CN104217937A - Attaching device of anisotropic conductive films and adjustment method of cutter - Google Patents

Abstract

The invention relates to an attaching device of anisotropic conductive films and an adjustment method of a cutter. The attaching device comprises the cutter and a cutter fixture. The cutter is used for cutting an anisotropic conductive film when the anisotropic conductive film moves; the cutter fixture is used for fixing the cutter. The attaching device is characterized in that the cutter fixture comprises a fixing structure, a first suction structure and a second suction structure; the fixing structure is used for fixing the cutter; the first suction structure arranged on one side of the cutter is used for sucking the cutter so that the cutter is located at a first position in a direction perpendicular to a moving direction of the anisotropic conductive film while the cutter is under adjustment; the second suction structure opposite to the fixing structure comprises a first side parallel to the moving direction of the anisotropic conductive film; when the cutter is under adjustment, the second suction structure sucks the cutter so that a cutting edge of the cutter is in contact with the first side and that the cutting edge of the cutter is adjusted to a direction parallel to the moving direction of the anisotropic conductive film. The attaching device and the adjustment method have the advantages that the cutting edge of the cutter is parallel to the moving direction of the anisotropic conductive film, and attachment yield of anisotropic conductive films is increased.

Description

A kind of method of Anisotropically conductive film sticking device and adjustment cutting knife

Technical field

The present invention relates to TFT Module (array base palte assembly) manufacturing automatic producing device, particularly relate to the method that Anisotropically conductive film (ACF) in Bonding (combination) board attaches device and adjustment cutting knife.

Background technology

In current TFT Module Process (array base palte component process flow process), each device A CF of OLB (Out Lead Bonding) board attaches place, and ACF cutting knife all adopts traditional type fixed mechanism and method of adjustment.As shown in Figure 1, cutting knife 1 is fixed between base 2 and fixed head 3, fixed head 3 and base 2 are fixed by screw, cutting knife fixed form is upper and lower mechanism parallel clips modus ponens, regulative mode manually adjusts after unclamping cutting knife, adjust rear locked screw to offset about causing cutting knife during fixed cutting tool, cutting knife installation rear knife edge and base 2 is made not to ensure level, then blade and ACF air spots to be cut capable, not only adjust cutting knife length consuming time, adjust rear cutting knife useful life short (about month), ACF is easily caused to attach bad, the equipment of impact is sowed, cause quality abnormal.

Summary of the invention

In order to solve the problems of the technologies described above, the invention provides a kind of method of Anisotropically conductive film sticking device and adjustment cutting knife, ensure that blade face is parallel with the moving direction of Anisotropically conductive film.

In order to achieve the above object, the technical solution used in the present invention is: a kind of Anisotropically conductive film sticking device, comprises

For cutting the cutting knife of Anisotropically conductive film when Anisotropically conductive film moves;

For the cutting knife fixed mechanism of fixed cutting tool;

Described cutting knife fixed mechanism comprises:

For the fixed structure of fixed cutting tool;

First adsorption structure, is arranged at the side of cutting knife, makes cutting knife be positioned at primary importance on the direction vertical with Anisotropically conductive film moving direction for the absorption cutting knife when adjusting cutting knife;

Second adsorption structure, is oppositely arranged with described fixed structure, and described second adsorption structure has the first surface parallel with Anisotropically conductive film moving direction;

When adjusting cutting knife, described second adsorption structure provides suction to make cutting knife blade face contact to be adjusted to parallel with the moving direction of Anisotropically conductive film by cutting knife blade face with described first surface to cutting knife.

Further, described fixed structure comprises:

Base;

Grip block, one end is connected with described base, and the other end Part I corresponding with position on described base forms the clamping part for clamping cutting knife.

Further, be connected by elastic component between described grip block with described base.

Further, described fixed structure also comprises the bolt running through described base and described grip block and arrange.

Further, described first adsorption structure is vacuum suction structure, and described vacuum suction structure comprises the first through hole being arranged at described Part I, and described through hole is connected with vacuum pump by pipeline, for when adjusting cutting knife, is adsorbed on described base by cutting knife.

Further, described second adsorption structure comprises:

Have the footstock of described first surface, described footstock and described base are oppositely arranged;

Magnet, to be placed in described footstock and to make described first surface have magnetic force.

Further, the adjustment structure of the spacing for regulating described footstock and cutting knife blade is also comprised.

