CN218535742U - Pre-positioning guiding pressing device - Google Patents

Abstract

The utility model relates to a prepositioning direction compression fittings, include: the front side of the product carrier plate is provided with at least one product mounting position suitable for mounting and positioning a product; the positioning guide cover plate is positioned on the front side of the product carrier plate, at least one sub-part pre-installation position suitable for installing and positioning the sub-parts to be installed is formed on the back side of the positioning guide cover plate, and the sub-part pre-installation position corresponds to the product installation position; and the pressing upper die is positioned on the front side of the positioning guide cover plate, at least one pressing part is formed on the back side of the pressing upper die and corresponds to the part pre-installation position, and the pressing upper die is suitable for receiving external acting force and pressing the to-be-assembled parts through the pressing parts so as to position and assemble the to-be-assembled parts on a product. The utility model discloses can extensively be used for product structure size little, the assembly son is little, the installation counterpoint precision is high, need bond or the interference fit relation through glue, and the product of space limitation operation difficulty is put in manual installation.

Description

Pre-positioning guiding pressing device

Technical Field

The utility model relates to a tool technical field specifically is about a can reach accurate installation, location and direction pressfitting integrated into one piece's prepositioning direction compression fittings.

Background

At present, a to-be-assembled part is generally installed into a product installation slot position in a manual direct installation mode aiming at products with small structure size and limited installation part positions. The mode is not only difficult to assemble, but also can not be assembled accurately and in place by manual installation for products with high assembly precision requirements.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a prepositioning direction compression fittings to the product that provides in solving above-mentioned background art assembles the degree of difficulty greatly and/or can't assemble the problem accurate, that targets in place when manual installation.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a pair of prepositioning direction compression fittings, include: the product mounting device comprises a product carrier plate, wherein at least one product mounting position suitable for mounting and positioning a product is formed on the front side of the product carrier plate; the positioning guide cover plate is positioned on the front side of the product carrier plate, at least one sub-part pre-installation position suitable for installing and positioning a sub-part to be installed is formed on the back side of the positioning guide cover plate, and the sub-part pre-installation position corresponds to the product installation position; and the pressing upper die is positioned on the front side of the positioning guide cover plate, at least one pressing part is formed on the back side of the pressing upper die and corresponds to the part pre-installation position, and the pressing upper die is suitable for receiving external acting force and applying pressure to the part to be assembled through the pressing part so as to position and assemble the part to be assembled on the product.

Preferably, four product mounting positions are formed on the front side of the product carrier plate, and the four product mounting positions are arranged in a central symmetry manner; correspondingly, four sub-part pre-installation positions are formed on the back side of the positioning guide cover plate, and correspond to the four product installation positions one by one.

The pre-positioning guide pressing device is preferably provided with a through pressing guide square hole and two through pressing guide inclined holes on the positioning guide cover plate at the sub-part pre-installation position, the two pressing guide inclined holes are symmetrically arranged, the pressing guide square hole is arranged on one side of the two pressing guide inclined holes, and the pressing guide square hole and the pressing guide inclined holes are used for being matched with a pressing part on the pressing upper die so as to ensure that the pressing direction of the pressing part is correct.

The pre-positioning guide pressing device preferably has four pressing components formed on the back side of the pressing upper die, each pressing component includes a square pressing head and two inclined pressing heads, and the square pressing head and the inclined pressing heads respectively correspond to the pressing guide square hole and the pressing guide inclined hole in the positioning guide cover plate in position and shape; and a cold press connecting part is formed on the front side of the pressing upper die and is suitable for being connected with an action end of a cold press.

In the pre-positioning guiding and pressing device, preferably, at least one cover plate positioning column is formed on the front side of the product carrier plate, and at least one cover plate positioning hole is formed on the back side of the positioning guiding cover plate, and the cover plate positioning column can be inserted into the corresponding cover plate positioning hole; or, at least one cover plate positioning hole is formed on the front side of the product carrier plate, and at least one cover plate positioning column is formed on the back side of the positioning guide cover plate and can be inserted into the corresponding cover plate positioning hole.

