CN215420972U

CN215420972U - Cell piece feedway and pad pasting equipment

Info

Publication number: CN215420972U
Application number: CN202121603951.XU
Authority: CN
Inventors: 王裕贤; 林智远; 张元译
Original assignee: Horng Terng Automation Co Ltd
Current assignee: Horng Terng Automation Co Ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2022-01-04
Anticipated expiration: 2031-07-15

Abstract

The utility model provides a unit piece feeding device and film sticking equipment, wherein the unit piece feeding device comprises a feeding module, a cutting member and a transfer module, the film sticking equipment comprises a machine table, a unit piece feeding device arranged on the machine table, a control module, a detection module, a sticking member and a positioning module, the feeding module is used for installing a material coil formed by winding a material belt attached with a plurality of membranes at equal intervals, the machine table can bear at least one object to be processed, the film sticking equipment controls the transfer module to grab the material belt through the control module and separates the material belt unit piece from the material coil through the cutting member, the sticking member can move the material belt unit piece and detect the membrane and correct the position of the positioning module through the detection module, so that the membrane is accurately stuck to the object to be processed, and the heat dissipation effect of the object to be processed is effectively prevented from being influenced.

Description

Cell piece feedway and pad pasting equipment

Technical Field

The utility model relates to a unit piece feeding device and film sticking equipment, in particular to a unit piece feeding device capable of independently separating a film piece from a material roll and film sticking equipment which is provided with the unit piece feeding device and can stick the film piece to an object to be processed.

Background

With the technological progress, more and more electronic products come out one after another, and electronic products are provided with circuit boards and electronic components assembled on the circuit boards, when the electronic products operate, the electronic components are electrified and generate heat energy, so that the heat dissipation of the electronic components and the circuit boards is important in order to avoid the electronic components from malfunctioning due to overheating, and therefore, manufacturers can attach a heat dissipation membrane on the circuit boards to enhance the heat dissipation effect in addition to enhancing the ventilation and heat dissipation of the electronic products.

The film sticking device comprises a material feeding wheel, a recycling wheel and a film pressing device, wherein the film pressing device is positioned between the recycling wheel and the material feeding wheel, the material roll is positioned at the material feeding wheel, the front end of the dividing belt is arranged on the recycling wheel, so that the dividing belt of the material roll and the heat dissipation film pass through the film pressing device, and the circuit board is positioned at the film pressing device and under the dividing belt.

When the film sticking operation is carried out, the feeding wheel and the recovery wheel rotate to enable the division belt and the heat dissipation film on the division belt to advance, when the heat dissipation film moves above the circuit board, the film pressing device can press the heat dissipation film downwards to enable the heat dissipation film to be stuck on the circuit board, and the recovery wheel can recover the division belt.

However, when the heat dissipation film is attached to the circuit board by the film pressing device, the heat dissipation film can move forward only by the separation belt driven by the feeding wheel and the recycling wheel, and the feeding wheel and the recycling wheel may generate errors when rotating, so that the position of the film may be shifted, and the heat dissipation film cannot be accurately attached to the default position on the circuit board when being attached, and the heat dissipation effect of the circuit board is affected, so that there is still room for improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a unit chip feeding device and a film sticking device, so as to solve the problem that the prior film sticking device cannot be accurately positioned when a heat dissipation film is stuck.

To achieve the above objects, the present invention provides a die feeding device comprising:

the feeding module can be used for installing a material roll formed by winding a material belt attached with a plurality of membranes at equal intervals;

the cutting component is arranged adjacent to the feeding module; and

the moving and carrying module is arranged adjacent to the cutting component, the feeding module can be controlled to drive the material roll to output the material belt towards the cutting component, the moving and carrying module can move the tail end of the material belt to pass through the cutting component, and the cutting component can be controlled to cut a material belt unit piece which comprises the material belt with a certain length and a membrane attached to the material belt unit piece and is used for cutting the passing material belt at a fixed length.

