CN220923210U - Double-rod inclined ejection mechanism of automobile instrument injection mold - Google Patents
Double-rod inclined ejection mechanism of automobile instrument injection mold Download PDFInfo
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- CN220923210U CN220923210U CN202322631455.0U CN202322631455U CN220923210U CN 220923210 U CN220923210 U CN 220923210U CN 202322631455 U CN202322631455 U CN 202322631455U CN 220923210 U CN220923210 U CN 220923210U
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- 230000007246 mechanism Effects 0.000 title claims abstract description 35
- 238000002347 injection Methods 0.000 title claims abstract description 29
- 239000007924 injection Substances 0.000 title claims abstract description 29
- 238000000465 moulding Methods 0.000 claims abstract description 11
- 239000003292 glue Substances 0.000 claims description 12
- 238000009434 installation Methods 0.000 claims description 8
- 238000001746 injection moulding Methods 0.000 abstract description 8
- 238000007493 shaping process Methods 0.000 abstract description 5
- 229920003023 plastic Polymers 0.000 abstract description 2
- 239000004033 plastic Substances 0.000 abstract description 2
- 230000000712 assembly Effects 0.000 description 4
- 238000000429 assembly Methods 0.000 description 4
- 230000008859 change Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 2
- 238000007792 addition Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The utility model provides a double-rod inclined ejection mechanism of an injection mold of an automobile instrument panel, and belongs to the technical field of molds. The upper die plate and the lower die plate are provided with a forming cavity therebetween, the upper die plate is provided with a top core-pulling assembly connected with the forming cavity, and the lower die plate is symmetrically provided with two side core-pulling structures connected with the side parts of the forming cavity. The shaping die cavity can be used for moulding plastics and form the header board, and header board injection moulding back, top core-pulling assembly is automatic goes up the core, upwards moves the cope match-plate pattern afterwards, and side core-pulling structure carries out the side in step when the cope match-plate pattern upwards moves and looses core, and the roof upwards moves can be through straight ejector pin, front side oblique top subassembly, rear side oblique top subassembly and the stability when the oblique ejector pin is ejecting with the product from the lower bolster to the twin-pole oblique top subassembly, and the twin-pole oblique top subassembly can improve oblique ejector pin.
Description
Technical Field
The utility model belongs to the technical field of molds, and relates to a double-rod inclined ejection mechanism of an injection mold of an automobile instrument panel.
Background
The header board is generally through injection moulding, and at present, the oblique roof subassembly that header board mould used is that direct adoption and roof articulated oblique ejector pin cooperation oblique ejector block are ejecting with the product, and stability in the oblique ejector pin removal process is relatively poor.
For example, chinese patent discloses an instrument panel die [ application number: 201922362023.8] including main mould case and auxiliary mould case, the inside of main mould case is provided with the type groove, first spacing hole has been seted up on the surface of type groove, the inside of auxiliary mould case is provided with the core, main case lid is installed to main mould case, screw hole has all been seted up to the top four corners department of main case lid and auxiliary case lid, annotate the material hole has all been seted up on the top of main case lid and auxiliary case lid, the through-hole has been seted up between the notes material hole, main mould case and auxiliary mould case all are provided with recess and joint arch, the both sides of recess all are provided with the mounting, the second spacing hole has been seted up at the top of auxiliary case lid, all be provided with the screw thread post between main case lid and main mould case, auxiliary case lid and the auxiliary mould case, screw thread post top is provided with the nut, the type groove uses the gag lever post to fix inside main mould case.
Disclosure of utility model
The utility model aims to solve the problems and provides a double-rod inclined ejection mechanism of an automobile instrument panel injection mold.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
The utility model provides an auto instrument board injection mold double-rod oblique ejection mechanism, includes cope match-plate pattern and lower bolster, cope match-plate pattern and lower bolster between be equipped with the shaping chamber, the cope match-plate pattern on be provided with the top subassembly of loosing core that links to each other with the shaping chamber, the lower bolster on the symmetry be provided with two side core-pulling structures that link to each other with shaping chamber lateral part, the lower bolster on still be equipped with ejection mechanism, ejection mechanism include a plurality of straight ejector pins, a plurality of front side oblique ejection subassembly, set up at the rear side oblique ejection subassembly and the double-rod oblique ejection subassembly of top subassembly downside of loosing core, the lower bolster downside still be equipped with the roof, straight ejector pin, front side oblique ejection subassembly, rear side oblique ejection subassembly and double-rod oblique ejection subassembly all link to each other with the roof.