In the pre-positioning guiding and pressing device, preferably, the number of the cover plate positioning columns is two, the two cover plate positioning columns are different in size, the large cover plate positioning column is located at the symmetrical center of the four product mounting positions or the four sub-part pre-mounting positions, and the small cover plate positioning column is located between one pair of adjacent product mounting positions or sub-part pre-mounting positions; correspondingly, the cover plate positioning holes are also two in different sizes.

In the pre-positioning guiding pressing device, preferably, at least one upper die guiding post is formed on the back side of the pressing upper die, and at least one through first upper die guiding hole and second upper die guiding hole are respectively formed on the product carrier plate and the positioning guiding cover plate, and the upper die guiding post can be inserted into the corresponding first upper die guiding hole and second upper die guiding hole; or, at least one upper die guide post is formed on the front side of the product carrier plate, at least one first upper die guide hole and at least one second upper die guide hole which are communicated with each other are respectively formed in the pressing upper die and the positioning guide cover plate, and the upper die guide post can be inserted into the corresponding first upper die guide hole and the corresponding second upper die guide hole.

The pre-positioning guiding pressing device preferably has three upper die guiding holes, and the three upper die guiding holes are respectively arranged between the other three pairs of adjacent product mounting positions or pressing parts to form triangular distribution; correspondingly, the number of the upper die guide posts is three, and the three upper die guide posts correspond to the three upper die guide holes one by one; the second upper die guide hole is one, the second upper die guide hole and the two cover plate positioning holes are arranged in a three-point collinear mode, and meanwhile two guide hole avoidance positions are formed in the positioning guide cover plates corresponding to the other two first upper die guide holes.

The pre-positioning guiding pressing device is characterized in that the square pressing head, the inclined pressing head and the pressing upper die are of a split structure, namely the pressing upper die is provided with mounting holes for the square pressing head and the inclined pressing head to be inserted, a blind hole is formed in one end, inserted with the pressing upper die, of the square pressing head and the inclined pressing head, a pre-stress spring is arranged in the blind hole, and the square pressing head and the inclined pressing head are inserted in the mounting holes of the pressing upper die through the pre-stress spring.

The pre-positioning guiding and pressing device is preferably provided with three carrier plate positioning holes on the back side of the product carrier plate, the three carrier plate positioning holes are arranged in a triangular shape, and the carrier plate positioning holes are suitable for positioning the product carrier plate on the working table surface of the cold press; meanwhile, a taking and placing handle is arranged on the non-working side of the product carrier plate, and a plurality of weight-reducing clearance grooves are formed in the back side of the product carrier plate.

The utility model discloses owing to take above technical scheme, it has following advantage:

the utility model discloses a can mutual independence fix a position between mould three on product support plate, location direction apron and the pressfitting, the assembly of integrating at last can effectively solve that installation space is little, manual operation is inconvenient/put into the precision not enough, the interference is packed into difficulty, glue bonds and easily leads to excessive scheduling problem, perfect solution the problem that becomes more meticulous, and can be applied to the product that needs installation, pressfitting multipart and different shapes simultaneously, reach accurate installation, location, direction pressfitting integrated into one piece. The utility model discloses can extensively be used for product structure size little, the assembly son is little, the installation counterpoint precision is high, need bond or the interference fit relation through glue, and the product of space limitation operation difficulty is put in manual installation.

Drawings

Fig. 1 is an exploded view of a pre-positioning guide stitching assembly according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the pre-positioning guiding and pressing device provided in the embodiment of the present invention in an assembled state;

fig. 3 is a schematic front side structure diagram of a product carrier according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a back side of a positioning guide cover plate according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an upper die for pressing according to an embodiment of the present invention.

