CN223657529U

CN223657529U - A copper busbar injection molding slider

Info

Publication number: CN223657529U
Application number: CN202520011024.0U
Authority: CN
Inventors: 刘润明
Original assignee: Guangdong Shunke Connection Technology Co ltd; Jiangsu Shunke New Energy Technology Co ltd; Shunke Zhilian Technology Co ltd
Current assignee: Guangdong Shunke Connection Technology Co ltd; Jiangsu Shunke New Energy Technology Co ltd; Shunke Zhilian Technology Co ltd
Priority date: 2025-01-03
Filing date: 2025-01-03
Publication date: 2025-12-12
Anticipated expiration: 2035-01-03

Abstract

The utility model relates to the technical field of injection molding, and discloses a copper bar injection molding sliding block, which comprises a sliding block body, a sliding block cover and a driving piece for driving the sliding block body to slide back and forth, wherein the sliding block body is provided with a plug groove extending along the sliding direction of the sliding block body, one end of the plug groove, which is away from the driving piece, is provided with a plug opening, the plug groove is provided with a cover opening, the cover opening is positioned on one side adjacent to the plug opening, one side of the sliding block cover, which is towards the plug groove, is provided with a first magnet, one side of the plug groove, which is towards the sliding block cover, is provided with a second magnet, the sliding block cover is arranged at the cover opening, and the first magnet is in magnetic attraction connection with the second magnet. The copper bar injection molding sliding block reduces the risk of damage to the die.

Description

Copper bar injection molding sliding block

Technical Field

The utility model relates to the technical field of injection molding, in particular to a copper bar injection molding sliding block.

Background

The new energy automobile industry is undergoing a rapid expansion phase, and in recent years, the demands for copper bar injection products for new energy automobile applications are rapidly increasing. At present, when a lateral core-pulling injection molding process is carried out on copper bar products, holes matched with copper bars are carved on a sliding block, and the sliding block is driven to move along a specific direction by a driving piece, so that core pulling and demolding of the products are realized.

However, in the prior art frame, the connection ends of the copper bars need to be precisely placed into the holes of the slider before the injection molding operation starts. However, in practice, it is often difficult to align the insertion point of the copper bar with the center of the hole, which increases the risk of damage to the mould.

Disclosure of utility model

Aims at solving at least one of the technical problems existing in the prior art. The utility model provides a copper bar injection molding sliding block, which reduces the risk of damage to a die.

In order to achieve the above purpose, the utility model provides a copper bar injection molding sliding block, which comprises a sliding block body, a sliding block cover and a driving piece for driving the sliding block body to slide back and forth, wherein the sliding block body is provided with a plugging groove extending along the sliding direction of the sliding block body, one end of the plugging groove, which is away from the driving piece, is provided with a plugging port, the plugging groove is provided with a cover opening, the cover opening is positioned on one side adjacent to the plugging port, one side of the sliding block cover, which is towards the plugging groove, is provided with a first magnet, one side of the plugging groove, which is towards the sliding block cover, is provided with a second magnet, the sliding block cover is arranged at the cover opening, and the first magnet is in magnetic attraction connection with the second magnet.

As a preferable scheme, the sliding block body comprises a base and a plug-in block, the plug-in groove, the cover opening and the plug-in opening are arranged on the plug-in block, one end, deviating from the plug-in opening, of the plug-in block is connected with the base, and the driving piece is in transmission connection with the base.

As the preferred scheme, the grafting piece is equipped with magnetism and inhales the platform, magnetism inhale the platform be located the grafting groove with between the slider body, the second magnet set up in magnetism inhale the platform, the slider lid includes connecting plate and apron, the one end of apron with the connecting plate is connected, first magnet connect in the connecting plate, the connecting plate connect in magnetism inhale the platform, the apron lid is located the lid mouth.

