CN205614939U - Injection mold - Google Patents
Injection mold Download PDFInfo
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- CN205614939U CN205614939U CN201620230345.0U CN201620230345U CN205614939U CN 205614939 U CN205614939 U CN 205614939U CN 201620230345 U CN201620230345 U CN 201620230345U CN 205614939 U CN205614939 U CN 205614939U
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- ejecting mechanism
- top board
- injection mold
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- plate
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Abstract
The utility model provides an injection mold, it includes quiet module and movable mould group, the chamber is injected in the formation of taking off between the stationary mold plate of flitch and movable mold and quiet module of movable mould group, below taking off the flitch is equipped with ejection mechanism, the drawing of patterns for the first time is by stationary mold plate and the separation of injection chamber and stay the injection intracavity with the product, secondary demolding takes off the flitch by the ejection mechanism drive and goes up ejectingly from movable mold the product, the drawing of patterns for the third time is ejecting by the working of plastics that ejection mechanism will take off on the flitch, pass through stationary mold plate, take off the drawing of patterns of flitch and secondary ejection mechanism a lot of with the ejecting injection mold of working of plastics product, not only pass through to reduce the loss of the part of mould at the during operation, the working life of extension part, the working life of the spring part in the mould especially, reducing maintenance cost, but also can effectual packaging force and frictional force of decomposing between working of plastics product and the mould, the working of plastics product is damaged in the time of can preventing the drawing of patterns, the quality and the yield of the product of effectual improvement.
Description
Technical field
This utility model relates to field of plastics processing, particularly a kind of injection mold.
Background technology
Injection mold is wide variety of a kind of mould, thin cylinder series products in working of plastics production
When the demoulding, generally using push rod to add stripping board structure, this structure opening stroke is limited, and arm-tie is fragile,
Spring strength should not adjust, and spring replacement frequency is higher, and mold repair expense cost is high, and the demoulding is difficult,
Affect product quality.
Summary of the invention
The purpose of this utility model is to overcome the defect of prior art, it is provided that a kind of simple in construction, reliability
High injection mold.
For achieving the above object, this utility model adopts the technical scheme that
A kind of injection mold, it includes quiet module 100 and dynamic model group 200, the stripper plate 210 of dynamic model group 200
And form injecting cavity 500 between dynamic mould core 220 and the quiet template 110 of quiet module 100, at stripper plate 210
Lower section be provided with ejecting mechanism 300, the demoulding for the first time is separated and by product with injecting cavity 500 by quiet template 110
Staying in injecting cavity 500, the demoulding for the second time is driven stripper plate 210 by product from dynamic model by ejecting mechanism 300
Ejecting on core 220, the working of plastics on stripper plate 210 is ejected by the demoulding for the third time by ejecting mechanism 300.
Optionally, described ejecting mechanism 300 include an ejecting mechanism 310 being connected with stripper plate 210 and
Extending the secondary ejecting mechanism 320 of injecting cavity 500 side, the drive mechanism 330 of ejecting mechanism 300 drives one
Secondary lifting body 310 and secondary lifting body 320 move, and the drive mechanism 330 of ejecting mechanism 300 includes
It is provided with the unlocking board 331 promoting an ejecting mechanism 310 and the trip lever 332 promoting unlocking board 331, once
After ejecting mechanism 310 rises to preset distance, unlocking board 331 misplaces with an ejecting mechanism 310 and releases
Driving force to an ejecting mechanism 310, then secondary ejecting mechanism 320 is with in drive mechanism 330 continuation
Rise and promote working of plastics.
Optionally, described drive mechanism 330 includes top board 333 and is arranged on the top board pad on the downside of top board 333
Plate 334, is provided with chute 3340 on the upside of top board backing plate 334, unlocking board 331 is at top board 333 and top board backing plate
It is slidably matched with chute 3340 between 334.
Optionally, the side of described unlocking board 331 is provided with the solution driving unlocking board 331 to extrude trip lever 332
Lock spring 3313, unlocking spring 3313 is the stage clip being arranged on unlocking board 331 away from trip lever 332 side.
Optionally, top board 333 and top board backing plate 334 are equipped with the unblock passed through for trip lever 332 to lead to
Hole and the dislocation through hole passed through for ejecting mechanism 310.
