CN203739135U - Battery panel mold - Google Patents

Abstract

The utility model discloses a battery panel mold. The battery panel mold comprises an upper runner plate, a lower runner plate, an upper template, a lower template, a lower heat insulation plate, a bottom plate, an upper ejector pin plate, a lower ejector pin plate and an ejector block, wherein the bottom plate is arranged on the lower surface of the lower heat insulation plate; the lower ejector pin plate is arranged on the upper surface of the bottom plate; the upper ejector pin plate is arranged on the upper surface of the lower ejector pin plate; the upper ejector pin plate and the lower ejector pin plate are positioned in an accommodating cavity; a first mounting cavity is formed inside the lower ejector pin plate, and a second mounting cavity communicated with the first mounting cavity is formed inside the bottom plate; the upper and lower ends of the first mounting cavity are both opened, and the upper and lower ends of the second mounting cavity are both opened; the ejector block is arranged in the first mounting cavity and the second mounting cavity and is connected with the upper ejector pin plate through a first bolt; a part of the first bolt downwards extends out of the ejector block. The battery panel mold provided by the embodiment of the utility model has the advantages of stable return, high quality, long service life and low maintenance cost.

Description

Battery panel mould

Technical field

The utility model relates to a kind of battery panel mould.

Background technology

Injection mold is the important process equipment of producing various industrial products, along with plastic mould design industry developing rapidly and plasthetics aviation, boat too, the applying of the industrial department such as electronics, machinery, boats and ships and automobile, product is more and more higher to the requirement of mould, and traditional plastic mould method for designing cannot adapt to model change and propose high-quality requirement.Computer aided engineering technology become these weak links in plastic cement products exploitation, Design of Dies and product processing the most effectively by way of.

In existing battery panel mould, adopt push rod to eject, return is bad and mould is broken to return effectively sometimes to cause mould.

Utility model content

The utility model provides a kind of battery panel mould, and described battery panel mould comprises: upper reaches guidance tape; Dirty guidance tape, described dirty guidance tape is located on the lower surface of described upper reaches guidance tape, between wherein said dirty guidance tape and described upper reaches guidance tape, limits hot flow path; Cope match plate, described cope match plate is located on the lower surface of described dirty guidance tape; Lower template, described lower template is located on the lower surface of described cope match plate, between wherein said cope match plate and described lower template, limits the die cavity being communicated with described hot flow path; Lower thermal insulation board, described lower thermal insulation board is located on the lower surface of described lower template, in described lower thermal insulation board, has container cavity, and the top and bottom of described container cavity are all opened wide; Base plate, described base plate is located on the lower surface of described lower thermal insulation board; Upper ejector retainner plate and lower ejector retainner plate, described lower ejector retainner plate is located on the upper surface of described base plate, described upper ejector retainner plate is located on the upper surface of described lower ejector retainner plate, described upper ejector retainner plate and described lower ejector retainner plate are positioned at described container cavity, in wherein said lower ejector retainner plate, have in the first installation cavity and described base plate and have the second installation cavity being communicated with described the first installation cavity, the top and bottom of described the first installation cavity are all opened wide and the top and bottom of described the second installation cavity are all opened wide; And jacking block, described jacking block is located in described the first installation cavity and described the second installation cavity, and described jacking block is connected with described upper ejector retainner plate by the first bolt, and a part for described the first bolt is stretched out described jacking block downwards.

According to battery panel mould of the present utility model by described base plate and described lower ejector retainner plate, described jacking block is set and utilize described the first bolt by described jacking block and described on ejector retainner plate link together, thereby in the time that described battery panel mould is installed on board, can be by locked a described part for board and described the first bolt (being the part of stretching out described jacking block downwards of described the first bolt), thus can guarantee that described upper ejector retainner plate synchronizes return with board.And, by the jacking block being connected with described upper ejector retainner plate is set, thereby can guarantee that described upper ejector retainner plate and described lower ejector retainner plate are indeformable, quality and the service life that can improve thus described battery panel mould, reduce the maintenance cost of described battery panel mould.