As a preferable scheme, the connecting plate is provided with a connecting surface towards the magnetic attraction platform, the connecting surface is provided with a first magnetic attraction concave hole, the first magnet is connected in the first magnetic attraction concave hole, and the lower end surface of the first magnet is flush with the connecting surface;

The magnetic attraction platform is provided with a second magnetic attraction concave hole, the second magnet is connected to the second magnetic attraction concave hole, and the upper end face of the second magnet is flush with the magnetic attraction platform;

When the slider cover is connected with the magnetic attraction platform, the upper end face of the inserting groove is flush with the magnetic attraction platform, and the connecting surface is attached to the magnetic attraction platform.

As a preferable scheme, the plug-in block is connected with a limiting block, the limiting block is positioned on one side of the magnetic attraction platform, which faces the plug-in groove, the limiting block protrudes out of the magnetic attraction platform and is provided with a clamping interface, and the connecting plate is clamped to the clamping interface.

As a preferred scheme, the limiting blocks are defined as a first limiting block and a second limiting block, the extending directions of the first limiting block and the second limiting block are the same as the extending directions of the inserting grooves, the first limiting block is connected to one side of the inserting grooves, the second limiting block is connected to the other side of the inserting grooves, the first limiting block and the second limiting block face one end of the magnetic attraction platform, the clamping interfaces are respectively formed at the two ends of the connecting plate, and the two ends of the connecting plate are respectively clamped to the clamping interfaces.

Preferably, the plurality of plug blocks are arranged, and the plurality of plug blocks are connected with the base at intervals in a direction perpendicular to the sliding direction of the base.

Preferably, the lower end of the base extends downwards to form a limiting part for limiting and matching with the lower die.

Preferably, the driving member is a hydraulic cylinder.

Compared with the prior art, the copper bar injection molding sliding block has the beneficial effects that the sliding block body is in transmission connection with the driving piece, and the driving piece drives the sliding block body to move towards the injection molding cavity or away from the injection molding cavity so as to realize core pulling and demolding of a product. The spliced groove is used for holding the link of copper bar, and the spliced groove has spliced mouth and lid mouth, and spliced mouth orientation cavity of moulding plastics when the slider body is kept away from the cavity of moulding plastics and removes, and the link of copper bar can be followed spliced mouth and pulled out. The slider body moves to the position of moulding plastics, and the link of copper bar can directly put into the jack-in groove from the lid, and the main part of copper bar can be put into the chamber of moulding plastics from the jack-in, and the copper bar prevents the back with the slider body, and the slider need not the relative movement before moulding plastics and inserts the equipment, and then reduces the impaired risk of mould, has reduced the relative slip number of times between the link of slider and copper bar simultaneously, reduces the surface fish tail risk of the link of copper bar, promotes product quality. After the connection end of the copper bar is placed in the inserting groove, a first magnet is arranged on one side, facing the inserting groove, of the sliding block cover, a second magnet is arranged on one side, facing the sliding block cover, of the inserting groove, after the first magnet is magnetically attracted with the second magnet to be connected, the inserting groove is covered with the sliding block cover, and therefore the outer peripheral surface of the connection end of the copper bar is surrounded. Meanwhile, the plug grooves and the sliding block cover are of an open structure, so that the processing is convenient, and the processing difficulty is reduced.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present utility model.

Fig. 2 is an enlarged schematic view of the structure at a in fig. 1 according to an embodiment of the present utility model.

Fig. 3 is a schematic structural view of a slider cover according to an embodiment of the present utility model.

FIG. 4 is a schematic diagram showing an assembly structure of a copper bar and a slider body in a lower mold according to an embodiment of the present utility model.

Fig. 5 is an enlarged schematic view of the structure at B in fig. 4 according to the embodiment of the present utility model.

FIG. 6 is a schematic diagram showing a structure of a copper bar separated from a slider body in a lower mold according to an embodiment of the present utility model.

Fig. 7 is an enlarged schematic view of the structure at C in fig. 6 according to an embodiment of the present utility model.

FIG. 8 is a schematic diagram of an assembled structure of a slider body and a copper bar according to an embodiment of the present utility model.