The various reference numbers in the figures:

10-a product carrier plate; 11-a product mounting location; 12-a cover plate positioning post; 13-a first upper die guide hole; 14-carrier plate positioning holes; 15-taking and placing handles; 16-weight reduction clearance grooves;

20-positioning a guide cover plate; 21-a sub pre-installation position; 22-pressing a guide square hole; 23-pressing a guide inclined hole; 24-cover plate positioning holes; 25-a second upper die guide hole; 26-avoiding vacant positions by guide holes;

30-pressing an upper die; 31-a press-fit component; 32-square indenter; 33-inclined pressure head; 34-upper die guide post.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "horizontal", "vertical", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the system or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "assembled", "disposed" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

The utility model provides a prepositioning direction compression fittings, include: the front side of the product carrier plate is provided with at least one product mounting position suitable for mounting and positioning a product; the positioning guide cover plate is positioned on the front side of the product carrier plate, at least one sub-part pre-installation position suitable for installing and positioning a sub-part to be installed is formed on the back side of the positioning guide cover plate, and the sub-part pre-installation position corresponds to the product installation position; and the pressing upper die is positioned on the front side of the positioning guide cover plate, at least one pressing part is formed on the back side of the pressing upper die and corresponds to the part pre-installation position, and the pressing upper die is suitable for receiving external acting force and pressing the to-be-assembled parts through the pressing parts so as to position and assemble the to-be-assembled parts on a product. The utility model discloses a can mutual independent location between mould three on product support plate, location direction apron and the pressfitting, the assembly of integrating at last can effectively solve that installation space is little, manual operation is inconvenient/put into the precision not enough, the interference is packed into difficulty, glue bonds and easily leads to excessive scheduling problem, perfect solution the problem of becoming more meticulous, and can be applied to the product that needs installation, pressfitting multipart and different shapes simultaneously, reach accurate installation, location, direction pressfitting integrated into one piece.

The embodiment of the present invention provides a pre-positioning guiding pressing device, which is described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, the pre-positioning guiding and pressing device provided in this embodiment includes a product carrier plate 10, a positioning guiding cover plate 20 and a pressing upper mold 30 sequentially arranged along a first direction (e.g., a height direction). Wherein, at least one product mounting position 11 is formed on the front side of the product carrier plate 10 (for example, the upper side of the product carrier plate 10), and the product mounting position 11 is suitable for assembling a product on the product carrier plate 10 to realize the positioning of the product. At least one sub-part pre-installation position 21 is formed on the back side (i.e. the side close to the product carrier plate 10) of the positioning guide cover plate 20, the sub-part pre-installation position 21 corresponds to the product installation position 11, and the sub-part pre-installation position 21 is suitable for assembling the sub-part to be installed on the positioning guide cover plate 20 so as to realize the positioning of the sub-part to be installed. At least one pressing part 31 is formed on the back side (i.e. the side close to the positioning guide cover plate 20) of the pressing upper die 30, and the pressing part 31 corresponds to the sub-part pre-installation position 21, and the pressing upper die 30 is adapted to receive an external force and press the sub-part to be installed through the pressing part 31, so as to position and assemble the sub-part to be installed on the product.

In the above embodiment, preferably, as shown in fig. 1, 3 and 4, four product mounting positions 11 are formed on the front side of the product carrier plate 10, and the four product mounting positions 11 are arranged in central symmetry; correspondingly, four sub-part pre-installation positions 21 are formed on the back side of the positioning guide cover plate 20, and the four sub-part pre-installation positions 21 correspond to the four product installation positions 11 one by one, so that the four products can be assembled at one time, and the assembly efficiency is obviously improved.

In the above embodiment, preferably, as shown in fig. 4, a through pressing guide square hole 22 and two through pressing guide inclined holes 23 are formed on the positioning guide cover plate 20 at the sub-part pre-installation position 21, the two pressing guide inclined holes 23 are symmetrically arranged, the pressing guide square hole 22 is arranged at one side of the two pressing guide inclined holes 23, and the pressing guide square hole 22 and the pressing guide inclined holes 23 are used for cooperating with the pressing part 31 on the pressing upper die 30 to ensure that the pressing direction of the pressing part 31 is correct.

