CN113757237A - Spacing tool and spacing compression fittings - Google Patents

Abstract

The invention relates to a limit jig and a limit pressing device, wherein the limit pressing device comprises a limit jig and a pressure supply mechanism connected with the limit jig, the limit jig comprises an upper die and a lower die which are opposite up and down and can move up and down, and a limiting mechanism arranged between the upper die and the lower die, wherein the limiting jig is mainly characterized in that a limiting component is arranged at the workpiece aligning port of the limiting module, and the upper die is provided with a corresponding pressing component corresponding to the position limiting component, so that the position limiting jig and the position limiting pressing device of the invention can mainly utilize the position limiting structure of the position limiting mechanism to match with the pressing structure of the upper die, so that in the pressing operation process of the workpiece, can respectively push and position the upper part and the lower part of the workpiece through the pushing and supporting part of the limiting structure, not only can be suitable for the pressing operation of workpieces with various sizes, meanwhile, the requirement of the size precision of the workpiece alignment port can be reduced, and further the production cost of the die is reduced.

Description

Spacing tool and spacing compression fittings

Technical Field

The present invention relates to a positioning jig and a positioning pressing device, and more particularly to a positioning jig and a positioning pressing device for positioning a substrate such as a semiconductor device and a heat sink and providing a pressing operation.

Background

With the development of technology and technology, the requirement for information processing speed is increased, and the conventional semiconductor device is gradually developed towards high frequency, and the high frequency semiconductor device is likely to generate high temperature during the working process, so that, in order to avoid the problem of high temperature damage or performance degradation of the semiconductor device, the conventional semiconductor device can provide a cooling effect through an external heat dissipation structure, and in addition, a heat dissipation sheet with a heat dissipation improvement function is pressed on a substrate provided with a semiconductor chip during the manufacturing process of the semiconductor device, so that the high temperature generated during the working process of the semiconductor device can be conducted to the heat dissipation sheet, and the heat dissipation area is enlarged through the heat dissipation sheet, thereby achieving the heat dissipation effect.

In the conventional process of laminating a heat sink on a substrate, after a heat conductive adhesive is applied to the periphery of the top surface of the substrate having a semiconductor chip, the heat sink is initially attached to the substrate in an aligned manner, the semiconductor device with the heat sink attached thereto is placed on a carrier, the carrier with a plurality of semiconductor devices is then moved into a semiconductor device laminating machine, the upper and lower dies of a laminating jig in the semiconductor device laminating machine are used to oppositely laminate the substrate and the heat sink of the semiconductor device, and after the lamination is completed, the carrier with the semiconductor devices is taken out of the semiconductor device laminating machine.

And a limiting die is arranged between an upper die and a lower die of the pressing jig, a workpiece alignment port is formed on the limiting die, a guide inclined plane inclined from inside to outside is formed on the side wall of the workpiece alignment port, and when the pressing jig is manufactured, the substrate and the radiating fin of the semiconductor element can utilize the design of the guide inclined plane inclined from inside to outside of the workpiece alignment port, so that the guide inclined plane can push the radiating fin in the pressing action process, so that the radiating fin and the substrate are automatically aligned.

Disclosure of Invention

The main objective of the present invention is to provide a limiting jig and a limiting pressing device, so as to improve the precision requirement of the current workpiece alignment and improve the alignment effect.

To achieve the above object, the limiting jig of the present invention comprises:

a lower die;

the upper die is arranged above the lower die and provided with at least one pressing component, the pressing component comprises a plurality of pressing structures, and the pressing structures can be telescopically arranged at the bottom of the upper die; and

the limiting mechanism is arranged between the lower die and the upper die and comprises a limiting module and at least one limiting assembly, at least one workpiece aligning port corresponding to the upper die is formed in the limiting module, the limiting assembly comprises a plurality of limiting structures, the limiting structures are distributed on the periphery of the workpiece aligning port of the limiting module and respectively correspond to a plurality of pressing structures, each limiting structure is provided with a pushing part, and the pressing structures can press the limiting structures to enable the pushing parts to deflect towards the direction of the workpiece aligning port.