In the figure:

10. the magnetic sliding block comprises a sliding block body 11, a first magnet 12, a second magnet 13, a base 14, a limiting part 15, an inserting block 16, an inserting groove 17, a cover opening 18, an inserting opening 19, a magnetic attraction platform 20, a second magnetic attraction concave hole 21, a first limiting block 22, a second limiting block 23 and a clamping interface;

30. A slider cover; 31, a connecting plate, 32, a connecting surface, 33, a first magnetic concave hole, 34 and a cover plate;

40. Driving piece

50. A lower die; 51, a sliding groove, 52, an injection cavity, 53, a lower die limiting part;

60. copper bar, 61, copper bar main body, 62, connecting end.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the orientation or positional relationship indicated by the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. in the present utility model are based on the orientation or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be understood that the terms "connected," "fixed," and the like are used in a broad sense, and may be, for example, fixedly connected, detachably connected, or integrally formed, mechanically connected, welded, directly connected, indirectly connected through an intermediate medium, or connected in an internal manner between two elements or an interaction relationship between two elements, unless otherwise specifically defined. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1 to 8, a copper bar injection molding slider according to a preferred embodiment of the present utility model includes a slider body 10, a slider cover 30, and a driving member 40 for driving the slider body 10 to slide back and forth, the slider body 10 is provided with a socket 16 extending in a sliding direction of the slider body 10, one end of the socket 16 facing away from the driving member 40 is provided with a socket 18, the socket 16 is provided with a cover opening 17, the cover opening 17 is located on a side adjacent to the socket 18, a first magnet 11 is provided on a side of the slider cover 30 facing the socket 16, a second magnet 12 is provided on a side of the socket 16 facing the slider cover 30, the slider cover 30 is covered on the cover opening 17, and the first magnet 11 is magnetically connected with the second magnet 12.

According to the copper bar injection molding sliding block, the sliding block body 10 is in transmission connection with the driving piece 40, and the driving piece 40 drives the sliding block body 10 to move towards the injection molding cavity 52 or away from the injection molding cavity 52 so as to realize core pulling and demolding of a product. The socket 16 is configured to receive the connection end 62 of the copper bar 60, the socket 16 has a socket 18 and a cap 17, the socket 18 faces the injection cavity 52, and the connection end 62 of the copper bar 60 can be pulled out of the socket 18 when the slider body 10 moves away from the injection cavity 52. The slider body 10 moves to the position of moulding plastics, and the link 62 of copper bar 60 can directly put into jack groove 16 from covering mouth 17, and copper bar main part 61 part can be put into injection molding chamber 52 from jack 18, and copper bar 60 prevents the back with the slider body 10, and the slider need not the relative movement before moulding plastics and inserts the equipment, and then reduces the impaired risk of mould, has reduced the relative slip number of times between the link 62 of slider body 10 and copper bar 60 simultaneously, reduces the surface fish tail risk of link 62 of copper bar 60, promotes product quality. After the connection end 62 of the copper bar 60 is placed in the inserting groove 16, a first magnet 11 is arranged on one side, facing the inserting groove 16, of the sliding block cover 30, a second magnet 12 is arranged on one side, facing the sliding block cover 30, of the inserting groove 16, after the first magnet 11 and the second magnet 12 are magnetically attracted and connected, the inserting groove 16 and the sliding block cover 30 are covered, surrounding of the outer peripheral surface of the connection end 62 of the copper bar 60 is achieved, operation is simple, and operation efficiency is high. Meanwhile, the inserting groove 16 and the sliding block cover 30 are of an open structure, so that the processing is convenient, and the processing difficulty is reduced.

Further, as shown in fig. 1 to 3, the slider body 10 includes a base 13 and a plug-in block 15, the plug-in slot 16, the cover opening 17 and the plug-in opening 18 are formed in the plug-in block 15, one end of the plug-in block 15 facing away from the plug-in opening 18 is connected with the base 13, and the driving member 40 is in transmission connection with the base 13. The base 13 supports the plug-in block 15, and the base 13 is driven to slide back and forth by the driving piece 40 so as to realize core pulling and demolding of the product.

