KR20180029644A - Check apparatus for a flexible flat cable - Google Patents

Abstract

The present invention relates to a checking apparatus (100) for a flexible flat cable, which can measure the width of a cable made of transparent materials and a size of metal patterns provided in the cable at the same time without largely changing a structure of the apparatus. According to the present invention, the checking apparatus comprises: a jig (140) for inspection; a light source unit (110) for allowing a surface of the cable (50) passing through the jig for inspection to be irradiated with light; a controller (120) for obtaining an image of the cable using reflected light and transmitted light of the light irradiated from the light source unit to the cable (50); and a display unit (130) for outputting the image of the cable and data about the image in accordance with a control of the controller. The jig (140) for inspection comprises: a first guide unit (170); a through groove (161) formed in the perpendicular direction to a cross section (171) of the first guide unit; a pair of setting guide units (180a, 180b); and a second guide unit (190) disposed in a position facing the first guide unit (170).

Description

{CHECK APPARATUS FOR A FLEXIBLE FLAT CABLE}

The present invention relates to an inspection apparatus for inspecting a wiring pattern of a flexible flat cable including a transparent substrate, and more particularly, to an inspection apparatus for inspecting a wiring pattern of a flexible flat cable including a transparent substrate, And more particularly, to an inspection apparatus for a flexible flat cable capable of being measured.

In general, flexible flat cables formed by forming wiring patterns made of metal between transparent substrates such as PET (polyethylene terephthalate) films are used for various electronic apparatuses.

 Such a flexible flat cable uses a testing apparatus to check the wiring pattern defect in the manufacturing process.

For example, the pattern inspection apparatus 1 described in the Japanese Patent Registration No. 10-1588937 includes a transfer mechanism 2 for transferring a transparent substrate 9 of a PET film, And a control unit (11) for controlling the image acquisition unit (3) and the pattern inspection apparatus (1). The control unit (11) has an inspection unit (12) for inspecting the pattern in accordance with the acquired image. The feed mechanism 2 includes a feed roller 22 and a take-up roller 23 provided between the image-acquisition unit 3 and two rollers 21 constituted between the feed roller 22 and the take- ).

The image acquisition unit 3 includes a first light source unit 331, a first optical system 31 and a light receiving unit 341 disposed on the (+ Z) side of the transparent substrate 9, And a second optical system 32 and a second optical system 322 disposed on the (-Z) The first light source unit 331 is composed of an LED array in which a plurality of light emitting diodes (LEDs) are arranged, and each LED emits a blue wavelength band light, for example. The light of the first light source unit 331 is collimated by the collimator lens 311 of the first optical system 31 and reflected by the half mirror 312 to be incident on the objective lens 313. Light having passed through the objective lens 313 is irradiated onto the first surface 91 which is one (+ Z) surface of the transparent substrate 9. The light irradiated onto the first surface 91 of the transparent substrate 9 on which the metal pattern is formed from the objective lens 313 is reflected by the metal pattern and the light irradiated on the other area is transmitted through the transparent substrate 9 do.

The light reflected from the upper surface of the pattern is incident on the objective lens 313 and the light having passed through the objective lens 313 is guided to the light receiving portion 341 via the half mirror 312 and the image forming lens 314. The light receiving portion 341 is made up of a sensor in which a plurality of light receiving elements are arranged, and an image of blue light on the transparent substrate 9 is formed in the light receiving region.

Thus, when the first light source unit 331 is in the on state and the second light source unit 332 is in the off state, an image due to the reflected light from the upper surface (+ Z direction) of the pattern is acquired in the light receiving unit 341.

The second light source unit 332 also includes an LED array such as the first light source unit 331, and each LED emits light of a red wavelength band. The light from the second light source section 332 is irradiated onto the second surface 92 which is the other (-Z) surface of the transparent base material 9 via the lens 320 of the second optical system 32. [ The light of the second light source section 332 irradiated to the area other than the lower surface of the transparent substrate 9 is transmitted through the transparent substrate 9.

The red light transmitted through the transparent substrate 9 is guided to the light receiving portion 341 via the objective lens 313, the half mirror 312 and the imaging lens 314 in the same manner as the blue light reflected by the transparent substrate 9 do.

Thus, when the second light source unit 332 is in the on state and the first light source unit 331 is in the unlit state, the image of the red transmitted light is acquired from the light receiving unit 341 and sequentially output to the control unit 11. [

The light receiving portion 341 can receive the light reflected by the first light source portion 331 and the light transmitted through the second light source portion 332 of the transparent base material 9 as described above.

The conventional inspection apparatus 1 for inspecting the pattern of the transparent substrate using the reflected light and the transmitted light of the first light source unit 331 and the second light source unit 332 can inspect only the dimensions of the metal pattern, There is a structural drawback that can not be checked.