The lower die comprises a lower die plate and at least one lower die block, the lower die block is formed on the lower die plate, the lower die block can extend into a workpiece alignment port of the limiting module, a pivoting gap for the pushing unit to pivot is formed between the lower die block and the side wall of the corresponding workpiece alignment port, the upper die comprises at least one upper die block corresponding to the lower die block, at least one movable hole is formed in the upper die plate, the assembling holes are formed in the periphery of the movable hole, and the upper die block can be arranged in the movable hole in a vertically linear motion mode.

To achieve the above object, the present invention provides a spacing pressing device, comprising:

a limiting jig as described above; and

the pressure supply mechanism comprises a base, at least one pressure supply unit and a lifting drive assembly, wherein a movable space is arranged at the bottom of the base, an upper die of the limiting jig and the limiting mechanism can be arranged in the movable space in a vertically moving mode, the lower die is positioned below the base, the pressure supply unit can be arranged in the base in a vertically moving mode in a penetrating mode, the pressure supply unit is connected with the upper die block corresponding to the position and can provide downward pressure for the upper die block, and the lifting drive assembly is arranged in the base, is connected with the limiting mechanism and drives the limiting mechanism to move up and down.

The invention discloses a spacing jig and a spacing pressing device, which are applied to the work piece pressing operation of semiconductor elements, wherein the spacing pressing device mainly utilizes the relative pressing process of a lower die or an upper die, the lower die block of the lower die pushes the semiconductor element attached with a radiating fin into a work piece aligning opening of the spacing jig, then, when the lower die and the upper die are continuously pressed relatively, the spacing module of a spacing mechanism can be close to the upper die along with the movement of the lower die, and the pressing structures of the upper die can respectively push the corresponding spacing structures on the spacing mechanism, so that the pushing parts of the spacing structure respectively swing towards the work piece aligning opening, and simultaneously push and right the substrate of the semiconductor element and the radiating fin positioned above the substrate, so that the radiating fin and the substrate can be aligned up and down under the pushing of the pushing parts of the spacing structures, the pressure supply mechanism can keep a precise alignment state when the radiating fin is pressed on the substrate, and the product quality is further improved.

The limiting jig can utilize the plurality of limiting structures to match with the pushing parts of the pressing structures of the upper die to respectively push and position the radiating fins and the substrate, is suitable for the manufacturing process of semiconductor elements with various sizes, and can reduce the size precision requirement of the workpiece aligning port so as to reduce the production cost of the die.

Drawings

FIG. 1: is a schematic three-dimensional appearance diagram of a preferred embodiment of the limiting jig of the present invention.

FIG. 2: is a schematic top view cross-section view of the limiting jig of the present invention.

FIG. 3: is a schematic side-view cross-sectional view of the limiting jig of the present invention.

FIG. 4: is a partially enlarged schematic view of fig. 3.

FIG. 5: is an exploded view of the spacing and pressing device of the present invention.

FIG. 6: is a plane exploded schematic view of the spacing pressing device of the invention.

FIG. 7: the invention relates to a reference diagram (I) of a limiting pressing device in a use state applied to workpiece pressing operation.

FIG. 8: the invention relates to a reference diagram (II) of a using state of a limiting pressing device applied to workpiece pressing operation.

FIG. 9: is a schematic sectional view a-a of fig. 8.

FIG. 10: the invention relates to a reference diagram (III) of a using state of a limiting pressing device applied to workpiece pressing operation.

FIG. 11: is a schematic top cross-sectional view of fig. 10.

FIG. 12: the invention relates to a reference diagram (IV) of a using state of a limiting pressing device applied to workpiece pressing operation.