Further, as shown in fig. 1 to 3, the plug block 15 is provided with a magnetic attraction platform 19, the magnetic attraction platform 19 is located between the plug slot 16 and the slider body 10, the second magnet 12 is disposed on the magnetic attraction platform 19, the slider cover 30 includes a connecting plate 31 and a cover plate 34, one end of the cover plate 34 is connected with the connecting plate 31, the first magnet 11 is connected with the connecting plate 31, the connecting plate 31 is connected with the magnetic attraction platform 19, and the cover plate 34 is covered on the cover opening 17. The cover plate 34 and the plug block 15 are covered to form the plug groove 16, the magnetic attraction platform 19 is positioned between the plug groove 16 and the slider body 10, the magnetic attraction platform 19 is positioned on one side of the plug groove 16 away from the plug interface 18, interference to the placement of the copper bar 60 connecting end 62 in the plug groove 16 is avoided, and the connection operation of the slider cover 30 and the plug block 15 is facilitated.

Further, as shown in fig. 1 to 3, the connection plate 31 has a connection surface 32 facing the magnetic platform 19, the connection surface 32 is provided with a first magnetic concave hole 33, the first magnet 11 is connected in the first magnetic concave hole 33, the lower end surface of the first magnet 11 is flush with the connection surface 32, so as to avoid the first magnet 11 protruding out of the connection surface 32 and affecting the matching accuracy of the connection between the cover plate 34 and the plugging slot 16.

The magnetic attraction platform 19 is provided with a second magnetic attraction concave hole 20, the second magnet 12 is connected to the second magnetic attraction concave hole 20, the upper end face of the second magnet 12 is flush with the magnetic attraction platform 19, and the influence on the connection matching accuracy of the cover plate 34 and the inserting groove 16 due to the fact that the second magnet 12 protrudes out of the magnetic attraction platform 19 is avoided.

When the slider cover 30 is connected with the magnetic attraction platform 19, the upper end surface of the inserting groove 16 is flush with the magnetic attraction platform 19, and the connecting surface 32 is attached to the magnetic attraction platform 19, so that after the connecting plate 31 is magnetically attracted to the magnetic attraction platform 19, the connection matching accuracy of the cover plate 34 and the inserting groove 16 is ensured.

As an embodiment, as shown in fig. 8, the inner peripheral surface of the plugging slot 16 and the side surface of the cover plate 34 facing the plugging slot 16 are respectively attached to the outer peripheral surface of the connection end 62 of the copper bar 60, and the connection end 62 of the copper bar 60 is correspondingly configured to the shape of the plugging slot 16, so as to improve the shape matching degree of the plugging slot 16 and the outer peripheral surface of the copper bar 60, avoid unnecessary burrs generated in the sealing and gluing area of the copper bar 60, and improve the injection molding quality.

Further, as shown in fig. 1 to 3, the plug-in block 15 is connected with a limiting block, the limiting block is located on one side of the magnetic attraction platform 19 facing the plug-in groove 16, the limiting block protrudes out of the magnetic attraction platform 19 and is formed with a clamping interface 23, the connecting plate 31 is clamped to the clamping interface 23, the connecting plate 31 is ensured to be kept at a preset position in the process of core pulling and demoulding of the sliding block, and the sliding block cover 30 is prevented from being deviated.

Further, as shown in fig. 1 to 3, the limiting blocks are defined as a first limiting block 21 and a second limiting block 22, the extending directions of the first limiting block 21 and the second limiting block 22 are the same as the extending direction of the inserting groove 16, the first limiting block 21 is connected to one side of the inserting groove 16, the second limiting block 22 is connected to the other side of the inserting groove 16, the first limiting block 21 and one end of the second limiting block 22, which faces the magnetic attraction platform 19, are respectively provided with a clamping interface 23, and two ends of the connecting plate 31 are respectively clamped to the clamping interfaces 23, so that the connection between two ends of the connecting plate 31 and the inserting blocks 15 is more reliable, and the connecting plate 31 is ensured to be kept at a preset position in the process of core pulling and demolding of the sliding block, and the sliding block cover 30 is prevented from being deviated.

