CN206589277U - Integrated injection mold - Google Patents

Abstract

The utility model discloses a kind of integrated injection mold, the integrated injection mold includes a dynamic model and a cover half, the dynamic model is integrally formed, including two dynamic model die joints, the cover half is integrally formed, including two cover half die joints, and the dynamic model coordinates with the cover half, and a die cavity is formed between cover half die joint described in dynamic model die joint and one described in one, the geometric center of the dynamic model and the geometric center of the cover half are coaxial.The utility model, which merges two dynamic models separate in traditional injection moulding mould, two cover half, is manufactured into a dynamic model, a cover half, simplify assembling process, reduce accumulation of the foozle in assembling process, and contribute to cover half and the lifting of dynamic model matched moulds stability after revolution, it is to avoid occur inconsistent phenomenon after revolution.

Description

Integrated injection mold

Technical field

The utility model is related to one kind of multiple plastics injection moulds, more particularly to a kind of integrated injection mold.

Background technology

With the raising continued to develop with people's taste of social civilization, the appearance and modeling and visual effect of product seem more Come more important.The beautification of conventional plastic product appearance is main to be handled by methods such as spraying, plating, but the product that these methods are obtained In atmosphere, appearance color is more easily damaged for exposure for a long time.

In industrial processes, the plastics of two kinds of colors are molded into same mould usually using double-color mold Type.At present, double-color mold mounting means is cumbersome, take time and effort, it is difficult to the fierce industry competition of reply；And before and after dynamic model revolution Positioning datum has two, the problems such as easily producing dislocation, do not close, low precision.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of integrated injection mold, with Rigging error is reduced, mould and die accuracy is improved, it is to avoid misplaced during matched moulds.

The purpose of this utility model is realized using following technical scheme：

A kind of integrated injection mold includes a dynamic model and a cover half, and the dynamic model is integrally formed, and dynamic including at least two Mould die joint, the cover half is integrally formed, including some cover half die joints, the dynamic model die joint and the cover half die joint number Amount is identical, and the dynamic model coordinates with the cover half, and is formed between cover half die joint described in dynamic model die joint and one described in one One die cavity, the geometric center of the dynamic model and the geometric center of the cover half are coaxial.

It is preferred that, at least two dynamic model die joints include two, and the shape of dynamic model die joint described in two is different, Mei Yisuo The shape for stating cover half die joint is identical.

It is preferred that, the integrated injection mold also includes single-revolution plate, and the finger plate is fixedly connected with the dynamic model.

It is preferred that, the geometric center of the dynamic model and the finger plate geometric center are coaxial.

It is preferred that, the integrated injection mold also includes a second panel, and the second panel is integrally formed, and described the Two panel sides are fixedly connected with the finger plate, and opposite side is fixedly connected with the dynamic model.

It is preferred that, the second panel is rectangular slab, the geometric center of the second panel and the revolution slab geomitry Central coaxial.

It is preferred that, the integrated injection mold also includes a fixed plate, and the cover half is fixedly connected with the fixed plate, The geometric center of the fixed plate and the geometric center of the cover half are coaxial.

It is preferred that, the integrated injection mold also includes a hot runner manifold, and the hot runner manifold is integrally formed, positioned at institute State between cover half and the fixed plate, the hot runner manifold is fixedly connected with the cover half, for conveying plastics to the die cavity Solution.

It is preferred that, the integrated injection mold also includes a first panel, and the first panel is integrally formed, and described the One panel side is fixedly connected with the hot runner manifold, and opposite side is fixedly connected with the fixed plate.

It is preferred that, the first panel is rectangle, the geometry of the geometric center of the first panel and the fixed plate Central coaxial.

Compared with prior art, the beneficial effects of the utility model are：In traditional injection moulding mould separate two are moved Mould, two cover half, which merge, is manufactured into a dynamic model, a cover half, simplifies assembling process, reduces accumulation of the foozle in assembling process, And contribute to cover half and the lifting of dynamic model matched moulds stability after revolution, it is to avoid occur inconsistent phenomenon after revolution.

Brief description of the drawings

Fig. 1 is a stereogram of traditional injection moulding mould.

Fig. 2 is a stereogram of the integrated injection mold of the utility model one.

Fig. 3 is a stereogram of a cover half shown in Fig. 2.

Fig. 4 is a stereogram of a dynamic model shown in Fig. 2.