Optionally, described trip lever 332 include dynamic model backing plate with dynamic model group 200 240 fixing be connected the
One guide end 3321 and fixing the second guide ends 3322 being connected of the quiet baffle plates of dynamic model group 200 times 260 and
Being connected to the solution lock section 3323 between the first guide end 3321 and the second guide end 3322, solving lock section 3323 is
The frustum cone structure in trapezoidal cross section, the side solving lock section 3323 contacts promotion unlocking board 331 with unlocking board 331
And misplace between an ejecting mechanism 310.
Optionally, described unlocking board 331 is provided with the solution lockhole 3311 coordinated with trip lever 332, described solution
The dislocation hole 3312 coordinated with ejecting mechanism 310, an ejecting mechanism 310 it is additionally provided with on jam plate 331
One end withstand on the side of dislocation hole 3312 upper limb;It is equipped with for solving on top board 333 and top board backing plate 334
The unblock through hole that locking bar 332 passes through, top board 333 is provided with the dislocation passed through for ejecting mechanism 310
Through hole, trip lever 332 sequentially passes through unblock through hole, solution lockhole 3311 and of unlocking board 331 of top board 333
The unblock through hole of top board backing plate 334;Original state, dislocation hole 3312 and the top board 333 of unlocking board 331
Dislocation through hole shifts to install, and an ejecting mechanism 310 passes dislocation through hole and the unlocking board 331 of top board 333
Connect;In ejecting mechanism 300 uphill process, trip lever 332 drives unlocking board 331 to slide and makes dislocation hole 3312
Corresponding with the dislocation through hole of top board 333, one time ejecting mechanism 310 releases and ejector through dislocation hole 3312
The connection of structure 300.
Optionally, arrange two in the side of unlocking board 331 and unlock spring 3313, unlock the another of spring 3313
One end is arranged on the top board backing plate 334 of ejecting mechanism 300 by screw.
Optionally, between described stripper plate 210 and the moving platen 230 of dynamic model group 200, it is provided with stop screw 211,
Stop screw 211 rises to preset distance at stripper plate 210 and stops that it continues up.
Optionally, described quiet module 100 include quiet template 110 and be arranged on the upside of quiet template 110 upper quiet
Baffle plate 120, is arranged on the stripper plate that the dynamic model group 200 on the downside of quiet module 100 includes being disposed adjacent successively
210, moving platen 230, dynamic model backing plate 240, parallels 250, under quiet baffle plate 260 and be arranged on stripper plate
Ejecting mechanism 300 below 210, forms the first die joint PL1 between quiet template 110 and stripper plate 210,
The second die joint PL2 is formed between stripper plate 210 and moving platen 230;Dynamic model backing plate 240 and under quiet mould
A bracer 270 it is provided with, between the top board 333 and dynamic model backing plate 240 of ejecting mechanism 300 between base plate 260
Being provided with back-moving spring 280, multiple vertically disposed dynamic mould cores 220 are vertically set on the middle part of injection mold,
It is respectively arranged at two ends with two ejecting mechanisms 310 and secondary ejecting mechanism 320 at injection mold, two one
Secondary ejecting mechanism 310 drives stripper plate 210 to move from the two ends of stripper plate 210, the one of ejecting mechanism 300
Individual top board backing plate 334 simultaneously drives two ejecting mechanisms 310 and multiple secondary ejecting mechanism 300 moves.
Injection mold of the present utility model is by quiet template 110, stripper plate 210 and secondary ejecting mechanism more than 320
Working of plastics product is ejected injection mold by the secondary demoulding, not only by reducing the part loss operationally of mould,
Extend the working life of part, the particularly working life of the spring part in mould, reduce maintenance cost,
But also can effectively package power between decomposition plastics part product and mould and frictional force, it is possible to anti-anti-avulsion
During mould, working of plastics product is damaged, the quality of the effective product improved and yield rate.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model injection mold;
Fig. 2 is the partial enlarged drawing of this utility model injection mold structure;
Fig. 3 is the structural representation of the dynamic mould core of this utility model injection mold;
Fig. 4 is the structural representation of the ejecting mechanism of this utility model injection mold;
Fig. 5 is the structural representation of the trip lever of this utility model injection mold;
Fig. 6 is the structural representation of the unlocking board of this utility model injection mold;
Fig. 7 is the structural representation of the top board backing plate of this utility model injection mold;
Fig. 8 is the partial structurtes schematic diagram of this utility model injection mold.