In the above embodiment, preferably, as shown in fig. 1 and 5, four pressing members 31 are formed on the back side of the pressing upper die 30, each pressing member 31 includes a square pressing head 32 and two inclined pressing heads 33, and the square pressing head 32 and the inclined pressing heads 33 correspond to the pressing guide square hole 22 and the pressing guide inclined hole 23 on the positioning guide cover plate 20 in position and shape, respectively; a cold press connection (not shown) is formed on the front side of the press-fit upper die 30, and is adapted to be connected to an actuating end of a cold press. Therefore, after the upper pressing die 30 is sleeved on the product carrier plate 10, the square pressing head 32 and the inclined pressing head 33 of the upper pressing die 30 are respectively inserted into the pressing guide square hole 22 and the pressing guide inclined hole 23 of the positioning guide cover plate 20, and when the upper pressing die 30 is driven by the cold press to press downwards, the square pressing head 32 and the inclined pressing head 33 vertically press downwards to mount the to-be-mounted parts positioned in the sub-part pre-mounting positions 21 through the guide effect of the pressing guide square hole 22 and the pressing guide inclined hole 23, so that the to-be-mounted parts are precisely assembled or bonded on the product in an interference manner.

In the above embodiment, preferably, as shown in fig. 1, 3 and 4, at least one cover plate positioning post 12 is formed on the front side of the product carrier plate 10, and at least one cover plate positioning hole 24 is formed on the back side of the positioning guide cover plate 20, and the cover plate positioning post 12 can be inserted into the corresponding cover plate positioning hole 24, thereby achieving the fine positioning of the product carrier plate 10 and the positioning guide cover plate 20 and ensuring the accurate alignment of the assembly position of the product and the component to be assembled. Specifically, the cover plate positioning columns 12 are two different in size, wherein the large cover plate positioning column 12 is located at the symmetric center of the four product mounting positions 11, and the small cover plate positioning column 12 is located between one pair of adjacent product mounting positions 11; correspondingly, the cover plate positioning holes 24 are also two different sizes. It will be understood by those skilled in the art that the cover plate positioning posts 12 may also be formed on the back side of the positioning guide cover plate 20, and correspondingly, the cover plate positioning holes 24 are formed on the front side of the product carrier plate 10, in which case the fine positioning of the product carrier plate 10 and the positioning guide cover plate 20 can also be realized.

In the above embodiment, as shown in fig. 3 to 5, at least one upper mold guiding post 34 is preferably formed on the back side of the pressing upper mold 30, and at least one through first upper mold guiding hole 13 and second upper mold guiding hole 25 are respectively formed on the product carrier plate 10 and the positioning guiding cover plate 20, and the upper mold guiding post 34 can be inserted into the corresponding first upper mold guiding hole 13 and second upper mold guiding hole 25, thereby ensuring the correct assembly position among the product carrier plate 10, the positioning guiding cover plate 20 and the pressing upper mold 30. Specifically, three first upper die guide holes 13 are provided, and the three first upper die guide holes 13 are respectively arranged between the remaining three pairs of adjacent product mounting positions 11 to form triangular distribution; correspondingly, the number of the upper die guide posts 34 is three, and the three upper die guide posts 34 correspond to the three first upper die guide holes 13 one by one; the number of the second upper die guide holes 25 is one, the second upper die guide holes 25 and the two cover plate positioning holes 24 are arranged in a three-point collinear manner, and two guide hole clearance positions 26 are formed on the positioning guide cover plates 20 corresponding to the other two first upper die guide holes 13. Therefore, one of the three upper die guide posts 34 is inserted into the second upper die guide hole 25 and the first upper die guide hole 13 in sequence, and the other two upper die guide posts 34 are directly inserted into the other two first upper die guide holes 13 through the guide hole clearance 26, so that the product carrier plate 10, the positioning guide cover plate 20 and the pressing upper die 30 are accurately assembled together, and the functions of guiding and limiting the movement of the pressing upper die 30 are achieved. It will be understood by those skilled in the art that the upper mold guiding columns 34 may also be formed on the front side of the product carrier plate 10, and accordingly, the first upper mold guiding holes 13 are formed on the pressing upper mold 30, so that the product carrier plate 10, the positioning guiding cover plate 20 and the pressing upper mold 30 can be accurately assembled together, and the guiding and limiting functions can be provided for the movement of the pressing upper mold 30.