In the automobile instrument board injection mold double-rod inclined ejection mechanism, the top of the double-rod inclined ejection assembly is provided with an inclined ejector rod of an inclined ejection block and a limiting rod which is parallel to the inclined ejector rod, a limiting rod fixing plate is arranged on the lower side of the top plate, the limiting rod is hinged to the limiting rod fixing plate, an inclined ejection rod installation seat which is obliquely arranged is fixedly connected to the top plate, two inclined sliding grooves are formed in the hollow arrangement of the inclined ejection rod installation seat and are symmetrically arranged in the inclined ejection rod installation seat, inclined ejection rod connecting blocks are slidably connected in the two inclined sliding grooves, inclined ejection rod connecting blocks are arranged between the two inclined ejection slide blocks, the inclined ejection rod connecting blocks are connected with the inclined ejection rod connecting blocks in a rotating mode through a rotating shaft, and the top of the limiting rod penetrates through the inclined ejection rod connecting blocks and is in sliding fit with the inclined ejection rod connecting blocks.
In the double-rod oblique ejection mechanism of the automobile instrument board injection mold, the lower die plate is fixedly connected with the limiting rod limiting block, the top end of the limiting rod limiting block is connected with the limiting rod limiting block, and the first oblique ejection rod penetrates through the limiting rod limiting block and is in sliding fit with the limiting rod limiting block.
In the double-rod oblique ejection mechanism of the automobile instrument board injection mold, the front oblique ejection assembly comprises a first front oblique ejection block connected with the front side of the molding cavity and a second front oblique ejection block connected with the middle of the molding cavity, and the first front oblique ejection block and the second front oblique ejection block are connected with the top plate through front oblique ejection rods.
In the double-rod inclined ejection mechanism of the automobile instrument board injection mold, the rear inclined ejection assembly comprises a plurality of rear inclined ejection blocks, and the rear inclined ejection blocks are connected with the top plate through rear inclined ejection rods.
In the double-rod oblique ejection mechanism of the automobile instrument board injection mold, the side core-pulling structure comprises a translation seat with a side insert at the inner end, and the driving rod is obliquely fixed on the upper template, obliquely inserted into the translation seat and in sliding connection with the translation seat.
In the double-rod inclined ejection mechanism of the automobile instrument injection mold, a plurality of glue inlet runners which are arranged corresponding to the injection pipe are further arranged on the lower template, and the glue inlet runners are respectively arranged on one side, away from the top core-pulling component, of the forming cavity and on the top of the side insert.
In the double-rod inclined ejection mechanism of the automobile instrument board injection mold, one or two glue inlet flow passages are formed in the top of the side insert.
In the double-rod inclined ejection mechanism of the automobile instrument board injection mold, the top core-pulling assembly comprises a top insert obliquely arranged on the upper template, and the top insert is in sliding connection with the upper template.
In the double-rod oblique ejection mechanism of the automobile instrument board injection mold, the top core-pulling assembly further comprises a driving block which is in sliding connection with the upper mold plate, a T-shaped sliding groove which is obliquely arranged is formed in the top of the top insert, a T-shaped sliding block which is inserted into the T-shaped sliding groove is arranged at the bottom of the driving block, the double-rod oblique ejection mechanism further comprises a driving oil cylinder which is horizontally arranged on the upper mold plate, and an output shaft of the driving oil cylinder is connected with the driving block.
Compared with the prior art, the utility model has the advantages that:
1. The shaping die cavity can be used for moulding plastics and form the header board, and header board injection moulding back, top core-pulling assembly is automatic goes up the core, upwards moves the cope match-plate pattern afterwards, and side core-pulling structure carries out the side in step when the cope match-plate pattern upwards moves and looses core, and the roof upwards moves can be through straight ejector pin, front side oblique top subassembly, rear side oblique top subassembly and the stability when the oblique ejector pin is ejecting with the product from the lower bolster to the twin-pole oblique top subassembly, and the twin-pole oblique top subassembly can improve oblique ejector pin.
