KR100884723B1 - Flexible flat cable - Google Patents

Abstract

A flexible multi-core cable is provided to prevent short-circuit phenomenon of a flat-type conductor wire due to abrasion of flat-type conductor and film by attaching a protecting member onto a bending part of the cable. A flexible multi-core cable includes a fixing part(110), a movable part(130) and a protecting member(150). The fixing part is coupled to a fixing component(A) of an electronic product. The movable part is coupled to a movable component(B) of the electronic product. The protecting member is made of a film of a thin plate. The protecting member is attached to the movable part in order to disperse fatigue stress. The protecting member includes a film layer, an adhesion-aided layer and an adhesion layer. The adhesion-aided layer is formed at one surface of the film layer. The adhesion layer is attached to one surface of the adhesion-aided layer. The film layer of the protecting member is made of any one of polyethyleneterephthalate, polyethylene, polyimide and poly-carbonate.

Description

Flexible Multi-Cable Cables {Flexible Flat Cable}

The present invention relates to a flexible multi-core cable, and more particularly, to a flexible multi-core cable attached to one surface of a flexible multi-core cable connected to an interface part of an electronic product by attaching a protective member capable of preventing wear and dispersing fatigue stress. It relates to a flat conductor of a cable and a flexible multi-core cable which can prevent shorting due to abrasion of the film surrounding the flat conductor.

As is well known, a conventional flexible flat cable (FFC) forms a heat-resistant plastic film such as polyester (PET) or polyimide (PI), which is a flexible material, on both sides, that is, on both sides thereof. And, it is produced through a thermal fusion apparatus through a plurality of flat conductor wires (copper) arranged so as to have a predetermined distance between the films.

Accordingly, the flexible multi-core cable has excellent flexibility in bending, overlapping, folding, curling, twisting, etc., by a heat-resistant plastic film, which requires effective use of space and three-dimensional wiring. Widely used in narrow spaces such as the head portion of the.

1 is a view showing a state in which the conventional general flexible multi-core cable described above is installed in an optical drive of a data storage device (for example, a CD-ROM of a notebook computer).

As shown in the drawing, the flexible multi-core cable 15 folds the middle part so that electrical and control signals can be connected and connected in a narrow space such as a CD-ROM without contact with other components. The tray part 12 is provided on the interface portion 11 of the fixed plate 10 fixed to the main body (not shown) and the other end of the fixed plate 10 slide-in, draw-out corresponding to the user's operation. It is divided into a fixed part 13 and a moving part 14 which are connected to the interface part (not shown) of the connector through the connectors 13a and 14a, respectively.

When connecting the conventional flexible multi-core cable 15 made in this way to electronic products, as shown in Figure 1, the moving portion 14 of the flexible multi-core cable 15, the tray portion 12 slides in and out The bending portion 14b is provided so that the outer surface is folded, that is, the outer surface is in contact with each other.

Accordingly, the bending part of the moving part is repeatedly bent and unfolded while the outer surface is in contact with the surface of the tray part in correspondence with the in and out of the tray part, thereby causing the wear of the film due to friction over time, and at the same time, fatigue in the bent part As stress builds up, a plurality of flat conductor wires interposed in the film are damaged and short-circuited, thereby causing the device to malfunction.

Accordingly, the present invention has been invented to solve the problems of the prior art as described above, to prevent the wear of the film due to friction on the bent portion of the flexible multi-core cable that is repeatedly bent and unfolded while friction and fatigue stress It is an object of the present invention to provide a flexible multi-core cable to prevent the malfunction of the device by preventing the short circuit of the flat conductor wire by attaching a protective member that can disperse.

The present invention for achieving the above object, in the flexible multi-core cable provided at both ends connected to the interface portion installed in the electronic component to transmit the electrical signal, corresponding to the installation use in the electronic product as the center portion is folded A fixing part connected to a fixing part of the electronic product; A moving part connected to a moving part provided to be movable from the fixed part; It is characterized in that it comprises a protective member of the thin film is attached to prevent the wear caused by friction on the bottom of the moving portion and absorb and distribute the fatigue stress.