FIG. 13: the invention relates to a reference diagram (V) of a using state of a limiting pressing device applied to workpiece pressing operation.

Detailed Description

Referring to fig. 1 to 4, a limiting jig according to a preferred embodiment of the present invention includes a lower mold 10, an upper mold 20, and a limiting mechanism 30.

As shown in fig. 1 to 3, the upper mold 20 is installed above the lower mold 10, the upper mold 20 has at least one pressing component, the pressing component includes a plurality of pressing structures 22, and the plurality of pressing structures 22 are telescopically disposed at the bottom of the upper mold 20.

Wherein, it contains an cope match-plate pattern 21 to go up mould 20, cope match-plate pattern 21 forms a plurality of pilot holes 212, press to the subassembly set up in cope match-plate pattern 21, each pressure that presses to the subassembly is supported the structure 22 and is contained a fore-set 221 and an fore-set piece 222, the fore-set 221 sets up respectively in these a plurality of pilot holes 212, just the fore-set 221 is protruding to be stretched out corresponding pilot hole 212, the fore-set piece 222 that resets sets up in corresponding pilot hole 212 to can push against corresponding fore-set 221, make the fore-set 221 resets.

As shown in fig. 2 to 4, the limiting mechanism 30 is disposed between the lower die 10 and the upper die 20, the limiting mechanism 30 includes a limiting module 31 and at least one limiting component, the limiting module 31 is formed with at least one workpiece aligning opening 311, the limiting component includes a plurality of limiting structures 32, the plurality of limiting structures 32 are distributed on the periphery of the workpiece aligning opening 311 of the limiting module 31 and respectively correspond to the plurality of pressing structures 22, each limiting structure 31 has a pushing portion 322, and the pressing structures 22 can push against the limiting structures 31, so that the pushing portions 322 deflect toward the workpiece aligning opening 311.

The position-limiting module 31 forms a plurality of group-setting grooves 312 on the side wall of the workpiece alignment opening 311, the position-limiting structures 32 are disposed in the group-setting grooves 312, each position-limiting structure 32 includes a pushing-supporting unit 321 and a resetting member 324, the pushing-supporting unit 321 is pivoted in the corresponding group-setting groove 312, the pushing-supporting unit 321 faces the workpiece alignment opening 311 downward to form the pushing-supporting part 322, the resetting member 324 is disposed in the corresponding group-setting groove 312 and abuts against the bottom end of the pushing-supporting unit 321 to provide the function of resetting the pushing-supporting unit 321, the top pillar 221 of the pressing-supporting structure 22 can press the stacking-supporting unit 321, so that the pushing-supporting part 322 of the pushing-supporting unit 321 deflects toward the workpiece alignment opening 311.

As shown in fig. 4, each pushing unit 321 has a pressing portion 323 and the pushing portion 322, the pressing portion 323 is pivotally disposed in the corresponding assembling groove 312, the pushing portion 322 extends downward from the pressing portion 323 toward the workpiece aligning opening 311, the reset member 324 abuts against the bottom end of the pressing portion 323 of the pushing unit 321, the top pillar 221 of the pushing structure 22 can press against the corresponding pressing portion 323 of the pushing unit 321, so that the pushing portion 322 of the pushing unit 321 deflects toward the workpiece aligning opening 311, and the assembling grooves 312 are respectively disposed at the corners of the workpiece aligning opening 311.

Furthermore, as shown in fig. 3, the lower mold 10 includes a lower mold plate 11 and at least one lower mold block 12, the lower mold block 12 is formed on the lower mold plate 11, the lower mold block 12 can extend into the workpiece aligning opening 311 of the limiting module 31, a pivoting gap for the pivot of the pushing unit 321 is formed between the lower mold block 12 and the corresponding sidewall of the workpiece aligning opening 311, the upper mold 20 includes at least one upper mold block 23 corresponding to the lower mold block 12, the upper mold plate 21 is formed with at least one movable hole 211, the plurality of assembly holes 212 are formed on the periphery of the movable hole 211, and the upper mold block 23 can be vertically and linearly disposed in the movable hole 211.