Further, described adjustment structure comprises:

Lifting unit, is connected with described base, for controlling the lifting of described base;

Differential head, is fixed on described footstock, and the measuring staff of described differential head is placed in the second through hole described footstock running through the setting of described first surface, and the first end of described measuring staff can expose to described first surface;

Described differential head is used for carrying out spacing to described cutting knife, makes cutting knife at predeterminated position and distance between described first surface and cutting knife blade is predeterminable range.

Further, also comprise the guide frame for controlling Anisotropically conductive film moving direction, described guide frame comprises two directive wheels being arranged at described footstock both sides respectively, when Anisotropically conductive film moves, the edge of described directive wheel contacts the mobile route to limit Anisotropically conductive film with Anisotropically conductive film.

The present invention also provides a kind of method adopting Anisotropically conductive film sticking device to adjust cutting knife, comprises the following steps:

Unclamp the fixed structure of fixed cutting tool;

Cutting knife is made to be positioned at primary importance on the direction vertical with Anisotropically conductive film moving direction by the first adsorption structure absorption cutting knife;

Suction is provided to make cutting knife blade face contact to be adjusted to parallel with the moving direction of Anisotropically conductive film by cutting knife blade face with first surface by the second adsorption structure to cutting knife, wherein first surface is arranged on the second adsorption structure, and first surface is parallel with Anisotropically conductive film moving direction;

Be locked structure with fixed cutting tool.

Further, the primary importance by the first adsorption structure absorption cutting knife, cutting knife being positioned on the direction vertical with Anisotropically conductive film moving direction specifically comprises:

By the first adsorption structure, cutting knife is adsorbed on the base of fixed structure.

Further, also comprise:

The fixed structure being controlled fixed cutting tool by lifting unit is moved to the direction of the footstock away from the second adsorption structure, and wherein said first surface is arranged on this footstock;

Adjustment is arranged at the measuring staff of the differential head on footstock, and the length making the first end of described measuring staff expose to the part of described first surface is preset length;

Control fixed structure by lifting unit to move to the direction near described footstock, the base of fixed structure is contacted with the first end of differential head measuring staff.

The invention has the beneficial effects as follows: ensure that blade face is parallel with the moving direction of Anisotropically conductive film, increase cutting knife useful life, improve Anisotropically conductive film attaching yield.

Accompanying drawing explanation

Fig. 1 represents cutting knife fixed structure in prior art;

Fig. 2 represents Anisotropically conductive film sticking device structural representation of the present invention.

Embodiment

Be described in detail to structure of the present invention and principle below in conjunction with accompanying drawing, illustrated embodiment, only for explaining the present invention, not limits protection scope of the present invention with this.

As shown in Figure 2, the present embodiment provides a kind of Anisotropically conductive film 10 adhering device, comprises

For cutting the cutting knife 1 of Anisotropically conductive film 10 when Anisotropically conductive film 10 moves;

For cutting knife 1 fixed mechanism of fixed cutting tool 1;

Described cutting knife 1 fixed mechanism comprises:

For the fixed structure of fixed cutting tool 1;

First adsorption structure, is arranged at the side of cutting knife 1, makes cutting knife 1 be positioned at primary importance on the direction vertical with Anisotropically conductive film 10 moving direction for the absorption cutting knife 1 when adjusting cutting knife 1;

Second adsorption structure, is oppositely arranged with described fixed structure, and described second adsorption structure has the first surface parallel with Anisotropically conductive film 10 moving direction;

When adjusting cutting knife 1, described second adsorption structure provides suction to make cutting knife 1 blade face contact to be adjusted to parallel with the moving direction of Anisotropically conductive film 10 by cutting knife 1 blade face with described first surface to cutting knife 1.

When Anisotropically conductive film 10 adhering device is in normal operating conditions, Anisotropically conductive film 10 moves horizontally, cutting knife 1 is strip structure, bar shaped cutting knife 1 is vertical with the moving direction of Anisotropically conductive film 10 to be arranged, in order to ensure the yield that Anisotropically conductive film 10 attaches, then to ensure that the blade face of cutting knife 1 one end parallels with the moving direction of Anisotropically conductive film 10.When being in normal operating conditions, first adsorption structure and the second adsorption structure are positioned at the both sides of Anisotropically conductive film 10, as shown in Figure 2, when adjusting cutting knife 1, the present embodiment adopts the first adsorption structure absorption cutting knife 1, prevent cutting knife 1 from dropping, namely cutting knife 1 is made to be positioned at primary importance on the direction vertical with Anisotropically conductive film 10 moving direction, simultaneously by the setting of the second adsorption structure, cutting knife 1 blade face is made to contact to be adjusted to parallel with the moving direction of Anisotropically conductive film 10 by cutting knife 1 blade face with described first surface, then ensure that cutting knife 1 blade face is parallel with the moving direction of Anisotropically conductive film 10, and due to the setting of the first adsorption structure and the second adsorption structure, after the operation of adjustment cutting knife 1 terminates, by fixed structure fixed cutting tool 1, prevent cutting knife 1 from offseting, improve the yield that Anisotropically conductive film 10 attaches.