To achieve the above object, the present invention further provides a film pasting apparatus comprising:

the machine platform is defined with an X axial direction and a Y axial direction which are vertical to each other and are positioned on a horizontal reference plane, and is provided with a feeding area, a material cutting area, a temporary placement area, a detection area, a contraposition area and a film pasting area in a planning mode, wherein the material cutting area is positioned on one side of the X axial direction of the feeding area, the temporary placement area and the detection area are sequentially arranged on one side of the Y axial direction of the material cutting area, the contraposition area and the film pasting area are sequentially arranged on one side of the temporary placement area along the X axial direction, and the film pasting area can be used for bearing at least one object to be processed;

a control module, it is set up on the machine;

the unit piece feeding device comprises a feeding area, a cutting component, a transferring module, a control module and a temporary storage area, wherein the feeding module is arranged in the feeding area, the cutting component is arranged between the feeding area and the material intercepting area, the transferring module is arranged in the material intercepting area, the feeding module, the cutting component and the transferring module are all connected and controlled by the control module, and the transferring module can move the intercepted material belt unit pieces among the material intercepting area, the temporary storage area and the detection area;

the detection module is arranged in the detection area of the machine station and is controlled by the control module to detect the diaphragm of the material belt unit sheet when the material belt unit sheet passes through;

the paster component is arranged in the film pasting area of the machine and is controlled by the control module, the paster component comprises a paster unit and a removing unit, the paster unit can drive the material belt unit pieces to move among the temporary placement area, the alignment area and the film pasting area, the film pieces of the material belt unit pieces can be pasted on the objects to be processed in the film pasting area, and the removing unit can remove the material belt of the material belt unit pieces from the film pieces; and

and the alignment module is arranged in the alignment area of the machine table and is controlled by the control module to align the material belt unit sheets when the material belt unit sheets pass through.

Preferably, the film pasting device as described above, wherein the transferring module includes a grabbing unit and a horizontal moving unit, the grabbing unit can move the end of the material tape to the material intercepting region and can move between the material intercepting region and the temporary placement region, and the horizontal moving unit can receive the material tape unit pieces from the grabbing unit and can move the material tape unit pieces between the temporary placement region and the detection region.

Preferably, as aforementioned film sticking equipment, wherein the detection module includes a vision detection unit and a laser detection unit, the vision detection unit and the laser detection unit are disposed at an interval, the vision detection unit can detect whether the film of the tape unit piece is damaged, and the laser detection unit can detect the thickness of the film of the tape unit piece.

Preferably, as aforementioned, the removing unit includes an absorber and a fixing hook, the fixing hook is movably disposed on one side of the absorber, and the absorber can absorb the tape of the tape unit piece.

Preferably, the film laminating apparatus comprises a rolling wheel capable of pivoting.

Preferably, the film laminating apparatus as described above, wherein the patch member comprises a rolling wheel capable of moving and pivoting.

Preferably, as aforementioned, the film pasting apparatus, wherein the feeding module includes a feeding seat and a feeding wheel, the cutting member, the feeding seat, the feeding wheel and the material roll are disposed at intervals in sequence, and the feeding wheel can drive the material roll to output the end of the material belt toward the feeding seat.

The film sticking equipment can be used for sticking the film on the material roll to the object to be processed, arranging the material roll on the feeding module of the unit sheet feeding device positioned in the feeding area, and automatically operating under the control of the control module after arranging the object to be processed in the film sticking area.

The moving module of the unit piece feeding device can move the material belt from the feeding module and cut the material belt unit pieces through the cutting component, the moving module passes through the detection module again to enable the membrane pieces of the material belt unit pieces to be detected, then the pasting unit can move the material belt unit pieces from the moving module and correct the positions of the membrane pieces of the material belt unit pieces through the alignment module, then the membrane pieces of the material belt unit pieces are pasted on the object to be processed, the removing unit can remove the material belt of the material belt unit pieces, namely, the pasting operation is completed, wherein the material belt unit pieces can be separated from the material belt through the unit piece feeding device, the moving module can independently move the design of the membrane pieces of the material belt unit pieces, so that the pasting equipment can correct the positions and angles of the membrane pieces through the pasting component and the alignment module, borrow this can with the diaphragm is accurately pasted and is established to treat on the processing thing, and then can effectively avoid treating the radiating effect of processing thing receives the influence.