Therefore, according to battery panel mould of the present utility model have that return is stable, quality is high, long service life, maintenance cost be low.

Preferably, described the first bolt comprises: nut, and described nut is resisted against on the upper surface of described upper ejector retainner plate; And screw rod, described screw rod is through described upper ejector retainner plate and described jacking block, and the bottom of described screw rod is stretched out described jacking block downwards.

Preferably, described jacking block is provided with the through hole that connects along the vertical direction described jacking block, and the inwall of described through hole is provided with internal thread, and a part of threaded engagement of described the first bolt is in described through hole.

Preferably, the lower surface of described jacking block is concordant with the lower surface of described base plate, and the upper surface of described jacking block is concordant with the upper surface of described lower ejector retainner plate.

Preferably, the wall of described the first installation cavity is provided with the unlimited groove in upper end, and the upper end of described jacking block is provided with flange, and described flange is engaged in described groove.

Preferably, described groove be annular and described groove along the circumferential extension of described the first installation cavity, described flange is the circumferential extension along described jacking block of annular and described flange.

Preferably, described flange and described jacking block are integrally formed.

Preferably, the wall of described the second installation cavity and described jacking block interval preset distance.

Preferably, the central axis of described jacking block, the central axis of described the first bolt and the central axis of described lower template overlap each other.

Preferably, described upper reaches guidance tape, described dirty guidance tape, described cope match plate, described lower template, described lower thermal insulation board and described base plate removably link together by multiple the second bolts.

Brief description of the drawings

Above-mentioned and/or additional aspect of the present utility model and advantage accompanying drawing below combination is understood becoming the description of embodiment obviously and easily, wherein:

Fig. 1 is according to the structural representation of the battery panel mould of the utility model embodiment.

Battery panel mould 1, upper reaches guidance tape 10, dirty guidance tape 20, cope match plate 30, lower template 40, lower thermal insulation board 50, container cavity 51, base plate 60, the second installation cavity 61, upper ejector retainner plate 70, lower ejector retainner plate 80, jacking block 90, flange 91, the first bolt 100, nut 101, screw rod 102.

Detailed description of the invention

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of identical or similar functions from start to finish.Be exemplary below by the embodiment being described with reference to the drawings, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

Describe according to the battery panel mould 1 of the utility model embodiment below with reference to Fig. 1.As shown in Figure 1, comprise upper reaches guidance tape 10, dirty guidance tape 20, cope match plate 30, lower template 40, lower thermal insulation board 50, base plate 60, upper ejector retainner plate 70, lower ejector retainner plate 80 and jacking block 90 according to the battery panel mould 1 of the utility model embodiment.

Dirty guidance tape 20 is located on the lower surface of upper reaches guidance tape 10, wherein between dirty guidance tape 20 and upper reaches guidance tape 10, limits hot flow path.Cope match plate 30 is located on the lower surface of dirty guidance tape 20, and lower template 40 is located on the lower surface of cope match plate 30, wherein between cope match plate 30 and lower template 40, limits the die cavity being communicated with described hot flow path.Lower thermal insulation board 50 is located on the lower surface of lower template 40, in lower thermal insulation board 50, has container cavity 51, and the top and bottom of container cavity 51 are all opened wide.Base plate 60 is located on the lower surface of lower thermal insulation board 50.

Lower ejector retainner plate 80 is located on the upper surface of base plate 60, and upper ejector retainner plate 70 is located on the upper surface of lower ejector retainner plate 80, and upper ejector retainner plate 70 and lower ejector retainner plate 80 are positioned at container cavity 51.Wherein, have in the first installation cavity and base plate 60 and have the second installation cavity 61 being communicated with described the first installation cavity in lower ejector retainner plate 80, the top and bottom of described the first installation cavity are all opened wide and the top and bottom of the second installation cavity 61 are all opened wide.Jacking block 90 is located in described the first installation cavity and the second installation cavity 61, and jacking block 90 is connected with upper ejector retainner plate 70 by the first bolt 100, and a part 103 for the first bolt 100 is stretched out jacking block 90 downwards.

