KR102031690B1 - Cutting device for Anisotropic Conductive Film - Google Patents

Abstract

The present invention relates to an ACF cutting device that can be cut by a predetermined depth in order to cut only the anisotropic conductive resin for the ACF composed of an anisotropic conductive resin and a protective paper, and more particularly is moved by the stretching operation of the cylinder In the ACF cutting device configured to include a blade portion, and a cutting portion for supplying the ACF to be cut in front of the blade portion is moved, the blade portion, the blade blade is formed on the opposite side of the blade tip; A blade holding body; and a blade close contact shaft having a projection provided at an end thereof and having a protrusion coupled to the long hole of the blade; and a blade stopper installed at an opposite end of the tip of the blade to prevent movement of the blade; And the front end of the blade and the end of the blade fixing body are arranged in a straight line so that the blade is cut to a certain depth when cutting the anisotropic conductive film, so that the cutting of the ACF without depending on the skill of the operator The present invention relates to an anisotropic conductive film cutting device that can make the depth of the constant and firmly install the blade.

Description

Cutting device for Anisotropic Conductive Film

The present invention is an ACF cutting device that can be cut by a predetermined depth to cut only the anisotropic conductive resin for an anisotropic conductive film (ACF) consisting of an anisotropic conductive resin and a protective paper (ACF) In more detail, the ACF cutting device comprising a blade portion which is moved by the expansion and contraction of the cylinder in detail, and a cutting portion which is supplied to the ACF to be cut in front of the blade portion is moved, wherein the blade portion, the blade tip, On the opposite side of the blade is formed with a blade hole, a blade fixing body for holding and fixing the blade, a blade contact shaft with a spring is provided at the end and the projection is coupled to the blade hole of the blade, and the opposite end of the blade tip A blade stopper or the like installed to prevent movement of the blade, and the tip of the blade and the blade The end of the fixed body is arranged in a straight line so that the blade is cut to a certain depth when cutting the anisotropic conductive film, so that the depth of cutting of the ACF can be constant and the blade firmly without depending on the skill of the operator. An anisotropic conductive film cutting device that can be installed.

ACF is used to attach an electrical circuit film for driving a liquid crystal display. Since ACF is supplied in a roll method, a cutting device is required to match the length of the package. In addition, the ACF is composed of an anisotropic conductive resin containing a conductive location and a protective paper to protect the anisotropic conductive resin, the cutting method of the ACF is a cutting edge of the anisotropic conductive resin and the protective paper by cutting a predetermined depth of the anisotropic conductive The resin should be well separated and the protective paper should not be broken.

The conventional method is expensive to manufacture a predetermined jig in the fixed and height setting of the blade, and the damage of the blade occurs when the operator sets using the jig and the fixed blade is not fixed according to the skill, ACF Was broken or not cut properly.

The technology related to the ACF cutting device as described above is disclosed in Korean Patent Nos. 10-1329560, 10-1744954, and the like.

The present invention has been researched and developed in order to solve the problems of the prior art as described above, ACF cutting device that can be cut to a constant depth to a suitable depth to cut only the anisotropic conductive resin for the ACF composed of an anisotropic conductive resin and protective paper In the ACF cutting device configured to include a blade portion is moved by the expansion and contraction of the cylinder, the cutting edge portion is supplied to the ACF to be cut in front of the blade portion is moved, wherein the blade portion, the blade hole is formed on the opposite side of the blade tip And blade, blade fixed body for holding and fixing the blade, the blade is in close contact with the blade is provided with a protrusion is provided on the end and the projection is coupled to the long hole of the blade, and the opposite end of the blade is installed on the opposite end of the blade It consists of blade stopper etc. which prevents movement, and the tip of the blade and the blade fixed body The ends of the blades are arranged in a straight line so that the blades are cut to a certain depth when cutting the anisotropic conductive film, so that the depth of cutting of the ACF can be constant and the blades can be firmly installed without depending on the skill of the operator. It is to provide an anisotropic conductive film cutting device.

Anisotropic conductive film cutting device according to the present invention for achieving the above object, ACF configured to include a blade portion which is moved by the expansion and contraction of the cylinder, and the cutting unit is supplied to the ACF to be cut in front of the blade portion is moved In the cutting device, the blade portion, a blade formed with a long hole on the opposite side of the blade tip; and a blade fixing body for fixing the blade fixed to the blade; and a spring is installed at the end and the projection is coupled to the long hole of the blade is formed A blade contacting shaft; and a blade stopper installed at the opposite end of the blade to prevent movement of the blade; and the blade tip and the end of the blade fixing body are arranged in a straight line, such that the blade When cutting the anisotropic conductive film is characterized in that the cut to a certain depth.