Drawings

FIG. 1: a schematic plan view of a preferred embodiment of the die feeding apparatus of the present invention

FIG. 2: is a schematic top plan view of a preferred embodiment of the film laminating apparatus of the present invention.

FIG. 3: the utility model is a schematic diagram of an embodiment of cutting a material belt by a cutting component of the film sticking equipment.

FIG. 4: the utility model is a schematic diagram of an embodiment of a transfer module moving a carrier tape unit piece passing detection module of a film sticking device.

FIG. 5: the utility model is a schematic diagram of an implementation mode that a paster unit of the film sticking equipment moves a material belt unit sheet and aligns.

FIG. 6: the utility model is a schematic diagram of an implementation mode of pressing a diaphragm of a material belt unit piece and an object to be processed by a rolling wheel of film sticking equipment.

FIG. 7: the present invention is a schematic diagram of an embodiment of a suction device of a removing unit of a film pasting device for sucking a material tape of unit sheets.

FIG. 8: the present invention is a schematic diagram of an embodiment of a removing unit of a film pasting device for removing a tape of tape unit pieces.

Detailed Description

The technical means adopted by the utility model to achieve the predetermined purpose of the utility model will be further described below with reference to the drawings and preferred embodiments of the utility model.

Referring to fig. 1, a preferred embodiment of a die feeding device according to the present invention includes a feeding module 10, a cutting member 20, and a transferring module 30.

As shown in fig. 1, the feeder module 10 can be used to house a roll 90 of wound material strip 91 with a plurality of film strips 92 attached at equal intervals.

As shown in FIG. 1, the cutting member 20 is positioned adjacent to the feed module 10.

The feeding module 10 can include a feeding base 11 and a feeding wheel 12, and the cutting member 20, the feeding base 11, the feeding wheel 12 and the material roll 90 are sequentially disposed at intervals.

As shown in fig. 1, the transferring module 30 is disposed adjacent to the cutting member 20.

The feeding module 10 can be controlled to drive the material roll 90 to output the material strip 91 toward the cutting member 20, the transferring module 30 can transfer the end of the material strip 91 to pass through the cutting member 20, and the cutting member 20 can be controlled to cut a material strip unit 93 including the material strip 91 with a certain length and a film 92 attached thereon according to a fixed length for the passing material strip 91.

Referring to fig. 2, a film laminating apparatus according to a preferred embodiment of the present invention includes a die feeding device, a stage 40, a control module 50, a detection module 60, a chip mounting member 70 and an alignment module 80.

As shown in fig. 2, the machine 40 defines an X-axis direction and a Y-axis direction perpendicular to each other on a horizontal reference plane, and the machine 40 is provided with a material supply region 41, a material cutting region 42, a temporary region 43, a detection region 44, a counterpoint region 45 and a film pasting region 46 in a planned manner, the material cutting region 42 is located on one side of the material supply region 41 in the X-axis direction, the temporary region 43 and the detection region 44 are sequentially disposed on one side of the material cutting region 42 in the Y-axis direction, the counterpoint region 45 and the film pasting region 46 are sequentially disposed on one side of the temporary region 43 along the X-axis direction, and the film pasting region 46 can be used for bearing at least one object a to be processed.

The machine table 40 can be provided with a disposal opening (not shown) and a film holder 401 located in the film region 46, the film holder 401 can carry the object a to be processed and can be controlled by the control module 50 to move the objects a to be processed, in a preferred embodiment of the present invention, the film holder 401 can carry a plurality of objects a to be processed.

As shown in fig. 2, the control module 50 is disposed on the machine 40.