In figure：100th, double-color mold；200th, integrated injection mold；1st, the first mould；11st, the first mould first panel； 12nd, the first mold hot flow plate；13rd, the first stationary mould for mould；14th, the first mould dynamic model；15th, the first mould second panel；2nd, Two molds；21st, the second mould first panel；22nd, the second mold hot flow plate；23rd, the second stationary mould for mould；24th, the second mould is moved Mould；25th, the second mould second panel；3rd, finger plate；4th, fixed plate；5th, first panel；6th, hot runner manifold；7th, cover half；71st, cover half Die joint；8th, dynamic model；81st, dynamic model die joint；9th, second panel.

Embodiment

Below, with reference to accompanying drawing and embodiment, the utility model is described further：

As shown in figure 1, traditional double-color mold 100 includes one first mould 1, one second mould 2, single-revolution plate 3 and one Fixed plate 4.

First mould 1 and second mould 2 are two separate molds.

First mould 1 includes one first mould first panel 11, one first mold hot flow plate 12, one first mould Cover half 13, one first mould dynamic model 14 and one first mould second panel 15.The first mould first panel 11 and described the One mold hot flow plate 12 is fixedly connected, the first mold hot flow plate 12 and first stationary mould for mould 13 successively fixed company Connect, the first mould dynamic model 14 is fixedly connected with the first mould second panel 15.

The structure of second mould 2 is substantially the same with the structure of the first mould 1, including one second mould first panel 21st, one second mold hot flow plate 22, one second stationary mould for mould 23, one second mould dynamic model 24 and one second mould second panel 25.The second mould first panel 21 is fixedly connected with the second mold hot flow plate 22, second mold hot flow Plate 22 is fixedly connected sequentially with second stationary mould for mould 23, the second mould dynamic model 24 and the second mould second panel 25 are fixedly connected.

The first mould first panel 11 is fixedly connected with the fixed plate 4, the first mould second panel 15 with The finger plate 3 is fixedly connected.Equally, second mould 2 is also fixedly connected with the finger plate 3 and the fixed plate 4.Institute State the side of the second mould first panel 21 to be fixedly connected with the fixed plate 4, the second mould second panel 25 and the revolution Plate 3 is fixedly connected.The fixed plate 4 is used to connect the board of double-color mold 100 and one.The driving of finger plate 3 and one dress Connection is put to realize 180 ° of rotations of the first mould dynamic model 14.

First stationary mould for mould 13 is different from the shape of second stationary mould for mould 23, the first mould dynamic model 14 with The shape of the second mould dynamic model 24 is identical.First stationary mould for mould 13 and the mutual cooperation shape of the first mould dynamic model 14 Into a die cavity, the injection of the first material is completed in the die cavity, primary production is formed.Then first stationary mould for mould 13 Separated with the first mould dynamic model 14, the first mould dynamic model 14 rotates 180 °, now described the with primary production Ejecting mechanism in one mould dynamic model 14 is not ejected.The first mould dynamic model 14 is determined with primary production and second mould The matched moulds of mould 23 one die cavity of formation, carries out the injection of second of material, now first stationary mould for mould 13 and second mould Dynamic model 24 coordinates.Afterproduct is formed after the completion of injection, the first mould dynamic model 14 is molded with second stationary mould for mould 23, The afterproduct is ejected.Can there are a primary production and an afterproduct production in each molding cycle It is raw.

First mould dynamic model 14 described in the double-color mold 100 rotates with the second mould dynamic model 24 along the centre of gyration After 180 °, it is necessary to coincide with first stationary mould for mould 13 or second stationary mould for mould 23, thus will to mould positioning processing Ask high.Due to being inevitably present during the manufacturing in foozle, first mould 1 and second mould 2 Each part separate machined, is then fitted together again, and foozle adds up in assembling process, the precision of influence mould in itself.

During the double-color mold 100 is arranged on into board, one set of die is generally first fitted into, then will be another set of Dynamic model, cover half be separately mounted on board, pass through to adjust and realize and coordinate with first-class mold component.Installation process and its Cumbersome, once mounting takes around 1.3 hours, wastes time and energy, and is unfavorable for the fierce market competition of reply.

In addition, for that can be closed into different cover half after ensureing two dynamic model revolutions, the setting requirements to the centre of gyration are high, no Then easily there is mould dislocation.

It is illustrated in figure 2 a kind of integrated injection mold 200 of the present utility model, including a first panel 5, a hot flow path Plate 6, a cover half 7, a dynamic model 8, a second panel 9, the fixed plate 4 of single-revolution plate 3 and one.The first panel 5, the hot flow path Plate 6, the cover half 7, the dynamic model 8 and the second panel 9 are rectangular slab.The finger plate 3 is a Central Symmetry knot Structure.