Further, as shown in fig. 1 to 3, a plurality of the plug-in blocks 15 are provided, and the plurality of plug-in blocks 15 are connected to the base 13 at intervals perpendicular to the sliding direction of the base 13. The number of the plug blocks 15 is set according to the number of the connection ends 62 of the injection-molded copper bars 60 so as to meet the injection molding requirements of copper bars 60 with different numbers of connection ends 62.

Further, as shown in fig. 4 to 7, the lower end of the base 13 extends downward to form a stopper 14 for stopper engagement with the lower die 50. The lower die 50 is provided with a sliding groove 51, the base 13 is slidably connected to the sliding groove 51, the injection cavity 52 for injecting the copper bar 60 is located at one end of the sliding groove 51, a lower die 50 limiting block protruding upwards is arranged between the sliding groove 51 and the injection cavity 52, and when the limiting part 14 abuts against the lower die 50 limiting block, namely, the base 13 reaches an injection molding position, so that the connection end 62 of the copper bar 60 can be accurately matched with the insertion position between the insertion groove 16.

Further, as shown in fig. 4 to 7, the driving member 40 is a hydraulic cylinder. The hydraulic cylinder is fixed on one side of the lower die 50, and the driving end of the hydraulic cylinder is connected with the base 13, so that the base 13 is driven to reciprocate along the sliding groove 51 by the driving end of the hydraulic cylinder.

The application process of the utility model comprises the following steps:

The injection molding device comprises an upper die and a lower die 50, an injection molding cavity 52 for placing a copper bar 60 is arranged between the upper die and the lower die 50, an injection molding opening is formed in the upper die, the injection molding opening is communicated with the injection molding cavity 52, the copper bar 60 comprises a copper bar 60 main body and a connecting end 62, one end of the connecting end 62 is connected with the copper bar 60 main body to form copper bar 60 hardware, and the periphery of the copper bar 60 main body is subjected to injection molding.

Before injection molding, the limiting part 14 of the slider body 10 is abutted with the limiting part 14 of the lower die 50, so that the slider body 10 is positioned at an injection molding position, the connecting end 62 is placed in the inserting groove 16 from the cover opening 17, one end, connected with the main body of the copper bar 60, of the connecting end 62 extends out of the inserting opening 18 to the injection molding cavity 52, and the main body of the copper bar 60 is placed in the injection molding cavity 52;

In the injection molding stage, the upper die and the lower die 50 are mutually close to be closed, so that an injection molding cavity 52 is closed, injection molding raw materials enter the injection molding cavity 52 through an injection molding opening, and an injection molding layer is formed on the periphery of the copper bar 60 main body;

In the mold opening stage, after the injection molding layer is molded, the upper mold and the lower mold 50 are mutually separated, the injection molding cavity 52 is opened, the slider body 10 is driven by the driving piece 40 to move towards the direction away from the injection molding cavity 52, the connecting end 62 is separated from the inserting groove 16, and the copper bar 60 main body is taken out from the injection molding cavity 52.

In summary, the embodiment of the utility model provides a copper bar 60 injection molding sliding block, the sliding block body 10 is in transmission connection with the driving piece 40, and the driving piece 40 drives the sliding block body 10 to move towards the injection molding cavity 52 or away from the injection molding cavity 52, so as to realize core pulling and demolding of a product. The socket 16 is configured to receive the connection end 62 of the copper bar 60, the socket 16 has a socket 18 and a cap 17, the socket 18 faces the injection cavity 52, and the connection end 62 of the copper bar 60 can be pulled out of the socket 18 when the slider body 10 moves away from the injection cavity 52. The slider body 10 moves to the position of moulding plastics, and the link 62 of copper bar 60 can directly put into jack groove 16 from covering mouth 17, and injection molding cavity 52 can be put into from jack 18 to the main part of copper bar 60, and copper bar 60 prevents the back with slider body 10, and the slider need not the relative movement before moulding plastics and inserts the equipment, and then reduces the impaired risk of mould, has reduced the relative slip number of times between the link 62 of slider and copper bar 60 simultaneously, reduces the surface fish tail risk of link 62 of copper bar 60, promotes product quality. After the connection end 62 of the copper bar 60 is placed in the inserting groove 16, a first magnet 11 is arranged on one side, facing the inserting groove 16, of the sliding block cover 30, a second magnet 12 is arranged on one side, facing the sliding block cover 30, of the inserting groove 16, after the first magnet 11 and the second magnet 12 are magnetically attracted and connected, the inserting groove 16 and the sliding block cover 30 are covered, surrounding of the outer peripheral surface of the connection end 62 of the copper bar 60 is achieved, operation is simple, and operation efficiency is high. Meanwhile, the inserting groove 16 and the sliding block cover 30 are of an open structure, so that the processing is convenient, and the processing difficulty is reduced.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present utility model, and these modifications and substitutions should also be considered as being within the scope of the present utility model.