Detailed description of the invention
The embodiment be given below in conjunction with accompanying drawing 1 to 8, further illustrates injection mold of the present utility model
Detailed description of the invention.Injection mold of the present utility model is not limited to the following description.
As shown in Figure 1-2, the quiet module 100 of injection mold of the present utility model includes quiet template 110 and sets
Put the upper quiet baffle plate 120 on the upside of quiet template 110, be arranged on the dynamic model group 200 on the downside of quiet module 100 and wrap
Include set gradually stripper plate 210, moving platen 230, dynamic model backing plate 240, parallels 250, under quiet baffle plate
260 and be arranged on the ejecting mechanism 300 below stripper plate 210, shape between quiet template 110 and stripper plate 210
Become the first die joint PL1, between stripper plate 210 and moving platen 230, form the second die joint PL2.
In conjunction with the concrete structure shown in Fig. 3, dynamic model group 200 is provided with dynamic mould core 220, quiet module 100
Injecting cavity 500 is formed between quiet template 110 and the stripper plate 210 of dynamic model group 200 and dynamic mould core 220, the
Demoulding is separated with injecting cavity 500 by quiet template 110 and opens the first die joint PL1 and product is stayed note
Penetrating in chamber 500, the demoulding for the second time is driven stripper plate 210 by product from dynamic mould core 220 by ejecting mechanism 300
On eject and open the second die joint PL2, the demoulding for the third time by ejecting mechanism 300 by the plastics on stripper plate 210
Part ejects.Injection moulding apparatus of the present utility model by repeatedly carrying out the demoulding to the plastic product after molding, permissible
By the loss operationally of the part of reduction mould, extend the working life of part, particularly in mould
The working life of spring part, reduces the maintenance cost of injection mold, but also can effective decomposition plastics
Package power between part product and mould and frictional force, it is possible to when preventing the demoulding, working of plastics product is damaged, has
The quality of the product of the raising of effect and yield rate.
In conjunction with the concrete structure of the ejecting mechanism 300 shown in Fig. 4, ejecting mechanism 300 includes and stripper plate 210
The ejecting mechanism 310 connected and the secondary ejecting mechanism 320 extending injecting cavity 500 side, ejecting mechanism
The drive mechanism 330 of 300 drives a lifting body 310 and secondary lifting body 320 to move, ejecting mechanism
The drive mechanism 330 of 300 includes being provided with the unlocking board 331 of ejecting mechanism 310 of promotion and at unlocking board
331 uphill process promote the trip lever 332 of unlocking board 331, when ejecting mechanism 310 ascending motion,
The trip lever 332 of drive mechanism 330 promotes that unlocking board 331 is relative with ejecting mechanism 310 to slide, when
After one time ejecting mechanism 310 rises to preset distance, unlocking board 331 and an ejecting mechanism 310 misplace also
Releasing the driving force to an ejecting mechanism 310, then secondary ejecting mechanism 320 continues with drive mechanism 330
Continuous rising promotes working of plastics.Further, between the moving platen 230 of stripper plate 210 and dynamic model group 200
Being provided with stop screw 211, stop screw 211 rises to preset distance at stripper plate 210 and stops that it continues up
Motion.
Concrete, described drive mechanism 330 includes top board 333 and is arranged on the top board pad on the downside of top board 333
Plate 334, is provided with chute 3340 on the upside of top board backing plate 334, unlocking board 331 is at top board 333 and top board backing plate
It is slidably matched with chute 3340 between 334, top board 333 and top board backing plate 334 are equipped with for trip lever
332 pass through unlock through holes 3331,3341 and the dislocation through hole 3332 passed through for ejecting mechanism 310,
3342。
The concrete structure of trip lever 332 as shown in Figure 5, described trip lever 332 includes and dynamic model backing plate 240
Fixing the first guide end 3321 connected with under quiet fixing the second guide end 3322 being connected of baffle plate 260 and
Being connected to the solution lock section 3323 between the first guide end 3321 and the second guide end 3322, solving lock section 3323 is
The frustum cone structure of trapezoid cross section, solve lock section 3323 side contact with unlocking board 331 and unlocking board 331 with
Drive mechanism 330 uphill process promotes unlocking board 331 and an ejecting mechanism by extruding unlocking board 331
Misplace between 310.What the present embodiment passed through solves lock section 3323 side is the face tilted, as this utility model
Other embodiments, it is also possible to inclined plane is set on unlocking board 331 and is fixedly mounted in injection mold
Trip lever 332 coordinates, and is not specifically limited here, and trip lever 332 can also be by other structure in addition
Realize, including the rod-like structure being obliquely installed being arranged on ejecting mechanism 300 ascending path or have inclination
The projection cube structure etc. in face, coordinated with unlocking board 331 by inclined plane realize unlocking board 331 rise to pre-
Automatically dislocation is formed with an ejecting mechanism 310 after set a distance.
