CN206528006U - Motorcycle body cover mould secondary catenating slider core-pulling mechanism - Google Patents
Motorcycle body cover mould secondary catenating slider core-pulling mechanism Download PDFInfo
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- CN206528006U CN206528006U CN201720092616.5U CN201720092616U CN206528006U CN 206528006 U CN206528006 U CN 206528006U CN 201720092616 U CN201720092616 U CN 201720092616U CN 206528006 U CN206528006 U CN 206528006U
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Abstract
The utility model belongs to injection molding technology field, more particularly to a kind of motorcycle body cover mould secondary catenating slider core-pulling mechanism.It solves the technical problems such as the precision difference of prior art presence.This motorcycle body cover mould secondary catenating slider core-pulling mechanism include can mutual split upper die and lower die, described lower mould has core, the mutual split of upper die and lower die and die cavity is formed each other, there is punch-pin that is opposed and can forming axis hole in described core, being provided between described upper die and lower die can be by the opposed axially opposing core pulling component for extracting axis hole out of punch-pin, and when described punch-pin extracts axis hole out, described upper die and lower die are in split state.Compared with prior art, the utility model advantage is:Core pulling precision is high, is difficult inside collsion damage axis hole, and core pulling is more steadily and conveniently.
Description
Technical field
The utility model belongs to injection molding technology field, more particularly to a kind of linkage of motorcycle body cover mould secondary is slided
Block core-pulling mechanism.
Background technology
Regenerated with the continuous renewal of technology, it can be seen that a variety of vehicles in daily life, including it is motor-driven
Car and non-motor vehicle, for motor vehicle, electric car and bicycle are most common, Portable energy-savings, can speed it is slower, it is and small
Although automobile or larger medium-sized motor vehicle speed, but it is more heavy, park and more bother, and motorcycle is as motor-driven
Car, that is, the demand for meeting speed is also more light, convenient parking, therefore no matter how transport science and techonologies develop, and motorcycle is still deep
Liked by some people.
In order to reach light purpose, it is necessary in the case where meeting motor-driven requirement, reduce the weight of itself, therefore motor as far as possible
The vehicle body body cover of car uses plastics to be made, therefore body cover is using distinctive mold injection molding, in injection life
During producing electricity motor-car, side cover of motorcycle, because side cover mounting hole is vertical with stripping direction, and installs hole depth, the demoulding is difficult.
In order to solve the problem of prior art is present, people have carried out long-term exploration, it is proposed that miscellaneous solution
Scheme.For example, Chinese patent literature discloses a kind of side cover injection mold secondary linkage core-pulling mechanism, [application number:
201320091685.6], including punch-pin, cavity plate, wherein, in addition to angled-lift splits and straight sliding block, one end of the angled-lift splits are vertical
Ground is located at an end margin of the cavity plate, and the short transverse of one end of the straight sliding block along the angled-lift splits is slidingly disposed at
On the angled-lift splits, the other end of the straight sliding block extends to the middle section of the die cavity formed between the punch-pin and cavity plate;
Cavity plate and the punch-pin separation after the completion of injection, the straight sliding block is displaced outwardly under the promotion of the angled-lift splits, completes one
The first time demoulding on individual direction;After being stripped for the first time, the angled-lift splits is continued to move to towards other direction, is completed second and is taken off
Mould, then product ejection.
Above-mentioned scheme improves the subproblem of prior art to a certain extent, still, and the program is also at least present
Following defect:Core pulling process precision is not high, easily damages axis hole.
The content of the invention
The purpose of this utility model is in view of the above-mentioned problems, providing a kind of core pulling precisely and the not motorcycle of easy damaged axis hole
Body cover mould secondary catenating slider core-pulling mechanism.