In the above embodiment, preferably, the square pressure head 32 and the inclined pressure head 33 are separated from the upper press-fit die 30, that is, the upper press-fit die 30 is provided with a mounting hole for the square pressure head 32 and the inclined pressure head 33 to be inserted, and one end of the square pressure head 32 and the inclined pressure head 33, which are inserted into the upper press-fit die 30, is provided with a blind hole, a pre-stress spring is arranged in the blind hole, and the square pressure head 32 and the inclined pressure head 33 are inserted into the mounting hole of the upper press-fit die 30 through the pre-stress spring, so that the magnitude of the pressing force of the square pressure head 32 and the inclined pressure head 33 can be controlled by the pre-stress spring, and the purpose of quantifying and controlling the pressure of the pressure head is achieved.

In the above embodiment, preferably, as shown in fig. 2, at least one carrier plate positioning hole 14 is opened on the back side of the product carrier plate 10, and the carrier plate positioning hole 14 is suitable for positioning the product carrier plate 10 on the work bench of the cold press. Specifically, the carrier positioning holes 14 are three in a triangular arrangement, so that the product carrier 10 can be stably positioned on the working table of the cold press by three-point positioning, and the product carrier 10 is effectively prevented from moving in the pressing process.

In the above embodiment, preferably, a pick-and-place handle 15 is provided on the non-working side (i.e., the remaining sides excluding the front and back sides) of the product carrier 10 to facilitate a worker or a robot to pick and place the product carrier 10 from the worktop of the cold press.

In the above embodiment, preferably, a plurality of weight-reducing clearance grooves 16 are further formed on the back side of the product carrier 10 to reduce the weight of the product carrier 10, so as to reduce the labor intensity of a worker or a robot picking and placing the product carrier 10.

When the pre-positioning guiding and pressing device provided by the embodiment is used, firstly, the product carrier plate 10 is stably positioned on the working table of the cold press through the carrier plate positioning hole 14; then assembling the product in the product mounting position 11 of the product carrier plate 10 to accurately position the product, and assembling the to-be-assembled parts in the to-be-assembled part pre-mounting positions 21 of the positioning guide cover plate 20 to accurately position the to-be-assembled parts; after the product and the part to be packaged are positioned and placed, the positioning guide cover plate 20 is assembled to the product support plate 10 through two cover plate positioning columns 12 and cover plate positioning holes 24 with different sizes, and the part to be packaged is positioned right above the product; and finally, starting a cold press to drive the pressing upper die 30 to move downwards, and vertically pressing the to-be-assembled parts downwards by the square pressing head 32 and the inclined pressing head 33 on the pressing upper die 30 under the guiding action of the pressing guide square hole 22 and the pressing guide inclined hole 23, so that the to-be-assembled parts are accurately assembled or bonded on the product in an interference fit manner, and the assembly is completed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A pre-positioning guide stitching device, comprising:

the front side of the product carrier plate is provided with at least one product mounting position suitable for mounting and positioning a product;

the positioning guide cover plate is positioned on the front side of the product carrier plate, at least one sub-part pre-installation position suitable for installing and positioning a sub-part to be installed is formed on the back side of the positioning guide cover plate, and the sub-part pre-installation position corresponds to the product installation position;

and the pressing upper die is positioned on the front side of the positioning guide cover plate, at least one pressing part is formed on the back side of the pressing upper die and corresponds to the sub-part pre-installation position, and the pressing upper die is suitable for receiving external acting force and applying pressure to the sub-part to be assembled through the pressing part so as to position and assemble the sub-part to be assembled on the product.

2. The pre-positioning guide stitching device according to claim 1, wherein four product mounting locations are formed on a front side of the product carrier plate, and the four product mounting locations are arranged in a central symmetry manner; correspondingly, four sub-part pre-installation positions are formed on the back side of the positioning guide cover plate, and correspond to the four product installation positions one by one.