As shown in fig. 2, the feeding module 10 is disposed in the feeding area 41, the cutting member 20 is disposed between the feeding area 41 and the material intercepting area 42, the transferring module 30 is disposed in the material intercepting area 42, the feeding module 10, the cutting member 20 and the transferring module 30 are all connected and controlled by the control module 50, the transferring module 30 can move the intercepted material belt unit pieces 93 among the material intercepting area 42, the temporary area 43 and the detecting area 44, and the transferring module 30 can move perpendicular to the horizontal reference plane.

The feeding seat 11 of the feeding module 10 is located at a side of the feeding area 41 adjacent to the material stopping area 42, the feeding seat 11, the feeding wheel 12 and the material roll 90 are sequentially arranged at intervals along the X-axis, and the feeding wheel 12 can drive the material roll 90 to output the end of the material strip 91 toward the feeding seat 11.

In addition, in the preferred embodiment of the film laminating apparatus of the present invention, as shown in fig. 1 to fig. 3, a plurality of positioning holes 911 are formed at intervals on two sides of the material tape 91, and the material feeding wheel 12 is formed with positioning flanges 121 corresponding to the plurality of positioning holes 911.

In addition, as shown in fig. 3, the feeding module 10 can include a collecting wheel 13, the collecting wheel 13 is located below the feeding seat 11 and the feeding wheel 12, if the material roll 90 further includes a separating belt 94 attached to the plurality of film sheets 92, when the feeding wheel 12 conveys the material belt 91 and the film sheets 92 to the feeding seat 11, the collecting wheel 13 can recover the separating belt 94.

As shown in fig. 2, in the preferred embodiment of the film pasting apparatus of the present invention, the transferring module 30 includes a grabbing unit 31 and a horizontal moving unit 32, the grabbing unit 31 can move the end of the tape 91 to the material intercepting region 42 and can move between the material intercepting region 42 and the temporary region 43, the horizontal moving unit 32 can receive the tape unit 93 from the grabbing unit 31 and can move the tape unit 93 between the temporary region 43 and the detection region 44, and the grabbing unit 31 and the horizontal moving unit 32 can absorb the tape 91 and the tape unit 93 by using the vacuum principle.

In addition, as shown in fig. 3, the grabbing unit 31 is formed with a plurality of spacing flanges 311 arranged at intervals, the center of the horizontal moving unit 32 is hollow, when the horizontal moving unit 32 bears the tape unit 93, the tape 91 of the tape unit 93 is placed on the horizontal moving unit 32, and the film 92 of the tape unit 93 is located at a hollow position on the horizontal moving unit 32.

Alternatively, the transferring module 30 can be a robot arm capable of moving in three-dimensional space, and the robot arm can grip and move the end of the tape 91 for the cutting member 20 to cut, and move the tape unit 93 among the material cutting area 42, the temporary placement area 43, and the detection area 44 (not shown).

As shown in fig. 2, the detecting module 60 is disposed in the detecting area 44 of the machine table 40 and is controlled by the control module 50 to detect the film 92 of the tape unit 93 when the tape unit 93 passes through, wherein the detecting module 60 includes a visual detecting unit 61 and a laser detecting unit 62, the visual detecting unit 61 and the laser detecting unit 62 are disposed at an interval, the visual detecting unit 61 can detect whether the film 92 of the tape unit 93 is damaged, and the laser detecting unit 62 can detect the thickness of the film 92 of the tape unit 93.

As shown in fig. 2, the patch component 70 is disposed in the film pasting region 46 of the machine table 40 and controlled by the control module 50, the patch component 70 includes a patch unit 71 and a removal unit 72, the patch unit 71 can drive the tape unit 93 to move among the temporary placement region 43, the alignment region 45 and the film pasting region 46, and can paste the film 92 of the tape unit 93 on the object a to be processed of the film pasting region 46, and the removal unit 72 can remove the tape 91 of the tape unit 93 from the film 92.