2. The roof can drive the vertical upward movement of oblique ejector rod mount pad when upwards moving, and the oblique ejector rod mount pad removes and can drive the oblique ejector rod of a number and remove along the incline direction, and the oblique ejector rod mount pad is rotated the angle that is connected through oblique ejector rod connecting block and the oblique ejector rod of a number with oblique slider and is connected and can be convenient for the oblique ejector rod of a number and change, moves slider and slope spout sliding connection to one side and can make the position of an oblique ejector rod on the oblique ejector rod mount pad adjust, and gag lever post and oblique ejector rod connecting block sliding fit can make gag lever post and an oblique ejector rod keep parallelism.
Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.
Drawings
FIG. 1 is a schematic view of the structure of a lower die plate;
FIG. 2 is a schematic view of the external structure of the present utility model;
FIG. 3 is a schematic structural view of an ejector mechanism;
Fig. 4 is a schematic structural view of a dual-rod tilt head assembly.
In the figure, an upper die plate 1, a lower die plate 2, a forming cavity 3, a top core pulling assembly 4, a side core pulling structure 5, a straight ejector rod 6, a front inclined ejector assembly 7, a rear inclined ejector assembly 8, a double-rod inclined ejector assembly 9, a top plate 10, a first inclined ejector block 11, a first inclined ejector rod 12, a limiting rod 13, a limiting rod fixing plate 14, an inclined ejector rod mounting seat 15, an inclined sliding groove 16, an inclined sliding block 17, an inclined ejector rod connecting block 18, a limiting rod limiting block 19, a first front inclined ejector block 20, a second front inclined ejector block 21, a rear inclined ejector block 22, a side insert 23, a translation seat 24, a driving rod 25, a glue feeding flow passage 26, a top insert 27, a driving block 28 and a T-shaped sliding groove 29.
Detailed Description
As shown in fig. 1-4, an automobile instrument board injection mold double-rod inclined ejection mechanism comprises an upper template 1 and a lower template 2, a molding cavity 3 is arranged between the upper template 1 and the lower template 2, a top core-pulling assembly 4 connected with the molding cavity 3 is arranged on the upper template 1, two side core-pulling structures 5 connected with the side parts of the molding cavity 3 are symmetrically arranged on the lower template 2, an ejection mechanism is further arranged on the lower template 2, the ejection mechanism comprises a plurality of straight ejector rods 6, a plurality of front side inclined ejection assemblies 7, a rear side inclined ejection assembly 8 and a double-rod inclined ejection assembly 9 which are arranged on the lower side of the top core-pulling assembly 4, a top plate 10 is further arranged on the lower side of the lower template 2, and the straight ejector rods 6, the front side inclined ejection assemblies 7, the rear side inclined ejection assemblies 8 and the double-rod inclined ejection assemblies 9 are all connected with the top plate 10.
In the utility model, the molding cavity 3 can be used for injection molding to form an automobile instrument board, after the automobile instrument board is injection molded, the top core-pulling assembly 4 automatically performs upper core pulling, then the upper template is moved upwards, the side core-pulling structure synchronously performs side core pulling when the upper template moves upwards, and the top plate moves upwards to eject a product from the lower template through the straight ejector rod 6, the front side inclined ejector assembly 7, the rear side inclined ejector assembly 8 and the double-rod inclined ejector assembly 9, so that the double-rod inclined ejector assembly can improve the stability of the inclined ejector rod during ejection.
