CN202400670U - Laser slitter for anisotropic conductive film - Google Patents

Abstract

The utility model discloses a laser slitter for an anisotropic conductive film, which comprises an unwinding mechanism, a winding mechanism and a plurality of slitting mechanisms. The unwinding mechanism comprises a rotating shaft and an unwinding roller, wherein the unwinding roller is used for winding the anisotropic conductive film and mounted on the rotating shaft. The winding mechanism is mounted opposite to the unwinding mechanism and comprises a plurality of rotating shafts and a plurality of winding disks, wherein the winding disks are mounted on the rotating shafts respectively. The slitting mechanisms are sequentially mounted between the unwinding mechanism and the winding mechanism, and each slitting mechanism comprises a tool rest and a plurality of laser slitting heads capable of emitting laser, wherein the laser slitting heads are mounted on the tool rest side by side and positioned above the anisotropic conductive film. The laser slitter is stable in slitting quality and fine in effect.

Description

A kind of laser cutting machine of anisotropy conducting film

Technical field

The utility model relates to a kind of cutting equipment of anisotropy conducting film.

Background technology

Anisotropic conductive film (Anisotropic Conductive Film; ACF), be that coating is fitted between a kind of base material A and the base material B, current limit can only circulate in a kind of special coating substance between base material A, the B by vertical axis Z direction.Have unilateral conduction and the fixing function of gummed concurrently, can solve some the trickle lead connectivity problems that can't handle of adaptor union in the past.

Anisotropic conductive film is mainly used on the products such as mobile hand-held device, mobile phone, digital camera, computer and perimeter, chopping machine, keyboard, consumer electronics, vision receiver, GPS/ electronic dictionary.

Traditional anisotropic conductive film is cut mode, is to cut with mechanical system, need to lean on artificial assurance, and it is very unstable to cut quality, cut easily askew, cut bad, to cut precision low, wastes bigger.

The utility model content

The technical matters that the utility model will solve is: overcome the problem that traditional artificial cutting knife is cut the quality instability, cut weak effect, propose a kind of cut steady quality, effective laser cutting machine and cutting mechanism and application thereof.

In order to solve the problems of the technologies described above, the utility model proposes following technical scheme: a kind of laser cutting machine of anisotropy conducting film, and it comprises a unreeling structure, rolling-up mechanism, several cutting mechanisms;

This unreeling structure comprises a rotating shaft, a unreeling wheel that is used for twining the anisotropy conducting film, and this unreeling wheel is installed in this rotating shaft;

This rolling-up mechanism is installed in the position, opposite of this unreeling structure, and this rolling-up mechanism comprises some turning cylinders, several closed reels, and these several closed reels are installed in respectively on these some turning cylinders;

These several cutting mechanisms are installed in the position between this unreeling structure and this rolling-up mechanism successively;

This each cutting mechanism comprises that a knife rest, several laser that can launch laser divide crop, and these several laser divide crop to be installed in abreast on this knife rest, are positioned at the top of this anisotropy conducting film.

The further qualification of technique scheme is: these several laser are cut the spaced apart setting of first-class distance.

The further qualification of technique scheme is: this unreeling structure comprises a base, some guide rails, a mount pad; This base comprises a base plate, two side plates that form from the two ends vertical extent of this base plate; These some guide rails are fixed between two side plates of this base, and these some guide rails are provided with abreast; This mount pad comprises a base plate, two side plates that form from the two ends vertical extent of this base plate; These some guide rails pass two side plates of this mount pad, and two side plates of this mount pad can be along these some guide rail sway; This rotating shaft is located on two side plates of this mount pad, and rotatable.

The further qualification of technique scheme is: this unreeling structure comprises a unreeling wheel tension control assembly, and this unreeling wheel tension control assembly is installed in an end of this rotating shaft.

The further qualification of technique scheme is: this unreeling structure comprises the motor of rectifying a deviation about, and correction motor connects this rotating shaft about this.

The further qualification of technique scheme is: this rolling-up mechanism comprises several winding wheel tension control assemblys, and these several winding wheel tension control assemblys are installed in an end of several turning cylinders respectively.

The further qualification of technique scheme is: this rolling-up mechanism comprises several winding motors, and these several winding motors are installed in an end of these several turning cylinders respectively.

The further qualification of technique scheme is: this laser cutting machine comprises two pinch rollers, and these two pinch rollers are installed between these several cutting mechanisms and this rolling-up mechanism.

Compared with prior art, the utlity model has following beneficial effect: the cutting mechanism of the utility model, use several laser to divide crop can the anisotropy conducting film of below process be cut open; Compare artificial mode of directly cutting with cutting knife; Cut accurately, steady quality is cut effective.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the laser cutting machine of the utility model anisotropy conducting film.

Fig. 2 is the birds-eye view of the laser cutting machine of the utility model anisotropy conducting film.

The specific embodiment

See also Fig. 1 to Fig. 2; The utility model proposes a kind of laser cutting machine of anisotropy conducting film; Be used for cutting anisotropy conducting film 100, this laser cutting machine comprises a unreeling structure 1, rolling-up mechanism 2, ten cutting mechanisms 3 (figure is last only to draw four), two pinch rollers 4.

This unreeling structure 1 comprises a base 11, two guide rails 12, mount pad 13, rotating shaft 14, unreeling wheel 15, unreeling wheel tension control assembly 16, about one correction motor 17.

This base 11 comprises a base plate 112, two side plates 114 that form from the two ends vertical extent of this base plate 112, and wherein the outside vertical extent in side plate 114 tops is provided with an adapter plate 116.

These two guide rails 12 are fixed between two side plates 114 of this base 11.

These two guide rails 12 are provided with abreast.