In the present embodiment, the version for the fixed structure of fixed cutting tool 1 can have multiple, as long as realize can unclamping cutting knife 1 when adjusting cutting knife 1, can fixed cutting tool 1 after adjustment cutting knife 1 terminates, and in the present embodiment, described fixed structure comprises:

Base 2;

Grip block 7, one end is connected with described base 2, and the other end Part I corresponding with position on described base 2 forms the clamping part for clamping cutting knife 1.

Be connected by elastic component between described grip block 7 with described base 2.Facilitate the clamping of cutting knife 1 and unclamp.Described elastic component can be spring, but is not limited to this.

In order to ensure the stability that cutting knife 1 is fixing, described fixed structure also comprises the bolt 8 running through described base 2 and arrange with described grip block 7.

In the present embodiment, the version of described first adsorption structure can have multiple, as long as realize primary importance cutting knife 1 being fixed on the direction perpendicular with the moving direction of Anisotropically conductive film 10, as shown in Figure 2, cutting knife 1 is vertically placed, first adsorption structure prevents cutting knife 1 from dropping, in the present embodiment, described first adsorption structure is vacuum suction structure, described vacuum suction structure comprises the first through hole being arranged at described Part I, described through hole is connected with vacuum pump by pipeline 4, for when adjusting cutting knife 1, is adsorbed on described base 2 by cutting knife 1.

In the present embodiment, the version of described second adsorption structure also can have multiple, and in the present embodiment, described second adsorption structure comprises:

Have the footstock 3 of described first surface, described footstock 3 is oppositely arranged with described base 2;

Magnet 5, to be placed in described footstock 3 and to make described first surface have magnetic force.

In the present embodiment, described footstock 3 is metal material making, the first surface of footstock 3 is provided with an opening, extend internally formation one for holding the through hole of magnet 5 along this opening, due to footstock 3 for metal material makes, magnet 5 be arranged so that footstock 3 entirety has magnetic force, near the one side of cutting knife 1 on certain footstock 3, namely first surface has magnetic force.

Described first surface is being greater than the length of cutting knife 1 blade with the width on the length direction of cutting knife 1 blade, and namely cutting knife 1 blade is positioned at the coverage of described first surface upright projection completely.

In another embodiment, described footstock 3 itself can be made up of magnet 5, also can be that a part is made up of magnet 5, this part footstock 3 formed by magnet 5 has described first surface.

Second adsorption structure provides suction, cutting knife 1 blade face is contacted with described first surface, then ensure that cutting knife 1 blade face is parallel with the moving direction of Anisotropically conductive film 10, second adsorption structure the effect also played auxiliary first adsorption structure simultaneously and prevent cutting knife 1 from dropping is set, facilitate the adjustment of cutting knife 1.

In the present embodiment, Anisotropically conductive film 10 adhering device also comprises the adjustment structure of the spacing for regulating described footstock 3 and cutting knife 1 blade.Regulate the distance between cutting knife 1 blade and footstock 3, to adjust the approach of the cutting knife 1 when cutting Anisotropically conductive film 10.

The version of adjustment structure can have multiple, and in the present embodiment, described adjustment structure comprises:

Lifting unit, is connected with described base 2, for controlling the lifting of described base 2;

Differential head 6, is fixed on described footstock 3, and the measuring staff 62 of described differential head 6 is placed in the second through hole described footstock 3 running through the setting of described first surface, and the first end of described measuring staff 62 can expose to described first surface;

Described differential head 6, for carrying out spacing to described cutting knife 1, makes cutting knife 1 at predeterminated position and distance between described first surface and cutting knife 1 blade is predeterminable range.