Specifically, referring to fig. 1-4, the top of the dual-rod oblique jacking assembly 9 is provided with a first oblique jacking rod 12 of a first oblique jacking block 11 and a limiting rod 13 parallel to the first oblique jacking rod 12, a limiting rod fixing plate 14 is arranged on the lower side of the top plate 10, the limiting rod 13 is hinged to the limiting rod fixing plate 14, an oblique jacking rod installation seat 15 which is obliquely arranged is fixedly connected to the top plate 10, two oblique sliding grooves 16 are formed in the hollow arrangement of the oblique jacking rod installation seat 15 and are symmetrically arranged in the interior of the oblique jacking rod installation seat 15, oblique sliding blocks 17 are slidably connected in the two oblique sliding grooves 16, an oblique jacking rod connecting block 18 is arranged between the two oblique sliding blocks 17, the oblique jacking rod connecting block 18 and the oblique sliding blocks 17 are rotatably connected through a rotating shaft, and the top of the limiting rod 13 penetrates through the oblique jacking rod connecting block 18 and is in sliding fit with the oblique jacking rod connecting block 18. The roof can drive the vertical upward movement of oblique ejector rod mount pad 15 when upwards moving, and the oblique ejector rod mount pad 15 removes and can drive the oblique ejector rod 12 of No. one and remove along the incline direction, and the oblique ejector rod mount pad 15 is through the angle that rotates the oblique ejector rod connecting block 18 and the oblique ejector rod of No. one that are connected with oblique slider 17 rotation and be convenient for the oblique ejector rod of No. one change, and oblique slider 17 and the slide connection of slope spout can make the position of the oblique ejector rod of No. one on the oblique ejector rod mount pad adjust, and gag lever post 13 and oblique ejector rod connecting block 18 sliding fit can make gag lever post and No. one oblique ejector rod keep parallelism.
Specifically, the lower die plate 2 is fixedly connected with a limiting rod limiting block 19, the top end of the limiting rod limiting block 19 is connected with the limiting rod limiting block 19, and the first inclined ejector rod 12 penetrates through the limiting rod limiting block 19 and is in sliding fit with the limiting rod limiting block 19. The gag lever post stopper can fix a position gag lever post top.
Specifically, the front oblique top assembly 7 comprises a first front oblique top block 20 connected with the front side of the forming cavity 3 and a second front oblique top block 21 connected with the middle of the forming cavity 3, wherein the first front oblique top block 20 and the second front oblique top block 21 are connected with the top plate 10 through front oblique top rods. When the top plate moves upwards, the first front oblique jacking block 20 and the second front oblique jacking block 21 can be driven by the front oblique jacking rod to move upwards to apply thrust to the product.
Specifically, the rear inclined roof assembly 8 includes a plurality of rear inclined roof blocks 22, and the plurality of rear inclined roof blocks 22 are connected to the roof panel 10 by rear inclined roof bars. When the top plate moves upwards, the rear inclined ejector rod drives the rear inclined ejector block 22 to move upwards to apply thrust to the product.
In this embodiment, as shown in fig. 1, the side core-pulling structure 5 includes a translation seat 24 having a side insert 23 at an inner end, and a driving rod 25 is obliquely fixed on the upper mold plate 1, and the driving rod 25 is obliquely inserted into the translation seat 24 and slidably connected with the translation seat 24. When the upper die plate moves upwards, the driving rod can be driven to vertically move upwards, and the driving rod can drive the translation seat and the side insert to horizontally move outwards so as to realize translation core pulling of the side insert.
Preferably, as shown in fig. 1, the lower die plate 2 is further provided with a plurality of glue inlet channels 26 corresponding to the injection molding pipe, the glue inlet channels 26 are respectively arranged on one side of the molding cavity 3 far away from the top core pulling assembly 4 and the top of the side insert 23, and one or two glue inlet channels 26 are arranged on the top of the side insert 23. The multi-point glue feeding can increase the injection molding efficiency.
In this embodiment, the top core back assembly 4 includes a top insert 27 disposed obliquely on the upper die plate 1, and the top insert 27 is slidably connected to the upper die plate 1. The top core pulling assembly 4 further comprises a driving block 28 which is in sliding connection with the upper template 1, a T-shaped sliding groove 29 which is obliquely arranged is formed in the top of the top insert 27, a T-shaped sliding block 30 which is inserted into the T-shaped sliding groove 29 is arranged at the bottom of the driving block 28, and the top core pulling assembly further comprises a driving oil cylinder which is horizontally arranged on the upper template 1, and an output shaft of the driving oil cylinder is connected with the driving block 28. The driving oil cylinder can drive the driving block to horizontally move, and the driving block can push and pull the top insert through the cooperation of the T-shaped sliding block and the T-shaped sliding groove, so that the top insert can be driven to vertically move along the inclined direction.