This mount pad 13 comprises a base plate 132, two side plates 134 that form from the two ends vertical extent of this base plate 132.

These two guide rails 12 pass this two side plates 134, and these two side plates 134 can be along these two guide rail 12 sway.

This rotating shaft 14 is located on these two side plates 134, and rotatable.

This unreeling wheel 15 is installed in this rotating shaft 14, can rotate along with these rotating shaft 14 rotations.

Be wound with anisotropy conducting film 100 on this unreeling wheel 15.

This unreeling wheel tension control assembly 16 is installed in an end of this rotating shaft 14, can regulate the tension force size of anisotropy conducting film 100 on this unreeling wheel 15.

Correction motor 17 is installed on this adapter plate 116 about this; Rotating shaft of correction motor 17 connects this rotating shaft 14 about this; Can promote this rotating shaft 14, mount pad 13, unreeling wheel 15 integral body along these two guide rail 12 sway, adjust the position, the left and right sides of this anisotropy conducting film 100.

This rolling-up mechanism 2 is installed in the position, opposite of this unreeling structure 1.

This rolling-up mechanism 2 comprises two turning cylinders 22, several closed reels 24, two winding wheel tension control assemblys 26, two winding motors 28.

These two turning cylinders 22 are installed on the relative up and down position.

These several closed reels 24 are installed in respectively on these two turning cylinders 22.

These two winding wheel tension control assemblys 26 are installed in an end of two turning cylinders 22 respectively, and these two winding motors 28 are installed in the other end of these two turning cylinders 22 respectively.

These ten cutting mechanisms 3 (figure is last only have been drawn six) are installed in the position between this unreeling structure 1 and this rolling-up mechanism 2 successively.

This each cutting mechanism 3 comprises that a knife rest 32, five laser that can launch laser divide crop 34.

This laser divides crop 34 to be installed in abreast on this knife rest 32.

These five laser divide crop 34 all to be installed in the top of this anisotropy conducting film 100.

These five laser divide crop 34 equidistant apart to be arranged on the top of this anisotropy conducting film 100.

These two pinch rollers 4 are installed between these ten cutting mechanisms 3 and this rolling-up mechanism 2, and these two pinch rollers 4 compress the anisotropy conducting film 100 of cutting through cutting mechanism 3.

The anisotropy conducting film 100 of slitting passes these two pinch rollers 4 separated into two parts afterwards, receives respectively on these several closed reels 24.

As shown in Figure 2; During this laser cutting machine work; This anisotropy conducting film 100 from below that these 20 laser divide crop 34 through out-of-date; These 20 laser divide crop 34 to send laser, and this anisotropy conducting film 100 is cut into 19 little (outmost two is waste material) of equal wide, receive respectively then on these two closed reels 24.What the last small circle of Fig. 2 was represented is the illustrated position that laser divides the projection of crop 34 on anisotropy conducting film 100.

In the cutting mechanism 3 of the utility model, use several laser to divide crop 34 can the anisotropy conducting film 100 of below process be cut open, compare artificial mode of directly cutting with cutting knife, cut accurately, steady quality is cut effective.

Claims (8)

1. the laser cutting machine of an anisotropy conducting film is characterized in that: it comprises a unreeling structure, rolling-up mechanism, several cutting mechanisms;

This unreeling structure comprises a rotating shaft, a unreeling wheel that is used for twining the anisotropy conducting film, and this unreeling wheel is installed in this rotating shaft;

This rolling-up mechanism is installed in the position, opposite of this unreeling structure, and this rolling-up mechanism comprises some turning cylinders, several closed reels, and these several closed reels are installed in respectively on these some turning cylinders;

These several cutting mechanisms are installed in the position between this unreeling structure and this rolling-up mechanism successively;

This each cutting mechanism comprises that a knife rest, several laser that can launch laser divide crop, and these several laser divide crop to be installed in abreast on this knife rest, are positioned at the top of this anisotropy conducting film.

2. the laser cutting machine of anisotropy conducting film according to claim 1 is characterized in that: these several laser are cut the spaced apart setting of first-class distance.

3. the laser cutting machine of anisotropy conducting film according to claim 1 is characterized in that: this unreeling structure comprises a base, some guide rails, a mount pad; This base comprises a base plate, two side plates that form from the two ends vertical extent of this base plate; These some guide rails are fixed between two side plates of this base, and these some guide rails are provided with abreast; This mount pad comprises a base plate, two side plates that form from the two ends vertical extent of this base plate; These some guide rails pass two side plates of this mount pad, and two side plates of this mount pad can be along these some guide rail sway; This rotating shaft is located on two side plates of this mount pad, and rotatable.

4. according to the laser cutting machine of claim 1 or 3 described anisotropy conducting films, it is characterized in that: this unreeling structure comprises a unreeling wheel tension control assembly, and this unreeling wheel tension control assembly is installed in an end of this rotating shaft.

5. according to the laser cutting machine of claim 1 or 3 described anisotropy conducting films, it is characterized in that: this unreeling structure comprises the motor of rectifying a deviation about, and correction motor connects this rotating shaft about this.

6. the laser cutting machine of anisotropy conducting film according to claim 1 is characterized in that: this rolling-up mechanism comprises several winding wheel tension control assemblys, and these several winding wheel tension control assemblys are installed in an end of several turning cylinders respectively.

7. the laser cutting machine of anisotropy conducting film according to claim 1 is characterized in that: this rolling-up mechanism comprises several winding motors, and these several winding motors are installed in an end of these several turning cylinders respectively.

8. the laser cutting machine of anisotropy conducting film according to claim 1 is characterized in that: this laser cutting machine comprises two pinch rollers, and these two pinch rollers are installed between these several cutting mechanisms and this rolling-up mechanism.

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