3. The pre-positioning guide pressing device according to claim 2, wherein a through pressing guide square hole and two through pressing guide inclined holes are formed in the positioning guide cover plate at the pre-mounting position of the sub-assembly, the two pressing guide inclined holes are symmetrically arranged, the pressing guide square hole is arranged on one side of the two pressing guide inclined holes, and the pressing guide square hole and the pressing guide inclined holes are used for being matched with a pressing part on the pressing upper die to ensure that the pressing direction of the pressing part is correct.

4. The pre-positioning guide laminating device of claim 3, wherein four laminating members are formed on the back side of the laminating upper die, each laminating member including a square pressing head and two inclined pressing heads, the square pressing head and the inclined pressing heads corresponding to the positions and shapes of the laminating guide square holes and the laminating guide inclined holes on the positioning guide cover plate, respectively; and a cold press connecting part is formed on the front side of the pressing upper die and is suitable for being connected with an action end of a cold press.

5. The pre-positioning guiding and pressing assembly as claimed in claim 1, wherein at least one cover plate positioning post is formed on the front side of the product carrier plate, and at least one cover plate positioning hole is formed on the back side of the positioning guiding cover plate, and the cover plate positioning post can be inserted into the corresponding cover plate positioning hole;

or, at least one cover plate positioning hole is formed on the front side of the product carrier plate, and at least one cover plate positioning column is formed on the back side of the positioning guide cover plate and can be inserted into the corresponding cover plate positioning hole.

6. The pre-positioning guide stitching device according to claim 5, wherein the cover positioning posts are two in different sizes, wherein the large cover positioning post is located at the symmetrical center of the four product mounting positions or the four sub-component pre-mounting positions, and the small cover positioning post is located between one pair of adjacent product mounting positions or sub-component pre-mounting positions; correspondingly, the cover plate positioning holes are also two in different sizes.

7. The pre-positioning guiding and pressing device according to claim 5, wherein at least one upper die guiding post is formed on the back side of the pressing upper die, and at least one first upper die guiding hole and one second upper die guiding hole are formed on the product carrier plate and the positioning guiding cover plate respectively, and the upper die guiding post can be inserted into the corresponding first upper die guiding hole and the corresponding second upper die guiding hole;

or, at least one upper die guide post is formed on the front side of the product carrier plate, at least one first upper die guide hole and at least one second upper die guide hole which are communicated with each other are respectively formed on the pressing upper die and the positioning guide cover plate, and the upper die guide post can be inserted into the first upper die guide hole and the second upper die guide hole which correspond to the upper die guide post.

8. The pre-positioning guiding and laminating device of claim 7, wherein there are three upper die guiding holes, and three upper die guiding holes are respectively arranged between the remaining three pairs of adjacent product mounting positions or laminating parts to form a triangular distribution; correspondingly, the number of the upper die guide posts is three, and the three upper die guide posts correspond to the three upper die guide holes one by one; the second upper die guide hole is one, the second upper die guide hole and the two cover plate positioning holes are arranged in a three-point collinear mode, and meanwhile two guide hole avoidance positions are formed in the positioning guide cover plates corresponding to the other two first upper die guide holes.

9. The pre-positioning guiding and pressing device of claim 4, wherein the square pressing head and the inclined pressing head are separated from the upper pressing mold, i.e. the upper pressing mold is provided with mounting holes for the insertion of the square pressing head and the inclined pressing head, and one ends of the square pressing head and the inclined pressing head, which are inserted with the upper pressing mold, are provided with blind holes, and the blind holes are internally provided with pre-stressed springs.

10. The pre-positioning guide stitching device according to any one of claims 1 to 9, wherein three carrier plate positioning holes are opened at a back side of the product carrier plate, the three carrier plate positioning holes being arranged in a triangle, the carrier plate positioning holes being adapted to position the product carrier plate on a work table of a cold press;

meanwhile, a taking and placing handle is arranged on the non-working side of the product carrier plate, and a plurality of weight-reducing clearance grooves are formed in the back side of the product carrier plate.

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