The working principle of the utility model is as follows: the forming cavity 3 can be used for forming an automobile instrument board through injection molding, after the automobile instrument board is subjected to injection molding, the top core pulling assembly 4 automatically performs upper core pulling, then the upper template is moved upwards, the side core pulling structure synchronously performs side core pulling when the upper template moves upwards, and the top plate moves upwards to enable a product to be ejected out of the lower template through the straight ejector rod 6, the front side inclined ejector assembly 7, the rear side inclined ejector assembly 8 and the double-rod inclined ejector assembly 9, so that the stability of the double-rod inclined ejector assembly during ejection of the inclined ejector rod can be improved;
the roof can drive the vertical upward movement of oblique ejector rod mount pad 15 when upwards moving, the oblique ejector rod mount pad 15 removes and can drive the oblique ejector rod 12 of No. one and remove along the incline direction, the oblique ejector rod mount pad 15 is through rotating the angle that is connected with oblique ejector rod connecting block 18 and the oblique ejector rod of No. one that moves slider 17 to rotate and be connected and be convenient for the oblique ejector rod of No. one and change, the oblique slider 17 and the inclined chute sliding connection can make the position of the oblique ejector rod of No. one on the oblique ejector rod mount pad adjust, gag lever post 13 and oblique ejector rod connecting block 18 sliding fit can make gag lever post and No. one oblique ejector rod keep parallelism, the gag lever post stopper can fix a position the gag lever post top.
When the top plate moves upwards, the front oblique ejector rod can drive the first front oblique ejector block 20 and the second front oblique ejector block 21 to move upwards to apply thrust to the product, and when the top plate moves upwards, the rear oblique ejector rod can drive the rear oblique ejector block 22 to move upwards to apply thrust to the product;
The upper die plate can drive the driving rod to vertically move upwards when moving upwards, the driving rod can drive the translation seat and the side insert to horizontally move outwards to realize the translation core pulling of the side insert, the driving oil cylinder can drive the driving block to horizontally move, the driving block can horizontally move to realize the push-pull of the top insert through the cooperation of the T-shaped sliding block and the T-shaped sliding groove, and accordingly the top insert can be driven to vertically move along the inclined direction.
The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.
Although the upper die plate 1, the lower die plate 2, the forming cavity 3, the top core pulling assembly 4, the side core pulling structure 5, the straight ejector pin 6, the front side inclined ejector assembly 7, the rear side inclined ejector assembly 8, the double-rod inclined ejector assembly 9, the top plate 10, the first inclined ejector block 11, the first inclined ejector rod 12, the stopper rod 13, the stopper rod fixing plate 14, the inclined ejector rod mounting seat 15, the inclined slide groove 16, the inclined slide block 17, the inclined ejector rod connecting block 18, the stopper rod stopper 19, the first front inclined ejector block 20, the second front inclined ejector block 21, the rear inclined ejector block 22, the side insert 23, the translation seat 24, the driving rod 25, the glue inlet flow passage 26, the top insert 27, the driving block 28, the T-shaped slide groove 29, and the like are used herein for convenience only to describe and explain the essence of the present utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.
Claims (10)
1. The utility model provides an auto instrument injection mold double-rod inclined ejection mechanism, includes cope match-plate pattern (1) and lower bolster (2), its characterized in that, cope match-plate pattern (1) and lower bolster (2) between be equipped with into die cavity (3), cope match-plate pattern (1) on be provided with the top subassembly (4) of loosing core that link to each other in die cavity (3), lower bolster (2) on the symmetry be provided with two side structures (5) of loosing core that link to each other with die cavity (3) lateral part, lower bolster (2) on still be equipped with ejection mechanism, ejection mechanism include a plurality of straight ejector pin (6), a plurality of front side inclined ejection subassembly (7), set up at the rear side inclined ejection subassembly (8) and the double-rod inclined ejection subassembly (9) of top subassembly (4) downside, lower bolster (2) downside still be equipped with roof (10), straight ejector pin (6), front side inclined ejection subassembly (7), rear side inclined ejection subassembly (8) and double-rod inclined ejection subassembly (9) all link to each other with roof (10).