The protective member is characterized by consisting of a thin film layer, an adhesive auxiliary layer formed on one surface of the film layer and an adhesive layer attached to one surface of the adhesive auxiliary layer.

In addition, the film layer is a polyethylene terephthalate (PET; Polyethyleneterephthalate), polyethylene (PE; Polyethyene), polyamide (PI; Polyimide), polycarbonate (PC; Poly) having strength and heat resistance to disperse and absorb wear and fatigue stress -Carbonate) is characterized in that it is formed into any one selected.

As described above, according to the flexible multi-core cable according to the present invention, fatigue stress and fatigue stress are prevented from being repeatedly generated by repeatedly bending and unfolding at the bent portion of the flexible multi-core cable in correspondence with the moving in and out of the moving parts. By attaching a protective member having strength and heat resistance so as to disperse and absorb them, it is possible to prevent the short-circuit of the conductor wire of the flexible multi-core cable, thereby preventing the malfunction of the apparatus.

Hereinafter, an embodiment of the flexible multi-core cable according to the present invention will be described in detail.

First, it should be noted that in the drawings, the same components or parts denote the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

Prior to describing the drawings, the basic concept of the present invention is to attach a protective member capable of dispersing and absorbing stress concentration in the bent portion of the flexible multi-core cable, which is repeatedly bent and unfolded, so that the flexible multi-core cable can be bent for a long time. It turns out that the flat conductor wire in the part does not short-circuit.

Next, a preferred embodiment of the flexible multi-core cable according to the present invention having the above basic concept with reference to the accompanying drawings.

2 is a perspective view showing a flexible multi-core cable according to the present invention, Figure 3 is a side view showing a flexible multi-core cable according to the present invention shown in FIG.

As shown, the flexible multi-core cable 100 according to the present invention is arranged between the upper and lower film layers 101 and 102 of the heat resistant plastic material and the upper and lower film layers 101 and 102 at regular intervals from each other. Is composed of a plurality of flat conductor portions 103 which are fixed by heat fusion so as to be exposed, and connectors 104 and 105 which are connected to the flat conductor portions 103 exposed at both ends thereof, and thus the center portion thereof is folded. The fixing part 110 connected to the fixed part (A) of the electronic product corresponding to the installation use in the electronic product, and the moving part connected to the moving part (B) provided to be movable from the fixed part (A) 130 and a protective member 150 attached to the bottom surface of the moving part 130 to prevent wear of the lower film layer 102 and to absorb and disperse fatigue stress.

On the other hand, the flexible multi-core cable 100 according to the present invention, the protective member 150 is attached to the bottom surface of the moving part 130 to prevent abrasion of the lower film layer 102 and to absorb and distribute the fatigue stress Although not limited thereto, the flexible multi-core cables 100a and 100b may be formed on the upper film layer 101 or the upper and lower film layers 101 and 102 as illustrated in FIGS. 6 and 7. 150 may be attached to each other, and the flexible multi-core cables 100c, 100d, and 100e may be formed between the film layer and the flat conductor, that is, the flat conductor 103, as shown in FIGS. 8 to 10. And between the lower film layer 102 or between the flat conductor 103 and the upper film layer 101 and between the flat conductor 103 and the upper and lower film layers 101 and 102 through a heat fusion apparatus. It may be configured to include a protective film 150.

As shown in FIG. 4, the protective member 150 includes a moving part corresponding to the movement of the moving part B when the flexible multi-core cable 100 is connected to the moving part B of an electronic product. The 130 is attached to a portion in which the lower film layer of the moving part is bent and contacted so that the movement, that is, phosphorus and extraction can be made freely, and formed of polyethylene terephthalate (PET) resin having excellent strength and heat resistance. A thin film layer 151, one surface of the film layer 151, an adhesive auxiliary layer 153 is formed to increase the adhesive performance of the adhesive layer to be described later, and an adhesive auxiliary layer 153 applied to one surface of the film layer It is made of an adhesive layer 155 formed of a silicon-based or acrylic-based attached to.