In conjunction with the concrete structure of unlocking board 331 shown in Fig. 6, described unlocking board 331 is provided with and trip lever 332
The solution lockhole 3311 coordinated, the second guide end 3322 of trip lever 332, through solving lockhole 3311, solves lock section
3323 coordinate with solving lockhole 3311, described unlocking board 331 is additionally provided with and coordinates with ejecting mechanism 310
Dislocation hole 3312, one end of an ejecting mechanism 310 withstands on the side of dislocation hole 3312 upper limb, trip lever
332 unblock through hole 3331, the solution lockhole 3311 of unlocking board 331 and the top board backing plates sequentially passing through top board 333
The unblock through hole 3341 of 334;Through hole is corresponding with the dislocation through hole of top board backing plate 334 sets in the dislocation of top board 333
Putting, original state, the dislocation hole 3312 of unlocking board 331 shifts to install with the dislocation through hole of top board 333, and one
Secondary ejecting mechanism 310 is connected through the dislocation through hole of top board 333 with unlocking board 331;On ejecting mechanism 300
During Shenging, trip lever 332 drives unlocking board 331 slip to make dislocation hole 3312 lead to the dislocation of top board 333
Hole is corresponding, and ejecting mechanism 310 releases through dislocation hole 3312 and the coupling, two of ejecting mechanism 300
Secondary eject when action starts ejecting mechanism 310 and fall in dislocation hole 3312.
Further, the concrete structure of top board backing plate 334 as shown in Figure 7, the side of described unlocking board 331
It is provided with the unblock spring 3313 driving unlocking board 331 to extrude trip lever 332, unlocks spring 3313 for being arranged on
Unlocking board 331 is installed by screw away from the stage clip of trip lever 332 side, the other end unlocking spring 3313
At the top board backing plate 334 of ejecting mechanism 300, as a kind of preferred implementation of the present embodiment, at unlocking board
The side of 331 arranges two and unlocks spring 3313, and top board backing plate 334 is provided with fixing unblock spring 3313
It is more steady that spring groove 3343 can make that unlocking board 331 moves, it is also possible to orders about ejecting after action completes
Unlocking board 331 automatically resets.Certainly, as other embodiments of the present utility model, unlock spring 3313 also
It can be the extension spring being arranged on unlocking board 331 near one end of trip lever 332.
A kind of detailed description of the invention of injection mold of the present utility model as shown in Figure 8, at dynamic model backing plate 240
A bracer 270 it is provided with between quiet baffle plate 260, at top board 333 and the dynamic model backing plate of ejecting mechanism 300 under and
Being provided with back-moving spring 280 between 240, multiple vertically disposed dynamic mould cores 220 are vertically set on injection mold
Middle part, be respectively arranged at two ends with two ejecting mechanisms 310 and secondary ejecting mechanism 320 at injection mold,
Two ejecting mechanisms 310 drive stripper plate 210 to move from the two ends of stripper plate 210, ejecting mechanism 300
A top board backing plate 334 simultaneously drive two ejecting mechanisms 310 and multiple secondary ejecting mechanism 300
Motion, each moving-mould-core 220 be formed around three centrosymmetric secondary ejecting mechanisms 300 for pushing away
Go out working of plastics product.