In addition, the present invention by pressing the blade close contact shaft in order to secure the blade to the fixed body and then inserting the projection of the blade close contact shaft into the blade hole of the blade while placing the blade in the blade fixed body, the blade When the pressing shaft is released, the protrusion coupled to the long hole of the blade is pushed out by the repulsive force of the spring, so that the end of the blade is in close contact with one surface of the blade stopper.

In another aspect, the present invention is characterized in that the blade fixing body is provided with a magnet for fixing the blade therein.

In addition, the present invention provides a movable block which is moved by the expansion and contraction of the cylinder, the blade portion fixed block which is fixedly coupled to the blade portion on the upper portion of the movable block, the blade portion fixed block of the blade It characterized in that it has a dovetail groove so that the position of the blade is not changed during replacement.

In addition, the present invention is characterized in that one blade is installed with respect to the blade portion or at least two or more blades are installed in parallel with a predetermined interval.

In addition, in the present invention, in order to install the two blades parallel to the blade at a predetermined interval in parallel, the blade is provided with a pair of blade fixing body in which one blade is placed to fold around the hinge axis to the two blades in parallel The blade cover is installed on each upper surface of the blade, and a gap block is installed on at least one surface of the blade fixing body so that a predetermined interval is formed when the two blades are installed in parallel.

The anisotropic conductive film cutting device according to the present invention is moved in the ACF cutting device that can be cut by a predetermined depth to an appropriate depth to cut only the anisotropic conductive resin with respect to the ACF consisting of an anisotropic conductive resin and protective paper, moved by the stretching operation of the cylinder In the ACF cutting device configured to include a blade portion to be cut, and a cutting portion for supplying ACF to be cut in front of the blade portion is moved, the blade portion, a blade having a long hole formed on the opposite side of the blade tip, and fixed to the blade A blade fixing body which has a blade fixed body to which a spring is installed at an end and a protrusion is formed to be coupled to the blade hole of the blade, and a blade stopper installed at the opposite end of the tip of the blade to block movement of the blade; The tip of the blade and the end of the blade fixing body is arranged in a straight line to the knife When cutting the anisotropic conductive film by cutting the blade to a certain depth, there is no damage of the blade due to the use of a predetermined jig, the depth of the cutting of the ACF can be made constant and the blade can be installed firmly, cutting bad There is an effect that can prevent the failure due to ACF break or miscutting.

In addition, the present invention is provided with a magnet for fixing the blade inside the blade fixing body, there is an effect that can be firmly installed on the blade.

In addition, the present invention by installing a movable block to be moved by the expansion and contraction of the cylinder, by installing a blade portion fixed block that is fixedly coupled to the blade portion on the upper portion of the movable block and having a dovetail groove, The fixing block has the effect that the position of the blade is not misplaced when the blade is replaced.

In addition, the present invention by having two blades or two times the blades in parallel with a predetermined interval with respect to the blade portion, there is an effect of improving productivity as well as work efficiency.

1 is an overall perspective view of an ACF cutting device according to the present invention
Figure 2 (a) is a cross-sectional view of the ACF cutting device according to the present invention, Figure 2 (b) is a cross-sectional view of a state in which the ACF is cut by the cylinder is extended.
Figure 3 is a cross-sectional view of the blade portion in the present invention
Figure 4 (a) is a plan view of the blade in the present invention, Figure 5 (b) is a cross-sectional view cut by the blade ACF.
Figure 5 (a) and (b) is a view for explaining the process of cutting the ACF in the present invention
Figure 6 (a) and (b) is a view of two blades installed as an embodiment of the present invention
7 is a view showing a state in which four blades are installed as another embodiment of the present invention

The present invention relates to an ACF cutting device that can be cut by a predetermined depth in order to cut only the anisotropic conductive resin for the ACF consisting of an anisotropic conductive resin and a protective paper, and will be described in detail with reference to the accompanying drawings. same.

The ACF cutting device according to the present invention, as shown in Figs. 1 and 2, the blade 10, the cylinder 10 and the blade 23, which are greatly stretched and operated, and the cutting board 30 to which the ACF to be cut is supplied. And the like.