Here, the protective member 150 is attached to the bent portion of the moving part 130, the thickness of the film layer 151 is formed to 20 ~ 50㎛ to bend flexibly well, the total thickness is 23 It is formed at -103 탆.

In addition, since the protection member 150 is attached to the bent portion of the moving part 130 and friction is made according to the surface contact to correspond to the movement of the moving part, the wear strength (peel strenght) on the surface is 500 to 1250 gf. / in, tensile strength is 4 ~ 15kg / in, elongation is formed to have approximately 70%.

On the other hand, the flexible multi-core cable according to the present invention is provided with a protective member 150 attached to the bottom of the bent portion of the moving part 130 formed by molding a polyethylene terephthalate resin excellent in strength and heat resistance, but not limited to The fatigue stress may be formed by forming any one selected from dispersion absorbable polyethylene (PE; Polyethyene), polyamide (PI; Polyimide), and polycarbonate (PC; Poly-Carbonate).

In addition, the protective member 150 is composed of a thin film layer 151, an adhesive auxiliary layer 153, and an adhesive layer 155 sequentially stacked as described above, but is not limited thereto. As shown in FIG. 5, a protective member 150 ′ is applied to a thin film layer 151 ′, an adhesive auxiliary layer 153 ′ formed on both sides of the film layer 151 ′, and It may be configured as an adhesive layer 155 'attached to one surface of the adhesive auxiliary layer 153'.

In addition, the protective member 150 is formed in a rectangular shape corresponding to the width of the flexible multi-core cable, that is, the stress concentrated on the bent portion of the moving part 130, but is not limited thereto. As shown in FIG. 12, when the flexible multi-core cable is installed and applied to an electronic product, the protective member 1500 corresponds to a shape of a portion where wear and fatigue stress are generated as the flexible multi-core cable is bent and contacted. , 1500 ') may be formed in an oval or polygonal shape.

As such, the film layer 151 of a thin plate formed of a polyethylene terephthalate (PET) resin having a thickness of 20 μm and the film layer 151 are coated on one surface of the film layer 151 to increase the adhesive performance of the adhesive layer to be described later. It consists of an auxiliary layer 153, and an adhesive layer 155 of a silicon material to be attached to the adhesive auxiliary layer 153 applied to one surface of the film layer, the total thickness is formed to 95㎛, the wear strength is 1110gf / In, the flexible multi-core cable 100 according to the present invention having a protective member 150 formed to have a tensile strength of 11kg / in, elongation is 70%, the fixing part (A) of the electronic product, and the fixing part (A Connectors 104 and 105 respectively provided on the fixed part 110 and the moving part 130 of the flexible multi-core cable 100 to the moving part B provided to be connected to the input and output of the flexible multi-core cable 100 according to the user's operation. Connect it.

In this case, the moving part 130 of the flexible multi-core cable 100 is bent and connected as shown in FIGS. 2 and 3 so as to be drawn out corresponding to the withdrawal of the moving part (B).

Subsequently, when the user manipulates the operation button of the electronic product, the moving part B of the electronic product slides out from the fixed part A correspondingly, and the moving part 130 is bent correspondingly. The film layer 151 of the protective member 150 attached to the portion is unfolded while rubbing against each other.

As described above, the bent portion of the moving part 130 repeats the bending and unfolding to correspond to the movement of the moving part B, that is, the drawing out, and the protection while the bending and unfolding of the moving part 130 is repeated. The flexible multi-core cable 100 is protected by the member 150 and the fatigue stress is a protective member 150 attached to the bottom of the bent portion of the movable portion 130 and the bent portion of the movable portion 130. It is dispersed in) and absorbed respectively.