According to the battery panel mould 1 of the utility model embodiment by base plate 60 with lower ejector retainner plate 80 is interior jacking block 90 is set and utilizes the first bolt 100 that jacking block 90 and upper ejector retainner plate 70 are linked together, thereby in the time that battery panel mould 1 is installed on board, can be by the i.e. part of stretching out jacking block 90 downwards of the first bolt 100 of a part of 103(of board and the first bolt 100) locked, thus can guarantee that upper ejector retainner plate 70 synchronizes return with board.And, by the jacking block 90 that is connected with upper ejector retainner plate 70 is set, thus can guarantee upper ejector retainner plate 70 and lower ejector retainner plate 80 indeformable, quality and the service life that can improve thus battery panel mould 1, reduce the maintenance cost of battery panel mould 1.

Therefore, according to the battery panel mould 1 of the utility model embodiment have that return is stable, quality is high, long service life, maintenance cost be low.

Particularly, the lower end of described the first installation cavity is connected with the upper end of the second installation cavity 61.Described the first installation cavity and the second installation cavity 61 can form KO hole.

As shown in Figure 1, the lower surface of jacking block 90 can be concordant with the lower surface of base plate 60, and the upper surface of jacking block 90 can be concordant with the upper surface of lower ejector retainner plate 80.Can make thus the structure of battery panel mould 1 more reasonable.

In embodiment more of the present utility model, as shown in Figure 1, the first bolt 100 can comprise nut 101 and screw rod 102.Nut 101 can be resisted against on the upper surface of ejector retainner plate 70.That is to say, the lower surface of nut 101 can contact with the upper surface of upper ejector retainner plate 70.Screw rod 102 can pass upper ejector retainner plate 70 and jacking block 90, and the bottom of screw rod 102 can be stretched out jacking block 90 downwards.

Advantageously, nut 101 and screw rod 102 can be integrally formed, and can reduce thus manufacture difficulty and the manufacturing cost of the first bolt 100.

On jacking block 90, can be provided with the through hole that connects along the vertical direction jacking block 90, on the inwall of described through hole, can be provided with internal thread, a part for the first bolt 100 can threaded engagement in described through hole.Can make thus the structure of battery panel mould 1 more reasonable.Particularly, a part for screw rod 102 can threaded engagement in described through hole.

As shown in Figure 1, in examples more of the present utility model, can be provided with the unlimited groove in upper end on the wall of described the first installation cavity, the upper end of jacking block 90 can be provided with flange 91, and flange 91 can be engaged in described groove.Can prevent that thus jacking block 90 from departing from described the first installation cavity and the second installation cavity 61, thereby can make the structure of battery panel mould 1 more reasonable.

Described groove can be that annular and described groove can be along the circumferential extensions of described the first installation cavity, and flange 91 can be that annular and flange 91 can be along the circumferential extensions of jacking block 90.Can make thus jacking block 90 more firmly coordinate with lower ejector retainner plate 80, thereby can make the structure of battery panel mould 1 more reasonable.

Wherein, described the first installation cavity circumferentially and jacking block 90 circumferentially can be consistent.That is to say, described the first installation cavity be exactly circumferentially jacking block 90 circumferentially.Described groove can be annular, and flange 91 can be annular.

Advantageously, flange 91 can be integrally formed with jacking block 90.Can reduce thus manufacture difficulty and the manufacturing cost of jacking block 90.

As shown in Figure 1, the wall of the second installation cavity 61 and jacking block 90 can interval preset distances.Jacking block 90, in the time moving up and down, can not produce friction with the wall of the second installation cavity 61, thereby can extend the service life of jacking block 90, and then can extend the service life of battery panel mould 1 thus.

The central axis of the central axis of jacking block 90, the central axis of the first bolt 100 and lower template 40 can overlap each other.Can make thus the structure of battery panel mould 1 more reasonable.

Upper reaches guidance tape 10, dirty guidance tape 20, cope match plate 30, lower template 40, lower thermal insulation board 50 and base plate 60 can removably link together by multiple the second bolts.Can make thus the structure of battery panel mould 1 more firm.