The cylinder 10 has a 'L' shaped movable block 11 fixedly coupled to an end thereof, and a blade portion fixing block 13 fixedly coupled to the blade portion 20 on the bottom surface of the movable block 11. The blade portion fixing block 13 is a dovetail groove is formed so that the position of the blade 23 is not misaligned when the blade 23 is replaced, the blade portion 20 is The blade fixing protrusion 21 is tightly fixed to the dovetail groove by tightening the blade fixing block 13 and the blade fixing handle 14. When the tightening of the blade fixing handle 14 is loosened, the fixing with the blade fixing block 13 is loosened, so that the blade 20 can be easily separated from the blade fixing block 13.

In addition, the blade fixing block 13 of the blade fixing body 22 by tightening the adjustment bolt 12 of at least one or more (shown as two in the figure) coupled to the movable block 11. The tip can be adjusted to be parallel to the cutting board.

When the cylinder 10 is extended, the movable block 11 and the blade fixing block 13 are horizontally moved and fixedly coupled to the blade fixing block 13 as shown in FIG. The blade portion 20 also moves horizontally, so that the blade portion 20 contacts the cutting board 30 so that the blade 23 at the tip of the blade portion 20 is vacuum-adsorbed to the cutting board 30. The cutting is performed by a predetermined depth.

As shown in FIGS. 3 and 4 (a), the blade portion 20 has a blade tip 23a for cutting the ACF and a long hole 23b on the opposite side of the blade tip 23a. The blade 23 formed, the blade fixing body 22 for holding and fixing the blade 23, and the projection 25a is installed at the end and coupled to the long hole 23b of the blade 23 ) Is formed in the blade close contact shaft 27 and the blade stopper 26 and the like which are provided at the opposite end of the blade tip 23a to block the movement of the blade 23. Inside the blade fixing body 22, a magnet 22a for firmly fixing the blade 23 is installed.

Referring to the method of installing the blade 23 in the blade unit 20 having the configuration as described above are as follows.

In order to fix the blade 23 to the blade fixing body 22, first, when the operator presses the blade contact shaft 27, the blade contact by the spring 25 installed at the end of the blade contact shaft 27 The repulsive force is generated in the shaft 27. At this time, the blade 23 is placed in the blade fixing body 22 while inserting and engaging the protrusion 27a of the blade close contact shaft 27 to the long hole 23b of the blade 23. By the magnetism of the magnet 22a installed inside the 22, the blade 23 is in a state that does not fall to the blade fixing body 22.

Next, when the blade contacting shaft 27 is released, the projection 27a coupled to the long hole 23b of the blade 23 is pushed out by the repulsive force of the spring 25 and the end of the blade 23 is pressed. Is in close contact with one surface of the blade stopper 26, the blade 23 is firmly fixed to the blade fixing body 22.

As shown in FIGS. 2 and 5, the cutting board 30 includes a cutting board 31 having an ACF (A) to be cut on a surface thereof, and an adsorption of the ACF (A) on a surface of the cutting board 31. And an ACF adsorption hole 32 and a vacuum supply path 33 for supplying a vacuum to the ACF adsorption hole 32. The cutting groove 34 on which the ACF (A) is disposed and the other portion on which the ACF (A) is not disposed are the cutting reference planes 35 on the surface of the cutting board 31.

As shown in (b) of FIG. 5, the blade 23 is moved horizontally so that the blade tip 23a is composed of an anisotropic conductive resin A1 and protective paper A2 supplied to the cutting board 30. In order to cut only the anisotropic conductive resin (A1) in (A) it is to be cut by a suitable depth.

In the state of FIG. 5A, when the blade 23 moves forward to cut ACF (A) as shown in FIG. 5B, the tip of the blade 23 and the end of the blade fixing body 22 are cut. Since the blades 23 are arranged in a straight line, the blade 23 is cut by the depth of the anisotropic conductive resin A1 when cutting the ACF (A).

That is, when the tip of the blade 23 is moved to cut the ACF (A), the end of the blade fixing body 22 abuts the cutting reference surface 35 of the cutting board 31 to the blade 23. The further forward movement is no longer possible, which causes the blade 23 to cut by a predetermined depth when cutting the ACF (A).

On the other hand, the present invention can be such that the two blades or double blades are parallel to the blade portion 20 at a predetermined interval.

As shown in (a) and (b) of FIG. 6, the one as shown in FIG. 3 is installed so as to be parallel to the blade portion 20 at regular intervals with respect to the two blades 23. The blade 23 is provided with a pair of blade fixing body 22 is settled so as to fold around the hinge axis 28 so that the two blades 23 are installed in parallel. The blade cover 24 is installed on each upper surface of the two blades so that the blades 23 can be firmly installed. The blade cover 24 serves to fix the blade 23 so that the blade 23 is separated from the blade fixing body 22 or the position thereof does not change after the blade 23 is mounted on the blade fixing body 22. At least one magnet 24a is installed at the blade cover 24 to fix the blade 23 more firmly.