Therefore, the fatigue stress concentrated on the moving part of the flexible multi-core cable according to the long time use can be dispersed by a protective member, so that the flat conductor of the flexible multi-core cable can not be broken, and the use of the flexible multi-core cable is thereby obtained. It can extend the life.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a view showing a state in which a conventional general flexible multi-core cable is installed in the optical drive of the data storage device;

Figure 2 is a perspective view of a flexible multi-core cable according to the present invention

3 is a side view showing a flexible multi-core cable according to the present invention shown in FIG.

4 is a view showing a protective member of a flexible multi-core cable according to the present invention;

5 is a view showing another protective member of the flexible multi-core cable according to the present invention

6 to 10 show another embodiment of a flexible multi-core cable according to the present invention.

11 and 12 are views showing a protection member provided in a different shape to the flexible multi-core cable according to the present invention.

* Description of the symbols for the main parts of the drawings *

100, 100a, 100b, 100c, 100d, 100e; Flexible multicore cable 101; Upper film layer

102; Lower film layer 103; Flat conductor part

110; Fixing part 130; Moving parts

150,150 ', 1500, 1500'; Protective member 151; Film layer

153; Adhesive support layer 155; Adhesive layer

Claims (9)

In the flexible multi-core cable 100, A fixing part 110 connected to a fixing part A of the electronic product so as to correspond to the installation use of the electronic product as the central part is folded; A moving part (130) connected to and connected to a moving part (B) provided to be movable from the fixed part (A); A protective member 150 formed of a thin film attached to the moving part 130 to absorb and disperse the fatigue stress; Flexible multi-core cable, characterized in that made. The method of claim 1, The protective member 150 may be attached to a film layer 151 of a thin plate, an adhesive auxiliary layer 153 formed by being applied to one surface of the film layer 151, and one surface of the adhesive auxiliary layer 153. Flexible multi-core cable, characterized in that consisting of an adhesive layer (155). The method of claim 1, The protective member 150 'includes a thin film layer 151', an adhesive auxiliary layer 153 'formed on both sides of the film layer 151', and an adhesive auxiliary layer 153 '. Flexible multi-core cable, characterized in that consisting of an adhesive layer 155 'each attached to one side. The method according to any one of claims 1 to 3, The film layers 151 and 151 'of the protection members 150 and 150' are polyethylene terephthalate (PET), polyethylene (PE; polyethyene), and polyamide (PI; Polyimide) having strength and heat resistance to disperse and absorb fatigue stress. , Polycarbonate (PC; Poly-Carbonate) Flexible multi-core cable, characterized in that formed by one of the selected. The method according to any one of claims 1 to 3, The protective member (150,150 ') is formed to a thickness of 23 ~ 103㎛, the film layer (151,151') is a flexible multi-core cable, characterized in that formed to a thickness of 20 ~ 50㎛. The method according to any one of claims 1 to 3, The wear strength (peel strenght) of the protective member (150,150 ') is 500 ~ 1250gf / in, tensile strength is 4 ~ 15kg / in, elongation is characterized in that it is formed to have about 70%. The method according to any one of claims 1 to 3, Adhesive layer (155,155 ') of the protective member (150,150') is a flexible multi-core cable, characterized in that made of silicone or acrylic. The method according to any one of claims 1 to 3, The protective member (150,150 ') is a flexible multi-core cable, characterized in that attached to at least one surface to absorb and distribute the fatigue stress in the moving portion 130 of the flexible multi-core cable (100, 100a, 100b). The method according to any one of claims 1 to 3, The flexible multi-core cable (100c, 100d, 100e), the protective member (150.150 ') is provided by at least one of the upper and lower film layers (101, 102) and the flat conductor 103 by a heat welding device. Flexible multi-core cable made.

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