Korean Patent Registration No. 10-1588937

SUMMARY OF THE INVENTION It is an object of the present invention to provide a flexible flat cable capable of measuring the width of a cable made of a transparent material and the dimensions of a metal pattern formed on the cable without significantly deforming the structure of the device, And an object of the present invention is to provide a device.

Another object of the present invention is to provide an inspection apparatus for a flexible flat cable having an inspecting jig having an inexpensive and simple structure.

In order to achieve the above-mentioned object, the present invention provides a light source for irradiating light onto at least one surface of a transparent jig for inspection and a flat transparent substrate formed with a metal pattern passing through the inspection jig, A control unit for obtaining an image of the transparent base material by using reflected light or transmitted light and a display unit for outputting the image of the transparent base material and data for the image in accordance with the control of the control unit In this case,

The inspection jig includes a first guide portion having a straight section formed on the base so as to guide one side of the transparent substrate along the direction of passage of the transparent substance,

A rectangular through-hole formed in the base so as to be wider than a width of the transparent substrate in a direction perpendicular to an end surface of the first guide portion,

A pair of setting guide portions projecting in parallel to form a light transmitting portion at a predetermined distance beyond the rectangular through grooves in a direction perpendicular to an end surface of the first guide portion and forming a uniform gap with the upper surface of the base,

Wherein the first guide part and the second guide part are disposed at positions opposite to the first guide part and are capable of advancing and retreating from the protruding tip side of the pair of setting guide parts toward the first guide part through the gap, And a second guide portion having a straight section in section so as to guide the other side surface.

The first guide portion and the second guide portion and the pair of setting guide portions may be made of an opaque material such as a metal.

The transparent substrate is passed through a gap formed between the upper surface of the base and the pair of setting guide portions, and the light from the light source is irradiated to the transparent portion of the setting guide.

An inspection apparatus (100) for a flexible flat cable according to the present invention includes an inspection jig (140), a light source part (110) for irradiating light on a surface of a cable (50) passing through the inspection jig, A control unit (120) for capturing an image of the cable using reflected or transmitted light of light irradiated to the cable (50), a display unit (130) for outputting an image of the cable and data for the image in accordance with the control of the control unit, And,

In particular, the inspection jig 140 includes a first guide part 170 having a straight section 171 formed on the base 160 to guide one side of the cable 50 along the direction of the cable ,

A rectangular through-hole 161 formed in the base 160 in a direction perpendicular to an end surface 171 of the first guide portion to be wider than the width of the cable 50,

(5 to 50 mm) passing through the rectangular through-hole 161 in a direction perpendicular to the end face of the first guide portion, A pair of setting guide portions 180a and 180b which form a uniform gap of 5 mm,

Is disposed at a position opposite to the first guide part (170) and is capable of moving back and forth from the protruded tip end of the pair of setting guide parts (180a, 180b) toward the first guide part through the gap, And the second guide portion 190 having a straight line section to guide the other side surface of the cable 50 along the passing direction of the cable 50,

It is possible to check the disconnection of the cable pattern of the transparent substrate, the dimension measurement of each pattern, and the effect of precisely measuring the width of the cable.

In addition, the structure of the inspection jig can be improved with an inexpensive and simple structure without significantly changing the structure of the inspection apparatus of the flexible flat cable, and the effect of checking the pattern of the transparent cable can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a three-dimensional view showing an example of a testing apparatus for a flexible flat cable of the present invention,
Fig. 2 is a three-dimensional view showing a state in which a transparent substrate cable is set on an inspection jig constituting an inspection apparatus for a flexible flat cable of the present invention,
3 is a perspective exploded perspective view of the inspection jig of the present invention,
4 is a view showing the arrangement of the setting guide portion of the inspection jig of the present invention,
5 is a schematic view for explaining the operation of the inspection jig of the present invention,
6 is a view showing a conventional pattern inspection apparatus,
7 is a view showing an image acquisition unit configured in a conventional pattern inspection apparatus.

The technical structure and operation of the inspection apparatus 100 for a flexible flat cable of the present invention will be described in detail with reference to Figs. 1 to 5. Fig.

1 and 2, a testing apparatus 100 for a flexible flat cable includes a light source 110 for irradiating light onto a flat cable 50 including a transparent substrate having a metal wiring pattern formed thereon, A control unit 120 that captures an image of the cable using reflected light or transmitted light of light irradiated onto the cable 50, a display unit 130 that outputs an image of the cable and data on the cable under the control of the control unit, And an inspection jig 140 through which the cable 50 passes.

The light source unit 110 may be configured to emit light from the upper surface of the inspection jig 140 or to irradiate light from the lower side of the inspection jig 140 in addition to the upper light source unit 110, And a lower light source unit (not shown).

In the inspection apparatus for a cable of the present invention, the light source unit 110, the control unit 120, and the display unit 130 can use the conventional technology, so a detailed description thereof will be omitted, Explain.