To reach above-mentioned purpose, the utility model employs following technical proposal:This motorcycle body cover mould secondary joins
Movable slider core-pulling mechanism include can mutual split upper die and lower die, described lower mould has core, and upper die and lower die are mutually spelled
Close and form die cavity each other, there is punch-pin that is opposed and can forming axis hole, described upper die and lower die in described core
Between provided with can be by the axially opposing core pulling component for extracting axis hole out of opposed punch-pin, and when described punch-pin extracts axis hole out, institute
The upper die and lower die stated are in split state.Core pulling can be carried out by being in upper die and lower die under split state, work is kept
The integrality and intensity of part, will not destroy the structure of workpiece while core pulling.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, described core pulling component includes and two
Individual punch-pin distinguish have in two the first sliding blocks of axial restraint, described upper mould can horizontal axis movement and moving direction with it is convex
Mould extracts the second sliding block of the direction of axis hole vertically out, and when described the second sliding block axial movement, the first sliding block of driving is axially leaned on
Close or remote from sliding connector between the first described sliding block and the second sliding block.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, described sliding connector includes setting
The auxiliary slider between two the first sliding blocks is put, the top of described auxiliary slider is connected with the second sliding block, described auxiliary
Described auxiliary slider can be driven in vertical direction when the first sliding block horizontal axis is moved by being provided between sliding block and the second sliding block
Second drive component of upper movement, is provided between described auxiliary slider and the first sliding block when auxiliary slider is moved in vertical direction
When can drive the first drive component that the first described sliding block is moved axially in the horizontal direction.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, the first described drive component includes
The first T-shaped projection of the opposed both sides in auxiliary slider is tilted respectively, in described first T-shaped raised vertical with auxiliary slider
Axis has on the first angle, the first described sliding block and with punch-pin symmetric position and had and the first T-shaped convex shape size phase
First T-slot of adaptation, the first described T-slot is plugged in the first T-shaped projection so that between the first sliding block and auxiliary slider
Can be relative to when being slidably connected and when described auxiliary slider in the vertical direction movement, the first described sliding block is in the horizontal direction
It is mobile.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, with punch-pin on the first described sliding block
Symmetric position has connecting seat, and the first described T-slot is arranged on described connecting seat, described connecting seat upper and lower ends face
It is parallel to each other and is horizontally disposed with, there is the second angle and described the between the lower surface of described connecting seat and the first T-slot
It is mutually remaining between two angles and the second angle.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, the second described drive component includes
The second T-shaped projection of the second slider bottom is arranged on, the second described sliding block is wedge shaped and bottom angled is set, described second
The T-shaped raised top with the second sliding block has the 3rd angle, and the top droop of described auxiliary slider, which is set, causes auxiliary slider
Top can be bonded to each other with the bottom of the second sliding block, the top of described auxiliary slider is provided with and the second T-shaped raised shape
The second T-slot that size is adapted, the second described T-slot is plugged in the second T-shaped projection so that the second sliding block and auxiliary are slided
Can be relative to being slidably connected and when the first described sliding block is moved in the horizontal direction, described auxiliary slider is vertical between block
Side is moved up.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, described punch-pin, the first sliding block, even
Joint chair is in integral structure.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, described mold have from side wall to
The second chute being adapted with the second sliding block of upper mould medial recess formation, the second described chute extends the side wall of upper mould,
The second described sliding block is slidably arranged in the second chute.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, the second chute open topped set and
Open-mouth both sides are provided with first step portion, and the top of the second described sliding block extends to be formed to both sides to be adapted with first step portion
Second step portion, when the second described sliding block is moved in the second chute, described second step portion is slidably arranged in
The sliding block power packages that the second sliding block is moved axially in the second chute can be driven by having in one stage portion, in the second described chute
Part, described sliding block Power Component is cylinder.
In above-mentioned motorcycle body cover mould secondary catenating slider core-pulling mechanism, it is additionally provided with the second described chute
3rd stage portion, the 3rd described stage portion is covered provided with chute.
Compared with prior art, the advantage of this motorcycle body cover mould secondary catenating slider core-pulling mechanism is:It is logical
Core pulling can be carried out in the case where upper die and lower die are in split state by crossing, and the integrality and intensity of workpiece be kept, while core pulling
The structure of workpiece will not be destroyed;With two core pulling components, the efficiency of shaping is improved, and the core pulling component synchronization on both sides is taken out
Go out, be conducive to improving overall structural intergrity.