With continued reference to Fig. 3 and Fig. 4, the cover half 7 includes two variform cover half die joints 71, and the dynamic model 8 includes Described in the dynamic model die joint 81 and one after two shape identical dynamic model die joints 81, the dynamic model 8 and the matched moulds of cover half 7 A die cavity is formed between cover half die joint 71, injected plastics material shaped article is injected in the die cavity.In another embodiment, institute Stating cover half die joint 71 has 3, and the quantity of dynamic model die joint 81 is identical with the quantity of cover half die joint 71, in use, often Secondary 120 ° of revolution, realizes that dynamic model die joint 81 described in one coordinates from the different cover half die joints 71, to be molded multiple color Material.

During assembling, the side of first panel 5 is fixedly connected with the fixed plate 4, and opposite side is consolidated with the hot runner manifold 6 Fixed connection.The cover half 7 is fixedly connected with the hot runner manifold 6, and the dynamic model 8 coordinates with the cover half 7, the cover half 7 with The second panel 9 is fixedly connected, and the second panel 9 is fixed on the finger plate 3.

The first panel 5, the hot runner manifold 6, the cover half 7, the dynamic model 8 and the second panel 9 are integral Shaping, so, by original two parts of processing and manufacturing during processing and manufacturing, is merged into the processing of an individual, processing zero Part is reduced so that the rigging error accumulated in assembling process reduces.

In addition, the first panel 5, the hot runner manifold 6, the cover half 7, the dynamic model 8 and the second panel 9 are equal It is integrally formed, is easy to unified benchmark.After assembling, the finger plate 3, the fixed plate 4, the first panel 5, the hot flow path Plate 6, the cover half 7, the dynamic model 8 and the geometric center of the second panel 9 are located on same axis, can be by geometric center The axis at place is considered as gyroaxis, improves the goodness of fit of the dynamic model 8 and the cover half 7, reduces the dislocation of revolution rear mold and blocks Dead phenomenon.

During the integrated injection mold 200 is arranged on into board, it is that two groups of moulds can be achieved to install a part The installation of tool, such as, the first panel 5 is installed in the fixed plate 4 and be can be achieved described in the double-color mold 100 The fixation of first mould first panel 11, the second mould first panel 21 and the fixed plate 4.Compared to the double color mould Tool 100, the installation steps of the integrated injection mold 200 are reduced, so as to save the set-up time, are favorably improved injecting products Production efficiency.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of the utility model claim Within the scope of.

Claims (10)

1. a kind of integrated injection mold, it is characterised in that：The integrated injection mold includes a dynamic model and a cover half, described Dynamic model is integrally formed, and including at least two dynamic model die joints, the cover half is integrally formed, including some cover half die joints, described Dynamic model die joint is identical with the cover half die joint quantity, and the dynamic model coordinates with the cover half, and in dynamic model parting described in one A die cavity is formed between cover half die joint described in face and one, the geometric center of the dynamic model and the geometric center of the cover half are same Axle.

2. integrated injection mold according to claim 1, it is characterised in that：At least two dynamic model die joints include two Individual, the shape of dynamic model die joint described in two is different, and the shape of each cover half die joint is identical.

3. integrated injection mold according to claim 1, it is characterised in that：The integrated injection mold also includes one time Flap, the finger plate is fixedly connected with the dynamic model.

4. integrated injection mold according to claim 3, it is characterised in that：The geometric center of the dynamic model and the revolution Slab geomitry central coaxial.

5. integrated injection mold according to claim 3, it is characterised in that：The integrated injection mold also includes one the Two panels, the second panel is integrally formed, and the second panel side is fixedly connected with the finger plate, opposite side with it is described Dynamic model is fixedly connected.

6. integrated injection mold according to claim 5, it is characterised in that：The second panel is rectangular slab, described The geometric center of second panel and the finger plate geometric center are coaxial.

7. the integrated injection mold according to claim 3 or 4, it is characterised in that：The integrated injection mold also includes One fixed plate, the cover half is fixedly connected with the fixed plate, in the geometry of the geometric center of the fixed plate and the cover half The heart is coaxial.

8. integrated injection mold according to claim 7, it is characterised in that：The integrated injection mold also includes a heat Runner plate, the hot runner manifold is integrally formed, between the cover half and the fixed plate, the hot runner manifold with it is described fixed Mould is fixedly connected, for conveying plastic solution to the die cavity.

9. integrated injection mold according to claim 8, it is characterised in that：The integrated injection mold also includes one the One panel, the first panel is integrally formed, and the first panel side is fixedly connected with the hot runner manifold, opposite side and institute Fixed plate is stated to be fixedly connected.

10. integrated injection mold according to claim 9, it is characterised in that：The first panel is rectangle, and described The geometric center of the geometric center of one panel and the fixed plate is coaxial.