Referring to fig. 5 and fig. 6, a limiting and pressing device according to a preferred embodiment of the present invention includes a limiting jig and a pressure supplying mechanism 40.

As shown in fig. 6, the pressure supply mechanism 40 includes a base 41, at least one pressure supply unit 42, and a lifting driving assembly 43, the bottom of the base 41 has a movable space, the upper mold 20 and the limiting mechanism 30 of the limiting jig can be disposed in the movable space in an up-and-down motion manner, the lower mold 10 is located below the base 41, the pressure supply unit 42 can be disposed in the base 41 in an up-and-down motion manner, the pressure supply unit 42 is connected to the upper mold 23 at a corresponding position and can provide a downward pressure to the upper mold 23, and the lifting driving assembly 43 is disposed in the base 41 and is connected to the limiting mechanism 30 and drives the limiting mechanism 30 to move up and down.

As shown in fig. 5 and 6, regarding the use situation of the limiting jig and the limiting pressing device of the present invention, the upper mold 20 can be connected to a pressure supply mechanism 40 to form a limiting pressing device, the pressure supply mechanism 40 can be selected from various existing pressure supply mechanisms 40, or the pressure supply mechanism 40 provided by the present invention is selected, and the lower mold 10 is connected to a lifting driving mechanism (not shown), so that the lower mold 10 can be driven to move up and down by the lifting driving mechanism, and the base 41 is fixed right above the lower mold 10 for pressing the workpieces 51 such as semiconductor devices.

As shown in fig. 7, before the bonding operation, the lower mold 10 can relatively support a workpiece tray 50 on which at least one workpiece 51 (e.g., a semiconductor device) is placed, the workpiece 51 has a lower part 53 (e.g., a substrate of the semiconductor device) and an upper part 52 (e.g., a heat sink of the semiconductor device), the upper part 52 is adhered to a top surface of the lower part 53 by a glue (e.g., a heat conductive glue, not shown), and the glue is in an uncured state before being bonded.

As shown in fig. 7 to 9, during the pressing operation of the workpiece 51, the lifting driving mechanism can push the lower die 10 and the workpiece tray 50 on which the workpiece 51 is placed to ascend together, and when the lower die 10 pushes the workpiece tray 50 to make the workpiece tray 50 abut against the limiting module 31, the lower die 12 of the lower die 10 pushes the workpiece 51 to make the workpiece 51 separate from the workpiece tray 50 and enter the workpiece aligning opening 311 corresponding to the limiting module 31.

Next, as shown in fig. 10 and 11, when the lower die 10 is continuously raised after the workpiece 51 completely enters the workpiece aligning opening 311, the lifting driving component 43 disposed in the base 41 drives the limiting module 31 of the limiting mechanism 30 to be raised along with the lower die 10, at this time, the abutting unit 321 located around the workpiece aligning opening 311 of the limiting module 31 abuts against the top pillar 221 of the upper die 20, and the top pillar 221 provides a downward pushing force to the pressing portion 323 of the abutting unit 321 under the abutting of the top pillar resetting piece 222, so that the pressing portion 322 deflects toward the workpiece aligning opening 311, and pushes the upper part 52 or the lower part 53 of the workpiece 51, so that the upper part 52 and the lower part 53 of the workpiece 51 can be guided and aligned under the pushing of the pressing portions 322 of the plurality of abutting units 321.