In addition, at least one surface of the blade fixing body 22 is provided with a gap block 29 having a height equal to a predetermined interval so that the two blades 23 are arranged at a desired interval to fix the pair of blades. When the body 22 is folded about the hinge axis 28, the gap between the two blades 23 installed in parallel by the gap block 29 is adjusted.

In this case, the blade stopper 26 is provided only on one side of the blade fixing body 22, and the blade stopper (when the pair of blade fixing bodies 22 are folded about the hinge axis 28). 26 serves as a stopper for preventing the movement of the two blades 23 installed in the pair of blade fixing body 22. In addition, at least one cover magnet is installed on the blade cover 24 so that the blade fixing body 22 is firmly attached without being detached when the pair of blade fixing bodies 22 are folded around the hinge shaft 28.

In addition, the present invention as a second embodiment when a double structure is installed with respect to the blade portion 20 the pair of blade fixing body 22 is folded around the hinge axis 28 as shown in FIG. Four blades 23 may be installed in parallel.

In another embodiment, as well as installing one blade with respect to the blade portion 20, the pair of blade fixing body 22 or one blade fixing body 22 is a double, triple hinge shaft 28 At least two or more blades 23 may be arranged in parallel with a predetermined interval so as to be folded about the center.

As described above, at least two or more blades 23 are installed parallel to the blade portion 20 at regular intervals, thereby improving productivity as well as work efficiency.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art can be variously modified and changed without departing from the spirit and scope of the invention described in the claims below. It will be appreciated.

A: ACF A1: Anisotropic Conductive Resin
A2: protective paper
10: cylinder portion 11: movable block
12: adjusting bolt 13: blade fixing block
14: blade part fixed handle 20: blade part
21: blade fixing protrusion 22: blade fixing body
22a: magnet 23: blade
23a: Blade tip 24: Blade cover
24a: cover magnet 25: spring
26: blade stopper 27: blade close contact shaft
27a: protrusion 28: hinge axis
29: gap block 30: cutting board
31: cutting board 32: ACF adsorption hole
33: vacuum supply section 34: cutting groove
35: cutting reference plane

Claims (6)

In the anisotropic conductive film cutting device configured to include a blade portion which is moved by the expansion and contraction of the cylinder, and a cutting portion that is supplied with an anisotropic conductive film to be cut in front of the blade portion is moved,
The blade portion,
A blade having a hole formed on the opposite side of the blade tip;
Blade fixing body for fixing the blade fixed to;
A blade is in close contact with the blade is provided with a blade is provided with a projection is coupled to the long hole of the blade; And,
And a blade stopper installed at an opposite end of the tip of the blade to prevent movement of the blade.
The tip of the blade and the end of the blade fixing body is arranged in a straight line so that the blade is cut by a predetermined depth when cutting the anisotropic conductive film
Anisotropic conductive film cutting device characterized in that.
The method of claim 1,
In order to fix the blade to the fixed body,
After pressing the blade contact shaft, the blade is placed in the blade fixing body while inserting and engaging the projection of the blade contact shaft into the blade hole of the blade, and when the release of the blade contact shaft, the projection coupled to the blade hole of the blade Is pushed out by the repulsive force of the spring so that the end of the blade is in close contact with one surface of the blade stopper
Anisotropic conductive film cutting device characterized in that.
The method of claim 1,
The blade fixing body is provided with a magnet for fixing the blade therein
Anisotropic conductive film cutting device characterized in that.
The method of claim 1,
Install a movable block moved by the expansion and contraction of the cylinder, and install a blade portion fixed block fixedly coupled to the blade portion on the upper portion of the movable block,
The blade portion fixing block has a dovetail groove so that the position of the blade is not misaligned when the blade is replaced
Anisotropic conductive film cutting device characterized in that.
The method of claim 1,
The blade portion is provided with one blade or at least two or more blades are installed in parallel at regular intervals.
Anisotropic conductive film cutting device characterized in that.
The method of claim 5,
In order to install the two blades in parallel at regular intervals,
The one blade is provided with a pair of blade fixing body in which the blade is set so as to fold around the hinge axis so that the two blades are installed in parallel at regular intervals,
Install a blade cover on each upper surface of the blade,
A gap block is installed on at least one surface of the blade fixing body such that a predetermined interval is formed when the two blades are installed in parallel.
Anisotropic conductive film cutting device characterized in that.

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