Brief description of the drawings
Fig. 1 is the mould overall schematic that the utility model is provided.
Fig. 2 is the lower mould schematic diagram that the utility model is provided.
Fig. 3 is the core pulling component diagram that the utility model is provided.
Fig. 4 is the first drive component schematic diagram that the utility model is provided.
Fig. 5 is another angle schematic diagram of the first drive component that the utility model is provided.
Fig. 6 is the first slide block schematic diagram that the utility model is provided.
Fig. 7 is another angle schematic diagram of the first sliding block that the utility model is provided.
Fig. 8 is the second chute schematic diagram that the utility model is provided.
Fig. 9 is the schematic diagram after the second sliding block that the utility model is provided is removed.
Figure 10 is schematic diagram after the second sliding block and auxiliary slider that the utility model is provided are removed.
Figure 11 is another angle schematic diagram of core pulling component that the utility model is provided.
In figure, upper mould 1, lower mould 2, core 3, die cavity 4, punch-pin 5, core pulling component 6, the first sliding block 7, the second sliding block 8, slip
Connector 9, auxiliary slider 10, the second drive component 11, the first drive component 12, first T-shaped raised 13, the first T-slot 14, company
Joint chair 15, second T-shaped raised 16, the second T-slot 17, the second chute 18, first step portion 19, second step portion 20, the 3rd
Rank portion 21, chute capping 22, the 3rd T-shaped raised 23, the 3rd T-slot 24, auxiliary shoot 25.
Embodiment
The utility model is described in more detail with reference to the accompanying drawings and detailed description.
As shown in Figure 1-2, this motorcycle body cover mould secondary catenating slider core-pulling mechanism include can mutual split it is upper
Mould 1 and lower mould 2, described lower mould 2 have core 3, and the mutual split of upper die and lower die 2 and each other formation die cavity 4 first will
Plastic cement under molten condition is injected into die cavity 4, and is molded according to the shape of core 3, is had in described core 3 opposed and can
The punch-pin 5 of axis hole is formed, can be covered in the outer surface of punch-pin 5 in melt plastic cement to form axis hole by punch-pin 5.
Preferably, as shown in figure 3, provided with can be by the axial phase of opposed punch-pin 5 between described upper mould 1 and lower mould 2
Core pulling component 6 to extracting axis hole out, and when described punch-pin 5 extracts axis hole out, described upper mould 1 and lower mould 2 are in split shape
State.Core pulling can be carried out by being in upper mould 1 and lower mould 2 under split state, the integrality and intensity of workpiece are kept, in core pulling
While will not destroy the structure of workpiece.
Specifically, as shown in figure 3, core pulling component 6 includes two the first sliding blocks that axial restraint is distinguished with two punch-pin 5
7, having in described upper mould 1 can horizontal axis movement and moving direction second cunning vertical with the direction that punch-pin 5 extracts axis hole out
Block 8, when described second sliding block 8 axial movement, the first sliding block 7 of driving axially adjacent to or remote, the described He of the first sliding block 7
There is sliding connector 9 between second sliding block 8.Sliding connector 9 includes the auxiliary slider being arranged between two the first sliding blocks 7
10, the top of described auxiliary slider 10 is connected with the second sliding block 8, is provided between the described sliding block 8 of auxiliary slider 10 and second
The second drive component that the described in the vertical direction of auxiliary slider 10 can be driven to move when the horizontal axis of the first sliding block 7 is moved
11, it is provided between the described sliding block 7 of auxiliary slider 10 and first when described in auxiliary slider 10 can drive when vertical direction move
The first drive component 12 for moving axially in the horizontal direction of the first sliding block 7.In the state of upper mould 1 and the lower split of mould 2, treat
After plastic cement is cooled and shaped, the second sliding block 8 is slided by level and drives the in the vertical direction of auxiliary slider 10 to move, and drives first
The horizontal axis of sliding block 7 is moved, and most punch-pin 5 is extracted out from the axis hole of shaping at last, and the mode of secondary linkage can make it that control is convex
The process of the core pulling of mould 5 is more slow, and precision is higher, and avoids the defective work piece structure that direct core pulling is easily caused
Situation.