Injection mold of the present utility model operationally, is first ordered about quiet template 110 and stripper plate 210 by external force
Separate and open the first die joint PL1, then driven an ejecting mechanism 310 and secondary by ejecting mechanism 300
Ejecting mechanism 320 ascending motion, ejecting mechanism 300 promotes stripper plate 210 by an ejecting mechanism 310
Separate with moving platen 230 and the second die joint PL2 is opened, working of plastics is released injecting cavity 500 simultaneously,
After one time ejecting mechanism 310 promotes stripper plate 210 to rise to preset distance, due to the effect of trip lever 332
Make dislocation hole 3312 axial sliding movement on unlocking board 331 to the dead in line with an ejecting mechanism 310, and
Making an ejecting mechanism 310 fall in dislocation hole 3312, now an ejecting mechanism 310 releases stripper plate
The driving force of 210, then secondary ejecting mechanism 320 continues the driving with ejecting mechanism 300 and promotes stripper plate
Working of plastics on 210, now stripper plate 210 cannot continue ascending motion due to the effect of stop screw 211 and
Being fixed, working of plastics thereon has been ejected the demoulding by secondary ejecting mechanism 320.
It should be noted that the adjectives such as top involved in this utility model, upside, rising are only
In order to state between each mechanism and part relative to position and movement relation, not to of the present utility model specifically
Limit.
Above content be combine that this utility model made by concrete preferred implementation the most specifically
Bright, it is impossible to assert that of the present utility model being embodied as is confined to these explanations.For belonging to this utility model
For the those of ordinary skill of technical field, without departing from the concept of the premise utility, it is also possible to do
Go out some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.
Claims (10)
1. an injection mold, including quiet module (100) and dynamic model group (200), it is characterised in that: dynamic
The quiet template (110) of the stripper plate (210) of module (200) and dynamic mould core (220) and quiet module (100)
Between formed injecting cavity (500), be provided with ejecting mechanism (300) in the lower section of stripper plate (210), for the first time
The demoulding is separated with injecting cavity (500) by quiet template (110) and is stayed by product in injecting cavity (500), the
The secondary demoulding is driven stripper plate (210) to be pushed up from dynamic mould core (220) by product by ejecting mechanism (300)
Going out, the working of plastics on stripper plate (210) is ejected by the demoulding for the third time by ejecting mechanism (300).
Injection mold the most according to claim 1, it is characterised in that: described ejecting mechanism (300)
Including the ejecting mechanism (310) being connected with stripper plate (210) with extend injecting cavity (500) side
Secondary ejecting mechanism (320), the drive mechanism (330) of ejecting mechanism (300) drives a lifting body
(310) move with secondary lifting body (320), drive mechanism (330) bag of ejecting mechanism (300)
Include and be provided with the unlocking board (331) promoting an ejecting mechanism (310) and the unblock promoting unlocking board (331)
Bar (332), after one time ejecting mechanism (310) rises to preset distance, unlocking board (331) with once push up
Go out mechanism (310) misplace and release the driving force to an ejecting mechanism (310), then Double-ejection machine
Structure (320) continues to rise promotion working of plastics with drive mechanism (330).
Injection mold the most according to claim 2, it is characterised in that: described drive mechanism (330)
Including top board (333) and be arranged on top board (333) downside top board backing plate (334), top board backing plate (334)
Upside is provided with chute (3340), and unlocking board (331) is between top board (333) and top board backing plate (334)
It is slidably matched with chute (3340).
Injection mold the most according to claim 2, it is characterised in that: described unlocking board (331)
Side is provided with the unblock spring (3313) driving unlocking board (331) extruding trip lever (332), unlocks spring
(3313) for be arranged on the unlocking board (331) stage clip away from trip lever (332) side.
Injection mold the most according to claim 3, it is characterised in that: top board (333) and top board pad
The unblock through hole passed through for trip lever (332) it is equipped with and for an ejecting mechanism (310) on plate (334)
The dislocation through hole passed through.
Injection mold the most according to claim 2, it is characterised in that: described trip lever (332) wraps
Include fixing the first guide end (3321) being connected of the dynamic model backing plate (240) with dynamic model group (200) and dynamic model
Fixing the second guide end (3322) connected of the moving clamping plate (260) of group (200) and be connected to first and lead
Solution lock section (3323) between end (3321) and the second guide end (3322), solving lock section (3323) is
The frustum cone structure in trapezoidal cross section, the side solving lock section (3323) contacts promotion unblock with unlocking board (331)
Misplace between plate (331) and an ejecting mechanism (310).