When adjusting cutting knife 1, the measuring staff of differential head 6 is placed in described second through hole, prevent the adjustment affecting cutting knife 1, after cutting knife 1 adjustment terminates, lifting unit drives described base 2 away from footstock 3, then, the adjustment screw 61 of adjustment differential head 6 makes the first end of the measuring staff 62 of differential head 6 expose to described first surface, and the length that described measuring staff 62 exposes to the part of described first surface determines the distance between cutting knife 1 blade and footstock 3, when the length that described measuring staff exposes to the part of described first surface is preset length, lock described adjustment screw 61, then lifting unit drives base 2 to move to the direction near footstock 3, until base 2 contacts with the first end of measuring staff 62, make cutting knife 1 at predeterminated position and distance between described first surface and cutting knife 1 blade is predeterminable range, due to Anisotropically conductive film 10 adhering device in running order time, Anisotropically conductive film 10 is between footstock 3 and base 2, namely between cutting knife 1 and footstock 3, and cutting knife 1 exposes to the one side of base 2 near footstock 3, so the length that measuring staff 62 exposes to the part of described first surface is greater than cutting knife 1 expose to the length of base 2 near the one side of footstock 3.

When being in normal operating conditions, Anisotropically conductive film is between footstock and base and be positioned at the side of the measuring staff 62 of differential head 6.

In the present embodiment, Anisotropically conductive film 10 adhering device also comprises the guide frame for controlling Anisotropically conductive film 10 moving direction, and described guide frame is arranged at the side of described second adsorption structure.Described guide frame comprises two directive wheels 9 being arranged at footstock 3 both sides respectively, and when Anisotropically conductive film moves, the edge of described directive wheel contacts the mobile route to limit Anisotropically conductive film with Anisotropically conductive film.

Anisotropically conductive film 10 adhering device also comprises the briquetting 11 for carrying out attaching Anisotropically conductive film 10, and this briquetting 11 is arranged at footstock 3 side relative with described directive wheel 9.

The present embodiment also provides a kind of method adopting Anisotropically conductive film sticking device to adjust cutting knife, comprises the following steps:

Unclamp the fixed structure of fixed cutting tool 1;

Cutting knife 1 is made to be positioned at primary importance on the direction vertical with Anisotropically conductive film moving direction by the first adsorption structure absorption cutting knife;

Suction is provided to make cutting knife blade face contact to be adjusted to parallel with the moving direction of Anisotropically conductive film by cutting knife blade face with first surface by the second adsorption structure to cutting knife 1, wherein first surface is arranged on the second adsorption structure, and first surface is parallel with Anisotropically conductive film moving direction;

The structure that is locked is with fixed cutting tool 1.

Preferably, the primary importance by the first adsorption structure absorption cutting knife 1, cutting knife 1 being positioned on the direction vertical with Anisotropically conductive film moving direction specifically comprises:

By the first adsorption structure, cutting knife is adsorbed on the base 2 of fixed structure.

Preferably, also comprise:

The fixed structure being controlled fixed cutting tool 1 by lifting unit is moved to the direction of the footstock 3 away from the second adsorption structure, and wherein said first surface is arranged on this footstock 3;

Adjustment is arranged at the measuring staff 62 of the differential head 6 on footstock 3, and the length making the first end of described measuring staff 62 expose to the part of described first surface is preset length;

Control fixed structure by lifting unit to move to the direction near described footstock 3, the base 2 of fixed structure is contacted with the first end of differential head 6 measuring staff.

Below introduce the detailed process that in the present embodiment, cutting knife 1 adjusts.

Unclamp the bolt 8 of fixed clamp plate 7 and base 2, by vacuum suction structure, cutting knife 1 is adsorbed on base 2, prevent cutting knife 1 from dropping from base 2, by the setting of magnet 5 on footstock 3, cutting knife 1 blade face is contacted with the first surface near base 2 on footstock 3, parallel with the moving direction of Anisotropically conductive film 10 to adjust cutting knife 1 blade face, after adjustment cutting knife 1 terminates, clamping screw 8 is to be fixed on base 2 by stable for cutting knife 1, then lifting unit drives base 2 to move to the direction away from footstock 3, then, the adjustment screw 61 of adjustment differential head 6 makes the first end of the measuring staff 62 of differential head 6 expose to described first surface, and the length that described measuring staff 62 exposes to the part of described first surface determines the distance between cutting knife 1 blade and footstock 3, when the length that described measuring staff 62 exposes to the part of described first surface is preset length, lock described adjustment screw 61, then lifting unit drives base 2 to move to the direction near footstock 3, until base 2 contacts with the first end of measuring staff 62, make cutting knife 1 at predeterminated position and distance between described first surface and cutting knife 1 blade is predeterminable range.

The above is present pre-ferred embodiments; it should be pointed out that to those skilled in the art, under the prerequisite not departing from principle of the present invention; can also carry out some improvements and modifications, these improvements and modifications also should be considered as scope.