Further, as illustrated in figures 4-5, the first drive component 12 includes tilting the opposed both sides in auxiliary slider 10 respectively
First T-shaped raised 13, described first T-shaped raised 13 has the first angle α with the vertical axis of auxiliary slider 10, described
The first sliding block 7 on and there is the first T-slot 14 for being adapted with the first T-shaped raised 13 shape size with the symmetric position of punch-pin 5,
The first described T-slot 14 is plugged on first T-shaped raised 13 so that can be slided relatively between the first sliding block 7 and auxiliary slider 10
Move connection and when the described in the vertical direction of auxiliary slider 10 movement, the first described sliding block 7 is moved in the horizontal direction.
When injection molding, the first sliding block 7 is stuck in the workpiece of shaping, it is impossible to moved again on vertical direction, so when the phase of the first sliding block 7
When being slided for auxiliary slider 10, the first sliding block 7 can only carry out the axial movement of horizontal direction.Incline due to first T-shaped raised 13
Tiltedly set, therefore when the in the vertical direction of auxiliary slider 10 is moved, the first sliding block 7 be moved in the horizontal direction according to meeting
It is dynamic.
Further, as shown in fig. 6-7, there is connecting seat 15 with the symmetric position of punch-pin 5 on the first sliding block 7, it is described
First T-slot 14 is arranged on described connecting seat 15, and the described upper and lower ends face of connecting seat 15 is parallel to each other and is horizontally disposed with,
There is the second angle β between the lower surface of described connecting seat 15 and the first T-slot 14 and the first described angle α and the second folder
It is mutually remaining between angle beta.Due to being provided with the side parallelogram of connecting seat 15 and connecting seat 15, and α and β are mutually remaining, so working as
When first sliding block 7 is slided relative to auxiliary slider 10, the first sliding block 7 drives the level of punch-pin 5 to slide, so that punch-pin 5 is axially moved
The axis hole of shaping is moved out of, and avoids causing collsion damage to axis hole inside.In the present embodiment, punch-pin 5, the first sliding block 7, connection
Seat 15 is in integral structure.Integral structure can increase the framework intensity of punch-pin 5, it is difficult in itself during core pulling
Damage, and keep precision.
As shown in Fig. 3-5 and Figure 11, the second drive component 11 includes being arranged on the second T-shaped convex of the bottom of the second sliding block 8
16 are played, described second sliding block 8 is wedge shaped and bottom angled is set, the top of described the second T-shaped raised 16 and second sliding block 8
With the 3rd angle γ, the top droop of described auxiliary slider 10 set enable auxiliary slider 10 top and the second sliding block
8 bottom is bonded to each other, and the top of described auxiliary slider 10 is provided with the be adapted with the second T-shaped raised 16 shape size
Two T-slots 17, the second described T-slot 17 is plugged on second T-shaped raised 16 so that the second sliding block 8 and auxiliary slider 10 it
Between can be relative to being slidably connected and when the first described sliding block 7 is moved in the horizontal direction, described auxiliary slider 10 is vertical
Side is moved up.Principle with the first drive component 12 is similar, by the second sliding block 8 formation inclined-plane of wedge shape, and in upper mould 1
In there is the auxiliary shoot 25 for only accommodating the movement of auxiliary slider 10 in the vertical direction, therefore auxiliary slider 10 is relative to second
When sliding block 8 is slided, can only in the vertical direction movement, so when the level of the second sliding block 8 is slided, inclined second T-shaped projection
16 and second T-slot 17 it is relative slide, moving up and down for auxiliary slider 10 is driven, while the first drive component 12 drives first
The movement of sliding block 7, and the most core pulling from axis hole of punch-pin 5 at last.
You need to add is that, such as Fig. 4 and Figure 10 is shown, and the 3rd T-shaped projection is provided with certain side wall of auxiliary slider 10
23, and the 3rd T-slot 24 is provided with the corresponding relative position in auxiliary shoot 25, when auxiliary slider 10 is slidably arranged in
When in auxiliary shoot 25, described the 3rd T-shaped raised 23 grafting is simultaneously slidably arranged in the 3rd T-slot 24, so as to ensure that auxiliary
Help sliding block 10 to be difficult to offset or skid in the other direction during slip, it is final ensure that punch-pin 5 can stablize from axle
It is axially withdrawn in hole.