Injection mold the most according to claim 3, it is characterised in that: on described unlocking board (331)
It is provided with the solution lockhole (3311) coordinated with trip lever (332), described unlocking board (331) is additionally provided with and one
The dislocation hole (3312) that secondary ejecting mechanism (310) coordinates, one end of an ejecting mechanism (310) withstands on mistake
The side of position hole (3312) upper limb;It is equipped with for unlocking on top board (333) and top board backing plate (334)
The unblock through hole that bar (332) passes through, top board (333) is provided with and passes through for an ejecting mechanism (310)
Dislocation through hole, trip lever (332) sequentially passes through the unblock through hole of top board (333), unlocking board (331)
Solution lockhole (3311) and the unblock through hole of top board backing plate (334);Original state, unlocking board (331)
The dislocation through hole of dislocation hole (3312) and top board (333) shift to install, an ejecting mechanism (310)
Dislocation through hole through top board (333) is connected with unlocking board (331);Ejecting mechanism (300) uphill process
In, trip lever (332) drives unlocking board (331) to slide and makes dislocation hole (3312) and top board (333)
Dislocation through hole is corresponding, and one time ejecting mechanism (310) releases and ejecting mechanism (300) through dislocation hole (3312)
Connection.
Injection mold the most according to claim 5, it is characterised in that: at the one of unlocking board (331)
Side arranges two and unlocks spring (3313), and the other end of unblock spring (3313) is arranged on by screw and ejects
The top board backing plate (334) of mechanism (300).
9. according to the arbitrary described injection mold of claim 1-6, it is characterised in that: described stripper plate (210)
And it is provided with stop screw (211), stop screw (211) between the moving platen (230) of dynamic model group (200)
Rise to preset distance at stripper plate (210) and stop that it continues up.
10. according to the arbitrary described injection mold of claim 1-6, it is characterised in that: quiet module (100)
Including quiet template (110) and be arranged on quiet template (110) upside upper quiet baffle plate (120), be arranged on
The dynamic model group (200) of quiet module (100) downside includes stripper plate (210), the dynamic model being disposed adjacent successively
Plate (230), dynamic model backing plate (240), parallels (250), moving clamping plate (260) and be arranged on stripper plate (210)
The ejecting mechanism (300) of lower section, forms the first die joint between quiet template (110) and stripper plate (210)
PL (1), forms the second die joint PL (2) between stripper plate (210) and moving platen (230);Dynamic
A bracer (270) it is provided with, in ejecting mechanism (300) between die-cushion plate (240) and moving clamping plate (260)
Top board (333) and dynamic model backing plate (240) between be provided with back-moving spring (280), multiple vertically disposed
Dynamic mould core (220) is vertically set on the middle part of injection mold, is respectively arranged at two ends with two at injection mold
Ejecting mechanism (310) and secondary ejecting mechanism (320), two ejecting mechanisms (310) are from de-
The two ends of flitch (210) drive stripper plate (210) motion, a top board backing plate of ejecting mechanism (300)
(334) two ejecting mechanisms (310) and multiple secondary ejecting mechanism (300) motion are simultaneously driven.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620230345.0U CN205614939U (en) | 2016-03-24 | 2016-03-24 | Injection mold |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620230345.0U CN205614939U (en) | 2016-03-24 | 2016-03-24 | Injection mold |
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Publication Number | Publication Date |
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CN205614939U true CN205614939U (en) | 2016-10-05 |
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CN201620230345.0U Active CN205614939U (en) | 2016-03-24 | 2016-03-24 | Injection mold |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106626255A (en) * | 2016-12-22 | 2017-05-10 | 温州宏泰模具有限公司 | Plastic mould |
CN110014557A (en) * | 2019-05-10 | 2019-07-16 | 苏州优瑞信电子科技有限公司 | Mold ejection mechanism |
-
2016
- 2016-03-24 CN CN201620230345.0U patent/CN205614939U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106626255A (en) * | 2016-12-22 | 2017-05-10 | 温州宏泰模具有限公司 | Plastic mould |
CN110014557A (en) * | 2019-05-10 | 2019-07-16 | 苏州优瑞信电子科技有限公司 | Mold ejection mechanism |
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