Next, as shown in fig. 12, the lower die 10 continues to rise, and the lifting driving assembly 43 disposed in the base 41 also continues to drive the limiting module 31 of the limiting mechanism 30 to rise together, so that the workpiece 51 contacts the upper module 23 of the upper die 20 under the pushing action of the lower module 12 and the limiting action of the plurality of pushing units 321, at this time, the lower module 12 continues to apply an upward pushing force to the lower module 53 of the workpiece 51, so that the pressure supply unit 42 and the upper module 23 in the pressure supply mechanism 40 apply a downward pressure to the upper module 52 of the workpiece 51, so that the workpiece 51 is pressed by the upward and downward clamping forces to compress the gap between the upper module 52 and the lower module 53, and the glue applied between the upper module 52 and the lower module 53 is pressed and spread, and at this time, the glue is gradually solidified in the pressing action, and the upper part 52 is firmly adhered to the lower part 53 for shaping.

As shown in fig. 13, after the workpiece 51 is pressed and shaped, the lifting driving mechanism will drive the lower mold 10 to descend and reset, the lifting driving component 43 disposed in the base 41 also drives the limiting module 31 to descend and reset together, in the process of lowering and resetting the position limiting module 31, the top pillar 221 will be separated from the pressing portion 323 of the pushing unit 321, and at this time, the reset member 324 will push the pushing unit 321 to reset, so that the pushing portion 322 of the pushing unit 321 is separated from the workpiece 51 and deflects towards the direction away from the workpiece aligning opening 311, then, the lower die 10 is continuously lowered to be reset, so that the workpiece 51 is completely carried by the workpiece carrying tray 50, and after the lower die 10 is lowered and reset, the workpiece bearing tray 50 bearing the workpiece 51 after the pressing is finished is moved away from the lower die 10, that is, the pressing operation of the workpiece 51 is completed, and the pressing operation of the next workpiece 51 can be continued.

In summary, the limiting jig and the limiting pressing device of the present invention can mainly utilize the limiting structure 32 of the limiting mechanism 30 to match with the pressing structure 22 of the upper mold 20, so that the workpiece 51 can respectively press and position the upper part 52 and the lower part 53 of the workpiece 51 through the pressing part 322 of the limiting structure 32 during the pressing operation, which not only can be suitable for pressing operation of workpieces 51 with various sizes, but also can reduce the requirement of the size precision of the workpiece aligning opening 311, thereby reducing the production cost of the mold.

Claims (10)

1. A spacing jig comprises:

a lower die;

the upper die is arranged above the lower die and provided with at least one pressing component, the pressing component comprises a plurality of pressing structures, and the pressing structures can be telescopically arranged at the bottom of the upper die; and

the limiting mechanism is arranged between the lower die and the upper die and comprises a limiting module and at least one limiting assembly, at least one workpiece aligning port is formed in the limiting module, the limiting assembly comprises a plurality of limiting structures, the limiting structures are distributed on the periphery of the workpiece aligning port of the limiting module and respectively correspond to the plurality of pressing structures, each limiting structure is provided with a pushing part, and the pressing structures can press the limiting structures to enable the pushing parts to deflect towards the direction of the workpiece aligning port.

2. The limiting jig according to claim 1, wherein the upper mold comprises an upper mold plate defining a plurality of assembly holes, the pressing member is disposed on the upper mold plate, each pressing structure of the pressing member comprises a supporting post and a supporting post resetting member, the supporting posts are disposed in the assembly holes respectively, the supporting posts protrude out of the corresponding assembly holes, and the supporting post resetting members are disposed in the corresponding assembly holes and can push against the corresponding supporting posts to reset the supporting posts.

3. The position-limiting jig of claim 1, wherein the position-limiting module forms a plurality of assembling grooves on the sidewall of the workpiece aligning opening, the plurality of position-limiting structures are disposed in the plurality of assembling grooves, each position-limiting structure comprises a pushing unit and a resetting member, the pushing unit is pivoted in the corresponding assembling groove, the pushing unit is downward facing the workpiece aligning opening to form the pushing portion, the resetting member is disposed in the corresponding assembling groove and abuts against the bottom end of the pushing unit to provide the function of resetting the pushing unit, and the pressing structure can press the pushing unit to deflect the pushing portion of the pushing unit toward the workpiece aligning opening.