Multiple described bolts can be distributed on same circumference.Can make thus the structure of battery panel mould 1 more reasonable.Advantageously, multiple described bolts can be distributed on same circumference equally spacedly.Can make thus upper runner plate 10, dirty guidance tape 20, cope match plate 30, lower template 40, lower thermal insulation board 50 and base plate 60 stressed evenly.

In the description of this description, the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And specific features, structure, material or the feature of description can be with suitable mode combination in any one or more embodiment or example.

Although illustrated and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: in the situation that not departing from principle of the present utility model and aim, can carry out multiple variation, amendment, replacement and modification to these embodiment, scope of the present utility model is limited by claim and equivalent thereof.

Claims (10)

1. a battery panel mould, is characterized in that, comprising:

Upper reaches guidance tape;

Dirty guidance tape, described dirty guidance tape is located on the lower surface of described upper reaches guidance tape, between wherein said dirty guidance tape and described upper reaches guidance tape, limits hot flow path;

Cope match plate, described cope match plate is located on the lower surface of described dirty guidance tape;

Lower template, described lower template is located on the lower surface of described cope match plate, between wherein said cope match plate and described lower template, limits the die cavity being communicated with described hot flow path;

Lower thermal insulation board, described lower thermal insulation board is located on the lower surface of described lower template, in described lower thermal insulation board, has container cavity, and the top and bottom of described container cavity are all opened wide;

Base plate, described base plate is located on the lower surface of described lower thermal insulation board;

Upper ejector retainner plate and lower ejector retainner plate, described lower ejector retainner plate is located on the upper surface of described base plate, described upper ejector retainner plate is located on the upper surface of described lower ejector retainner plate, described upper ejector retainner plate and described lower ejector retainner plate are positioned at described container cavity, in wherein said lower ejector retainner plate, have in the first installation cavity and described base plate and have the second installation cavity being communicated with described the first installation cavity, the top and bottom of described the first installation cavity are all opened wide and the top and bottom of described the second installation cavity are all opened wide; With

Jacking block, described jacking block is located in described the first installation cavity and described the second installation cavity, and described jacking block is connected with described upper ejector retainner plate by the first bolt, and a part for described the first bolt is stretched out described jacking block downwards.

2. battery panel mould according to claim 1, is characterized in that, described the first bolt comprises:

Nut, described nut is resisted against on the upper surface of described upper ejector retainner plate; With

Screw rod, described screw rod is through described upper ejector retainner plate and described jacking block, and the bottom of described screw rod is stretched out described jacking block downwards.

3. battery panel mould according to claim 1, is characterized in that, described jacking block is provided with the through hole that connects along the vertical direction described jacking block, and the inwall of described through hole is provided with internal thread, and a part of threaded engagement of described the first bolt is in described through hole.

4. battery panel mould according to claim 1, is characterized in that, the lower surface of described jacking block is concordant with the lower surface of described base plate, and the upper surface of described jacking block is concordant with the upper surface of described lower ejector retainner plate.

5. battery panel mould according to claim 1, is characterized in that, the wall of described the first installation cavity is provided with the unlimited groove in upper end, and the upper end of described jacking block is provided with flange, and described flange is engaged in described groove.

6. battery panel mould according to claim 5, is characterized in that, described groove be annular and described groove along the circumferential extension of described the first installation cavity, described flange is the circumferential extension along described jacking block of annular and described flange.

7. battery panel mould according to claim 5, is characterized in that, described flange and described jacking block are integrally formed.

8. battery panel mould according to claim 1, is characterized in that, the wall of described the second installation cavity and described jacking block interval preset distance.

9. battery panel mould according to claim 1, is characterized in that, central axis, the central axis of described the first bolt and the central axis of described lower template of described jacking block overlap each other.

10. battery panel mould according to claim 1, is characterized in that, described upper reaches guidance tape, described dirty guidance tape, described cope match plate, described lower template, described lower thermal insulation board and described base plate removably link together by multiple the second bolts.