2. The automobile instrument board injection mold double-rod inclined ejection mechanism according to claim 1, characterized in that an inclined ejection rod (12) of an inclined ejection block (11) and a limit rod (13) parallel to the inclined ejection rod (12) are installed at the top of the double-rod inclined ejection assembly (9), a limit rod fixing plate (14) is arranged on the lower side of the top plate (10), the limit rod (13) is hinged to the limit rod fixing plate (14), an inclined ejection rod installation seat (15) which is obliquely arranged is fixedly connected to the top plate (10), two inclined sliding grooves (16) are formed in the hollow arrangement mode and are symmetrically arranged in the inclined ejection rod installation seat (15), inclined ejection rod connecting blocks (18) are arranged in the middle of the inclined ejection sliding grooves (16) in a sliding mode, and the inclined ejection rod connecting blocks (18) and the inclined ejection sliding blocks (17) are connected in a rotating mode through rotating shafts, and the tops of the limit rods (13) penetrate through the inclined ejection rod connecting blocks (18) and are in sliding fit with the inclined ejection rod connecting blocks (18).
3. The double-rod oblique ejection mechanism of the automobile instrument board injection mold according to claim 2, wherein a limiting rod limiting block (19) is fixedly connected to the lower mold plate (2), the top end of the limiting rod limiting block (19) is connected with the limiting rod limiting block (19), and the first oblique ejection rod (12) penetrates through the limiting rod limiting block (19) and is in sliding fit with the limiting rod limiting block (19).
4. The double-rod oblique ejection mechanism of the automobile instrument board injection mold according to claim 1, wherein the front oblique ejection assembly (7) comprises a first front oblique ejection block (20) connected with the front side of the molding cavity (3) and a second front oblique ejection block (21) connected with the middle of the molding cavity (3), and the first front oblique ejection block (20) and the second front oblique ejection block (21) are connected with the top plate (10) through front oblique ejection rods.
5. The double-rod inclined ejection mechanism of the automobile instrument board injection mold according to claim 1, wherein the rear inclined ejection assembly (8) comprises a plurality of rear inclined ejection blocks (22), and the rear inclined ejection blocks (22) are connected with the top plate (10) through rear inclined ejection rods.
6. The double-rod oblique ejection mechanism of the automobile instrument board injection mold according to claim 1, wherein the side core pulling structure (5) comprises a translation seat (24) with a side insert (23) at the inner end, a driving rod (25) is obliquely fixed on the upper mold plate (1), and the driving rod (25) is obliquely inserted into the translation seat (24) and is in sliding connection with the translation seat (24).
7. The double-rod inclined ejection mechanism of the automobile instrument board injection mold according to claim 6, wherein the lower die plate (2) is further provided with a plurality of glue inlet flow passages (26) which are arranged corresponding to the injection pipe, and the glue inlet flow passages (26) are respectively arranged at one side of the forming cavity (3) far away from the top core-pulling assembly (4) and at the top of the side insert (23).
8. The double-rod oblique ejection mechanism of the automobile instrument board injection mold according to claim 7, wherein one or two glue inlet channels (26) are arranged at the top of the side insert (23).
9. The double-rod inclined ejection mechanism of the automobile instrument board injection mold according to claim 1, wherein the top core pulling assembly (4) comprises a top insert (27) obliquely arranged on the upper mold plate (1), and the top insert (27) is in sliding connection with the upper mold plate (1).
10. The double-rod inclined ejection mechanism of the automobile instrument board injection mold according to claim 9, wherein the top core pulling assembly (4) further comprises a driving block (28) which is in sliding connection with the upper mold board (1), a T-shaped sliding groove (29) which is obliquely arranged is formed in the top of the top insert (27), a T-shaped sliding block (30) which is inserted into the T-shaped sliding groove (29) is arranged at the bottom of the driving block (28), and the double-rod inclined ejection mechanism further comprises a driving oil cylinder which is horizontally arranged on the upper mold board (1), and an output shaft of the driving oil cylinder is connected with the driving block (28).
Priority Applications (1)
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CN202322631455.0U CN220923210U (en) | 2023-09-26 | 2023-09-26 | Double-rod inclined ejection mechanism of automobile instrument injection mold |
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CN202322631455.0U CN220923210U (en) | 2023-09-26 | 2023-09-26 | Double-rod inclined ejection mechanism of automobile instrument injection mold |
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CN202322631455.0U Active CN220923210U (en) | 2023-09-26 | 2023-09-26 | Double-rod inclined ejection mechanism of automobile instrument injection mold |
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2023
- 2023-09-26 CN CN202322631455.0U patent/CN220923210U/en active Active
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