4. The position-limiting jig of claim 2, wherein the position-limiting module forms a plurality of assembling grooves on the sidewall of the workpiece aligning opening, the plurality of position-limiting structures are disposed in the plurality of assembling grooves, each position-limiting structure comprises a pushing-supporting unit and a resetting member, the pushing-supporting unit is pivoted in the corresponding assembling groove, the pushing-supporting unit is downward formed in the direction facing the workpiece aligning opening to form the pushing-supporting portion, the resetting member is disposed in the corresponding assembling groove and abuts against the bottom end of the pushing-supporting unit to provide the function of resetting the pushing-supporting unit, and the top pillar of the pressing-supporting structure can press the pushing-supporting unit to deflect the pushing-supporting portion of the pushing-supporting unit in the direction facing the workpiece aligning opening.

5. The positioning fixture according to claim 3, wherein each pushing unit has a pressing portion and the pushing portion, the pressing portion is pivotally disposed in the corresponding assembling groove, the pushing portion extends downward from the pressing portion toward the workpiece aligning opening, the reset member abuts against a bottom end of the pressing portion of the pushing unit, and the pressing structure can press against the pressing portion of the corresponding pushing unit, so that the pushing portion of the pushing unit deflects toward the workpiece aligning opening.

6. The positioning fixture according to claim 4, wherein each pushing unit has a pressing portion and the pushing portion, the pressing portion is pivotally disposed in the corresponding set groove, the pushing portion extends downward from the pressing portion toward the workpiece aligning opening, the reset member is disposed in the corresponding set groove and abuts against the bottom end of the pressing portion of the corresponding pushing unit, and the pressing structure can press the pressing portion of the corresponding pushing unit to deflect the pushing portion of the pushing unit toward the workpiece aligning opening.

7. The position-limiting fixture of any one of claims 3 to 6, wherein the plurality of slots are distributed at corners of the alignment opening.

8. The jig of any one of claims 3 to 6, wherein the lower mold comprises a lower mold plate and at least one lower mold block, the lower mold block is formed on the lower mold plate, the lower mold block can extend into the workpiece alignment port of the position limiting module, and a pivot gap for pivoting the pushing unit is formed between the lower mold block and the corresponding sidewall of the workpiece alignment port, the upper mold comprises at least one upper mold block corresponding to the lower mold block, the upper mold plate is formed with at least one movable hole, the plurality of assembly holes are formed on the periphery of the movable hole, and the upper mold block can be vertically and linearly disposed in the movable hole.

9. The spacing jig of claim 7, wherein the lower mold comprises a lower mold plate and at least one lower mold block, the lower mold block is formed on the lower mold plate, the lower mold block can extend into the workpiece alignment port of the spacing module, and a pivot gap for the pivot of the pushing unit is formed between the lower mold block and the corresponding sidewall of the workpiece alignment port, the upper mold comprises at least one upper mold block corresponding to the lower mold block, the upper mold plate is formed with at least one movable hole, the plurality of assembling holes are formed on the periphery of the movable hole, and the upper mold block is disposed in the movable hole in a vertically linear motion manner.

10. A spacing compression fittings, it contains:

a spacing jig according to claim 8 or 9; and

the pressure supply mechanism comprises a base, at least one pressure supply unit and a lifting drive assembly, wherein a movable space is arranged at the bottom of the base, an upper die of the limiting jig and the limiting mechanism can be arranged in the movable space in a vertically moving mode, the lower die is positioned below the base, the pressure supply unit can be arranged in the base in a vertically moving mode in a penetrating mode, the pressure supply unit is connected with the upper die block corresponding to the position and can provide downward pressure for the upper die block, and the lifting drive assembly is arranged in the base, is connected with the limiting mechanism and drives the limiting mechanism to move up and down.

Images