Claims

1. The copper bar injection molding sliding block is characterized by comprising a sliding block body, a sliding block cover and a driving piece used for driving the sliding block body to slide back and forth, wherein the sliding block body is provided with an inserting groove extending along the sliding direction of the sliding block body, one end of the inserting groove, which is away from the driving piece, is provided with an inserting port, the inserting groove is provided with a cover opening, the cover opening is positioned on one side adjacent to the inserting port, one side of the sliding block cover, which faces the inserting groove, is provided with a first magnet, one side of the inserting groove, which faces the sliding block cover, is provided with a second magnet, the sliding block cover is arranged on the cover opening, and the first magnet is in magnetic attraction connection with the second magnet.

2. The copper bar injection molding sliding block according to claim 1, wherein the sliding block body comprises a base and an inserting block, the inserting groove, the cover opening and the inserting opening are formed in the inserting block, one end, away from the inserting opening, of the inserting block is connected with the base, and the driving piece is in transmission connection with the base.

3. The copper bar injection molding sliding block according to claim 2, wherein the inserting block is provided with a magnetic attraction platform, the magnetic attraction platform is located between the inserting groove and the sliding block body, the second magnet is arranged on the magnetic attraction platform, the sliding block cover comprises a connecting plate and a cover plate, one end of the cover plate is connected with the connecting plate, the first magnet is connected with the connecting plate, the connecting plate is connected with the magnetic attraction platform, and the cover plate cover is arranged on the cover opening.

4. The copper bar injection molding sliding block according to claim 3, wherein the connecting plate is provided with a connecting surface facing the magnetic attraction platform, the connecting surface is provided with a first magnetic attraction concave hole, the first magnet is connected in the first magnetic attraction concave hole, and the lower end surface of the first magnet is flush with the connecting surface;

5. The copper bar injection molding sliding block according to claim 3, wherein the plug-in block is connected with a limiting block, the limiting block is located on one side, facing the plug-in groove, of the magnetic attraction platform, the limiting block protrudes out of the magnetic attraction platform and is provided with a clamping interface, and the connecting plate is clamped to the clamping interface.

6. The copper bar injection molding sliding block of claim 5, wherein the limiting blocks are defined as a first limiting block and a second limiting block, the extending directions of the first limiting block and the second limiting block are the same as the extending directions of the inserting grooves, the first limiting block is connected to one side of the inserting grooves, the second limiting block is connected to the other side of the inserting grooves, the clamping interfaces are respectively formed at one ends of the first limiting block and the second limiting block, which face the magnetic attraction platform, of the connecting plate, and the two ends of the connecting plate are respectively clamped to the clamping interfaces.

7. The copper bar injection molding sliding block according to claim 2, wherein a plurality of the plug blocks are arranged, and the plug blocks are connected to the base at intervals perpendicular to the sliding direction of the base.

8. The copper bar injection molding slide block of claim 2, wherein the lower end of the base extends downwards to form a limiting part for limiting cooperation with the lower die.

9. The copper bar injection molding slide block of claim 1, wherein the driving piece is a hydraulic cylinder.