In addition, referring to fig. 7 and 8, the removing unit 72 includes an absorber 721 and a fixing hook 722, the fixing hook 722 is movably disposed at one side of the absorber 721, the absorber 721 can absorb the tape 91 of the tape unit 93 by using the vacuum principle, wherein the fixing hook 722 has a fixing end 723 at its end.

In addition, the patch member 70 includes a rolling wheel 73 capable of pivoting, and the rolling wheel 73 can be used to roll the tape unit piece 93 attached to the object to be processed a.

As shown in fig. 2, the aligning module 80 is disposed in the aligning area 45 of the machine 40 and controlled by the control module 50 to align the tape unit 93 when the tape unit 93 passes through.

The film pasting device of the present invention can be used for pasting the film 92 on the material roll 90 to the object a to be processed, the material roll 90 can be arranged on the feeding module 10 of the unit piece feeding device located in the feeding area 41 of the machine table 40, the object a to be processed can be placed on the film pasting seat 401 of the film pasting area 46, and the film pasting device can automatically operate under the control of the control module 50.

The end of the material tape 91 is disposed on the feeding seat 11, the positioning hole 911 of the material tape 91 corresponds to the positioning flange 121 of the feeding wheel 12, and the film 92 is located below the material tape 91, and the film pasting seat 401 can move along the Y-axis direction and can transport the object to be processed a in cooperation with an automated process.

As shown in fig. 3, the control module 50 can control the feeding wheel 12 to rotate, so that the material strip 91 is conveyed to a fixed position on the feeding seat 11, and control the grabbing unit 31 of the transferring module 30 to move to the feeding area 41 to grab the material strip 91, and then drag the material strip 91 to the material intercepting area 42 along the X-axis direction and pass through the cutting member 20, and then the control module 50 can control the cutting member 20 to intercept the material strip 91, so that the grabbing unit 31 only grabs the material strip unit 93, and the grabbing unit 31 moves to the temporary area 43, and descends to place the material strip unit 93 on the horizontal moving unit 32.

The grabbing unit 31 can position the tape 91 and the tape unit pieces 93 by the positioning holes 911 on the two sides of the tape 91 corresponding to the limiting flanges 311, and both the grabbing unit 31 and the horizontal moving unit 32 can suck the tape 91 and the tape unit pieces 93 by vacuum, so as to fix the tape 91 and the tape unit pieces 93 reliably.

As shown in fig. 4, the horizontal moving unit 32 supports the tape unit 93, moves to the detection area 44 along the Y-axis, and then passes through the visual detection unit 61 and the laser detection unit 62 of the detection module 60, so as to detect whether the film 92 of the tape unit 93 is damaged by the visual detection unit 61, and detect whether the thickness of the film 92 of the tape unit 93 meets the standard by the laser detection unit 62, so that manufacturers can avoid using the film 92 that does not meet the standard, thereby improving the yield of products.

As shown in fig. 5, after the film 92 of the tape unit 93 on the horizontal moving unit 32 passes through the detection module 60, the horizontal moving unit 32 moves to the temporary location area 43 along the Y-axis, the patch unit 71 of the patch member 70 located in the temporary location area 43 descends to suck the tape 91 of the tape unit 93 from the horizontal moving unit 32 by using vacuum, then the patch unit 71 moves to the alignment area 45 along the X-axis, the control module 50 can provide correction through the alignment module 80 of the alignment area 45 to control the patch unit 71 to rotate and move, thereby adjusting the film 92 of the tape unit 93 to a proper position and angle, then the patch unit 71 moves to the film location 46, and moves the tape unit 93 above the object a to be processed located on the film mounting seat 401, and descends to attach the film 92 of the tape unit 93 to a default position on the object a to be processed.

As shown in fig. 6, after the patch unit 71 releases the tape unit 93 and the film 92 of the tape unit 93 is adhered to the object a to be processed, the rolling wheel 73 of the patch member 70 is lowered and contacts the tape 91 of the tape unit 93, and the rolling wheel 73 can move back and forth along the X-axis and roll the tape unit 93, so that the film 92 of the tape unit 93 is tightly adhered to the object a to be processed, thereby improving the stability of the placement of the film 92.