Claims (12)

1. an Anisotropically conductive film sticking device, comprises

For cutting the cutting knife of Anisotropically conductive film when Anisotropically conductive film moves;

For the cutting knife fixed mechanism of fixed cutting tool;

It is characterized in that, described cutting knife fixed mechanism comprises:

For the fixed structure of fixed cutting tool;

First adsorption structure, is arranged at the side of cutting knife, makes cutting knife be positioned at primary importance on the direction vertical with Anisotropically conductive film moving direction for the absorption cutting knife when adjusting cutting knife;

Second adsorption structure, is oppositely arranged with described fixed structure, and described second adsorption structure has the first surface parallel with Anisotropically conductive film moving direction;

When adjusting cutting knife, described second adsorption structure provides suction to make cutting knife blade face contact to be adjusted to parallel with the moving direction of Anisotropically conductive film by cutting knife blade face with described first surface to cutting knife.

2. Anisotropically conductive film sticking device according to claim 1, is characterized in that, described fixed structure comprises:

Base;

Grip block, one end is connected with described base, and the other end Part I corresponding with position on described base forms the clamping part for clamping cutting knife.

3. Anisotropically conductive film sticking device according to claim 2, is characterized in that, is connected between described grip block with described base by elastic component.

4. Anisotropically conductive film sticking device according to claim 2, is characterized in that, described fixed structure also comprises the bolt running through described base and described grip block and arrange.

5. Anisotropically conductive film sticking device according to claim 2, it is characterized in that, described first adsorption structure is vacuum suction structure, described vacuum suction structure comprises the first through hole being arranged at described Part I, described through hole is connected with vacuum pump by pipeline, for when adjusting cutting knife, cutting knife is adsorbed on described base.

6. Anisotropically conductive film sticking device according to claim 2, is characterized in that, described second adsorption structure comprises:

Have the footstock of described first surface, described footstock and described base are oppositely arranged;

Magnet, to be placed in described footstock and to make described first surface have magnetic force.

7. Anisotropically conductive film sticking device according to claim 6, is characterized in that, also comprises the adjustment structure of the spacing for regulating described footstock and cutting knife blade.

8. Anisotropically conductive film sticking device according to claim 7, is characterized in that, described adjustment structure comprises:

Lifting unit, is connected with described base, for controlling the lifting of described base;

Differential head, is fixed on described footstock, and the measuring staff of described differential head is placed in the second through hole described footstock running through the setting of described first surface, and the first end of described measuring staff can expose to described first surface;

Described differential head is used for carrying out spacing to described cutting knife, makes cutting knife at predeterminated position and distance between described first surface and cutting knife blade is predeterminable range.

9. Anisotropically conductive film sticking device according to claim 6, it is characterized in that, also comprise the guide frame for controlling Anisotropically conductive film moving direction, described guide frame comprises two directive wheels being arranged at described footstock both sides respectively, when Anisotropically conductive film moves, the edge of described directive wheel contacts the mobile route to limit Anisotropically conductive film with Anisotropically conductive film.

10. adopt the method for the Anisotropically conductive film sticking device adjustment cutting knife described in any one of claim 1-9, it is characterized in that, comprise the following steps:

Unclamp the fixed structure of fixed cutting tool;

Cutting knife is made to be positioned at primary importance on the direction vertical with Anisotropically conductive film moving direction by the first adsorption structure absorption cutting knife;

Suction is provided to make cutting knife blade face contact to be adjusted to parallel with the moving direction of Anisotropically conductive film by cutting knife blade face with first surface by the second adsorption structure to cutting knife, wherein first surface is arranged on the second adsorption structure, and first surface is parallel with Anisotropically conductive film moving direction;

Be locked structure with fixed cutting tool.

The method of 11. adjustment cutting knifes according to claim 10, is characterized in that, primary importance cutting knife being positioned on the direction vertical with Anisotropically conductive film moving direction by the first adsorption structure absorption cutting knife specifically comprises:

By the first adsorption structure, cutting knife is adsorbed on the base of fixed structure.

The method of 12. adjustment cutting knifes according to claim 10, is characterized in that, also comprise:

The fixed structure being controlled fixed cutting tool by lifting unit is moved to the direction of the footstock away from the second adsorption structure, and wherein said first surface is arranged on this footstock;

Adjustment is arranged at the measuring staff of the differential head on footstock, and the length making the first end of described measuring staff expose to the part of described first surface is preset length;

Control fixed structure by lifting unit to move to the direction near described footstock, the base of fixed structure is contacted with the first end of differential head measuring staff.