As shown in figs. 1 and 8, upper mould 1 has being adapted with the second sliding block 8 from the side wall upward medial recess of mould 1 formation
Second chute 18, the second described chute 18 extends the side wall of upper mould 1, and the second described sliding block 8 is slidably arranged in the second cunning
In groove 18.The open topped of second chute 18 is set and open-mouth both sides are provided with first step portion 19, the top of described the second sliding block 8
Portion extends the second step portion 20 to be formed and be adapted with first step portion 19 to both sides, when the second described sliding block 8 is slided second
When being moved in groove 18, described second step portion 20 is slidably arranged in first step portion 19, is had in the second described chute 18
There is the sliding block Power Component that can drive the axial movement in the second chute 18 of the second sliding block 8, described sliding block Power Component is gas
Cylinder.Drive the second sliding block 8 level in the second chute 18 to slide by cylinder, and finally driving punch-pin 5 it is stable from axis hole
Extract out.The 3rd stage portion 21 is additionally provided with second chute 18, the 3rd described stage portion 21 is provided with chute capping 22.
Specific embodiment described herein is only to the utility model spirit explanation for example.The utility model institute
Category those skilled in the art can make various modifications or supplement or using similar to described specific embodiment
Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.
Although more having used upper mould 1, lower mould 2, core 3, die cavity 4, punch-pin 5, core pulling component 6, the first sliding block herein
7th, the second sliding block 8, sliding connector 9, auxiliary slider 10, the second drive component 11, the first drive component 12, the first T-shaped projection
13rd, the first T-slot 14, connecting seat 15, second T-shaped raised 16, the second T-slot 17, the second chute 18, first step portion 19,
The arts such as two stage portions 20, the 3rd stage portion 21, chute capping 22, the 3rd T-shaped raised 23, the 3rd T-slot 24, auxiliary shoot 25
Language, but it is not precluded from the possibility using other terms.It is used for the purpose of more easily describing and explaining this using these terms
The essence of utility model;Any additional limitation is construed as all to disagree with the utility model spirit.
Claims (10)
1. a kind of motorcycle body cover mould secondary catenating slider core-pulling mechanism, including can mutual split upper mould (1) and lower mould
(2), described lower mould (2) has core (3), upper die and lower die (2) mutually split and each other formation die cavity (4), its spy
Levy and be, there is punch-pin (5) that is opposed and can forming axis hole in described core (3), described upper mould (1) and lower mould (2) it
Between provided with can be by the axially opposing core pulling component (6) for extracting axis hole out of opposed punch-pin (5), and when described punch-pin (5) extracts axle out
Kong Shi, described upper mould (1) and lower mould (2) are in split state.
2. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 1, it is characterised in that described
Core pulling component (6) include having in two the first sliding blocks (7) with two punch-pin (5) axial restraint respectively, described upper mould (1)
Have can horizontal axis movement and moving direction and punch-pin (5) extraction axis hole vertical the second sliding block (8) in direction, when described the
Two sliding blocks (8) move axially when, driving the first sliding block (7) axially adjacent to or remote, described the first sliding block (7) and the second sliding block
(8) there is sliding connector (9) between.
3. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 2, it is characterised in that described
Sliding connector (9) include being arranged on auxiliary slider (10) between two the first sliding blocks (7), described auxiliary slider (10)
Top be connected with the second sliding block (8), be provided between described auxiliary slider (10) and the second sliding block (8) when the first sliding block (7)
Horizontal axis can drive the second drive component (11) that described auxiliary slider (10) in the vertical direction is moved when moving, described
Auxiliary slider (10) and the first sliding block (7) between be provided with when auxiliary slider (10) can be driven when vertical direction is moved it is described
The first drive component (12) that first sliding block (7) is moved axially in the horizontal direction.
4. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 3, it is characterised in that described
The first drive component (12) include tilting first T-shaped raised (13) of the opposed both sides in auxiliary slider (10) respectively, it is described
First T-shaped raised (13) and the vertical axis of auxiliary slider (10) there is the first angle (α), described the first sliding block (7)
Above and with punch-pin (5) symmetric position there is the first T-slot (14) being adapted with first T-shaped raised (13) shape size, it is described
The first T-slot (14) be plugged on first T-shaped raised (13) so that can phase between the first sliding block (7) and auxiliary slider (10)
To being slidably connected and when described auxiliary slider (10) in the vertical direction movement, described the first sliding block (7) is in level side
Move up.
5. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 4, it is characterised in that described
The first sliding block (7) on there is connecting seat (15) with punch-pin (5) symmetric position, described the first T-slot (14) is arranged on described
Connecting seat (15) on, described connecting seat (15) upper and lower ends face is parallel to each other and is horizontally disposed with, described connecting seat (15)
Lower surface and the first T-slot (14) between have the second angle (β) and described the first angle (α) and the second angle (β) it
Between it is mutually remaining.
6. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 3, it is characterised in that described
The second drive component (11) include being arranged on second T-shaped raised (16) of the second sliding block (8) bottom, the second described sliding block
(8) wedge shaped and bottom angled is set, and described second T-shaped raised (16) and the top of the second sliding block (8) have the 3rd angle
(γ), the top droop of described auxiliary slider (10) set enable auxiliary slider (10) top and the second sliding block (8)
Bottom is bonded to each other, and the top of described auxiliary slider (10) is provided with what is be adapted with the shape size of second T-shaped raised (16)
Second T-slot (17), described the second T-slot (17) is plugged on second T-shaped raised (16) so that the second sliding block (8) and auxiliary
Helping between sliding block (10) can be relative to being slidably connected and when described the first sliding block (7) is moved in the horizontal direction, described is auxiliary
Sliding block (10) in the vertical direction is helped to move.
7. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 5, it is characterised in that described
Punch-pin (5), the first sliding block (7), connecting seat (15) be in integral structure.
8. the motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 2-7 any one, it is special
Levy and be, described upper mould (1) has be adapted with the second sliding block (8) the from the formation of the upward mould of side wall (1) medial recess
Two chutes (18), described the second chute (18) extends the side wall of upper mould (1), and described the second sliding block (8) is slidably arranged in
In second chute (18).
9. motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 8, it is characterised in that second
Chute (18) open topped is set and open-mouth both sides are provided with first step portion (19), the top of described the second sliding block (8) to
Both sides extend the second step portion (20) to be formed and be adapted with first step portion (19), when described the second sliding block (8) is second
When being moved in chute (18), described second step portion (20) is slidably arranged in first step portion (19), the second described cunning
There is the sliding block Power Component that can drive the second sliding block (8) axial movement in the second chute (18), described cunning in groove (18)
Block Power Component is cylinder.
10. the motorcycle body cover mould secondary catenating slider core-pulling mechanism according to claim 9 any one, its feature
It is, the 3rd stage portion (21) is additionally provided with described the second chute (18), and the 3rd described stage portion (21) is provided with chute
Cover (22).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720092616.5U CN206528006U (en) | 2017-01-22 | 2017-01-22 | Motorcycle body cover mould secondary catenating slider core-pulling mechanism |
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CN201720092616.5U CN206528006U (en) | 2017-01-22 | 2017-01-22 | Motorcycle body cover mould secondary catenating slider core-pulling mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109968610A (en) * | 2019-04-18 | 2019-07-05 | 珠海格力精密模具有限公司 | The die sinking method of sliding block core-pulling mechanism, mold and mold |
-
2017
- 2017-01-22 CN CN201720092616.5U patent/CN206528006U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109968610A (en) * | 2019-04-18 | 2019-07-05 | 珠海格力精密模具有限公司 | The die sinking method of sliding block core-pulling mechanism, mold and mold |
CN109968610B (en) * | 2019-04-18 | 2023-12-08 | 珠海格力精密模具有限公司 | Slide block core pulling mechanism, mold and mold opening method of mold |
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