As shown in fig. 7 and 8, the control module 50 can then control the suction device 721 of the removing unit 72 of the patch member 70 to descend, and suck one side of the tape 91 of the tape unit sheet 93, the pickups 721 are raised again to lift the edge of the tape 91 of the tape unit die 93, which, in turn, the control module 50 controls the fixing hook 722 of the removing unit 72 to descend, so that the fixed end 723 of the fixing hook 722 is located below the tape 91 of the tape unit sheet 93, and then controls the fixing hook 722 to operate, so that the suction device 721 and the fixed end 723 can fasten the tape 91 of the tape unit chip 93, and controlling the removing unit 72 to move along the X axis to remove the tape 91 of the tape unit 93 from the film 92 of the tape unit 93, and then discarding the tape 91 of the tape unit 93 through the discarding port of the machine table 40, thereby completing the operation of film pasting.

In summary, the cutting member 20 and the transferring module 30 of the unit piece feeding device of the present invention can separate the unit tape pieces 93 from the material roll 90, and the film pasting apparatus can control the pasting unit 71 to move the unit tape pieces 93 through the control module 50, and correct the position and angle of the film 92 of the unit tape pieces 93 through the aligning module 80, so that the film 92 of the unit tape pieces 93 can be accurately pasted to the default position on the object to be processed a, and the heat dissipation effect of the object to be processed a can be effectively prevented from being affected.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. A die feed apparatus, comprising:

the cutting component is arranged adjacent to the feeding module; and

2. A film laminating apparatus, comprising:

a control module, it is set up on the machine;

the unit piece feeding device according to claim 1, wherein the feeding module is disposed in the feeding area, the cutting member is disposed between the feeding area and the material intercepting area, the transferring module is disposed in the material intercepting area, the feeding module, the cutting member and the transferring module are all connected to be controlled by the control module, and the transferring module can move the intercepted material-strap unit pieces among the material intercepting area, the temporary area and the detecting area;

3. The film laminating apparatus of claim 2, wherein the transfer module comprises a grabbing unit capable of moving the end of the tape to the material intercepting region and moving between the material intercepting region and the temporary region, and a horizontal moving unit capable of receiving the tape unit from the grabbing unit and moving the tape unit between the temporary region and the detection region.

4. The laminating machine of claim 2, wherein the inspection module comprises a vision inspection unit and a laser inspection unit, the vision inspection unit and the laser inspection unit are spaced apart from each other, the vision inspection unit is capable of inspecting whether the film of the tape unit is damaged, and the laser inspection unit is capable of inspecting the thickness of the film of the tape unit.

5. The laminating machine of claim 3 wherein said inspection module comprises a vision inspection unit and a laser inspection unit, said vision inspection unit and said laser inspection unit being spaced apart, said vision inspection unit being capable of inspecting whether said tape unit film is damaged, said laser inspection unit being capable of inspecting the thickness of said tape unit film.

6. The film pasting device as claimed in any one of claims 2 to 5, wherein the removing unit comprises a suction device and a fixing hook, the fixing hook is movably disposed on one side of the suction device, and the suction device can suck the tape of the tape unit chips.

7. The film laminating apparatus of any one of claims 2 to 5 wherein the patch member comprises a roller wheel capable of pivoting.

8. The film laminating apparatus of claim 6 wherein the patch member comprises a stitching wheel that is movable and pivotable.

9. The laminating apparatus according to any one of claims 2 to 5 wherein the feeding module comprises a feeding base and a feeding wheel, the cutting member, the feeding base, the feeding wheel and the material roll being spaced apart in sequence, the feeding wheel being capable of driving the material roll to output the end of the material strip toward the feeding base.

10. The laminating machine of claim 6 wherein the feeding module comprises a feeding base and a feeding wheel, the cutting member, the feeding base, the feeding wheel and the material roll being spaced in sequence, the feeding wheel being capable of driving the material roll to output the end of the material strip toward the feeding base.