion improving layer and a flame-retardant thermal adhesive resin layer containing a thermal adhesive resin containing a flame retardant filler. Cable sheathing,
The heat-resistant substrate film is a biaxially stretched polyethylene terephthalate film;
The thermal adhesive resin is mainly composed of a linear saturated polyester resin having a linear main chain,
The flame retardant is a flame retardant comprising a mixed system containing at least three components composed of aluminum hydroxide, zinc stannate and melamine sulfate, excluding a halogen flame retardant, a phosphorus compound and antimony oxide. ,
The particle diameters of the aluminum hydroxide, the zinc stannate, and the melamine sulfate are all 0.01 to 15 μm,
The content of the filler containing a flame retardant in the flame retardant thermal adhesive resin layer is 60 to 80% by weight,
And among the fillers containing the flame retardant, aluminum hydroxide is contained in the flame retardant thermal adhesive resin layer in an amount of 30 to 45% by weight, and zinc stannate is the flame retardant thermal adhesiveness. the resin layer being contained 5 to 20 wt%, melamine sulfate is dressing for a flat cable, characterized that you have been contained 2-10 wt% to the flame-retardant heat-adhesive resin layer.
The covering material for a flat cable according to claim 1 is overlapped on both sides of a plurality of conductors arranged in parallel so that the flame-retardant heat-adhesive resin layer surfaces face each other, and heated and pressed from the outside. A flat cable characterized by being formed by heat bonding so as to embed a conductor.

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