 The inspection jig 140 of the present invention has a base 160 having a flat surface as shown in Figs. 2 and 4 and a side surface (D) of the cable (50) to the base (160) in a direction perpendicular to an end surface (171) of the first guide portion, the first guide portion (170) And has a rectangular through-hole 161.

A pair of projecting portions 181 projecting in parallel to constitute the light projecting portion 181 having an interval f of 5 to 50 mm passing through the rectangular through grooves 161 in a direction perpendicular to the end face 171 of the first guide portion And setting guide portions 180a and 180b.

The pair of setting guide portions 180a and 180b are fixed to the first guide portion 170 using bolts to form a uniform gap c of 0.5 to 5 mm with the upper surface of the base 160.

The distance f of the transparent portion 181 and the dimension of the clearance c can be appropriately changed in accordance with the shape of the cable 50. [

The base 160 is provided with a support rod 111 for supporting the light source 110. The light source 110 is vertically adjustable along the support bar 111 and can be adjusted to a predetermined width in the left and right direction So that the distance and the position with respect to the transparent portion 181 can be adjusted.

The second guide portion 190 is disposed at a position opposite to the first guide portion 170 and extends from the protruding tip side of the pair of setting guide portions 180a and 180b through the gap c And is capable of advancing and retreating toward the first guide portion. The second guide portion 190 is made of a long flat plate having a thickness thinner than the clearance c. The operator manually pushes the guide portion 190 toward the clearance c to move it forward or backward, or a separate power unit (not shown) It may be structured such that it can automatically move forward and backward.

The second guide unit 190 configured as described above pushes the other side of the cable toward the first guide unit 170 and guides the other side of the cable toward the first guide unit 170 along the direction in which the set cable 50 passes through the clearance c, . The first guide part 170, the pair of setting guide parts 180a and 180b, and the second guide part 190 are made of an opaque material such as metal.

Next, with reference to FIG. 5, an inspection process of the cable 150 that is transported through the inspection jig 140 of the present invention will be described.

When the cable 50 is conveyed through the gap c formed between the pair of setting guide portions 180a and 180b and the base 160, the second guide portion 190 is pushed toward the first guide portion 170 Both ends of the cable are brought into close contact with each other between the end surfaces of the first guide portion 170 and the second guide portion 190.

When light is irradiated to the transparent portion 181 through the light source portion 110 in this state, a part of the light emitted from the light source portion is reflected by the metal wiring pattern 51 of the cable and the remaining light is transmitted through the first guide portion 170, The second guide portion 190 and the pair of setting guide portions 180a and 180b.

That is, when the light is irradiated through the light source part 110 to the transparent part 181 surrounded by the first guide part 170, the second guide part 190 and the pair of setting guide parts 180a and 180b, Since the first guide part 170, the second guide part 190 and the pair of setting guide parts 180a and 180b made of a material and the metal wiring pattern 51 of the cable can not transmit light, (A to k) with respect to the entire width of each cable pattern and cable of the cable 50 made of a transparent substrate as shown in the right side of FIG. 5 can be accurately measured. The measurement result is displayed on the display unit 130 in accordance with the operation of the controller 120. If it is determined that the measurement result is bad, an alarm can be generated through a separate alarm device (not shown).

The inspection apparatus 100 of the flexible flat cable of the present invention described above is not limited to the above-described structure and description of the drawings, but can be variously modified and embodied within the scope of the claims and purposes of the present invention.

50 - Cable
51 - Metal wiring pattern
100 - Inspection device for flexible flat cable
110 - Light source
120 -
130 -
140 - Inspection jig
160 - Base
161 - Through groove
170 - first guide portion
171 - Cross section
180a, 180b - setting guide portion
181 -
190 - first guide portion

Claims (3)

A light source section for irradiating light onto at least one surface of a transparent jig for inspection and a flat transparent substrate formed with a metal pattern passing through the inspection jig; And a display section for outputting the image of the transparent base material and the data for the image in accordance with the control of the control section,
The inspection jig includes a first guide portion having a straight section formed on the base so as to guide one side of the transparent substrate along the direction of passage of the transparent substance,
A rectangular through-hole formed in the base so as to be wider than a width of the transparent substrate in a direction perpendicular to an end surface of the first guide portion,
A pair of setting guide portions projecting in parallel to form a light transmitting portion at a predetermined distance beyond the rectangular through grooves in a direction perpendicular to an end surface of the first guide portion and forming a uniform gap with the upper surface of the base,
Wherein the first guide part and the second guide part are disposed at positions opposite to the first guide part and are capable of advancing and retreating from the protruding tip side of the pair of setting guide parts toward the first guide part through the gap, And a second guide portion having a straight section in cross section so as to guide the other side surface. The method according to claim 1,
Wherein the first guide portion, the second guide portion, and the pair of setting guide portions are made of an opaque material. 3. The method according to claim 1 or 2,
Wherein the transparent substrate is passed through a gap formed between the upper surface of the base and the pair of setting guide portions, and the light from the light source is irradiated to the transparent portion of the setting guide.

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