CN106239873A - Mould - Google Patents

Abstract

The present invention provides a kind of mould, including upper die component, middle membrane module and lower mold assemblies, after matched moulds, the lower surface of described upper die component and the upper surface of described middle membrane module, the inner surface of described upper die component encloses an openings house room with the inner surface of described middle membrane module, described lower mold assemblies upper surface has clout excision structure, the lower surface of described upper die component and the upper surface of described middle membrane module, and described middle membrane module lower surface and described clout excise form touch, make the lower surface of described upper die component, the inner surface of middle membrane module, clout excision structure, and the upper surface of upper die component encloses a sealing cavity, the air supply channel connected with described sealing cavity it is provided with in described lower mold assemblies.After mould matched moulds, clout excision structure has excised clout so that the face shield that machine-shaping is good does not has waste material, eliminates and carries out later stage excision waste material operation, thus improve production efficiency, and reduces labor cost.

Description

Mould

Technical field

The present invention relates to mould, particularly relate to a kind of blow molding mould.

Background technology

Light fixture, refers to printing opacity, distributes and changes the photodistributed utensil of light source；Light fixture generally includes light source, bubbler, thoroughly Light microscopic and for protecting the face shield etc. of light source.

Along with people's living standard improves, current face shield be not simply a part for light fixture, and it is also simultaneously One pith of environmental decoration.According to Shape Classification, face shield can simply be divided into square face shield and face shield.Wherein, face shield leads to It is often to use hot pressing die or blow molding mould with integral one-step molding.

Hot pressing die is when processing face shield, and it easily damages its superficial makings of damage while ensureing the corner angle of face shield by pressure, It is frequently necessary to that die surface shines stricture of vagina again process, thus cause manufacturing cost higher.

For saving manufacturing cost, at present, people mainly use blow molding mould to process face shield.Blow molding mould Cost is relatively low, and adaptability is relatively strong, the plastic performance goods with complicated oscillating curves good, plastic；But, for machined surface The blow molding mould of cover during making Guan Bi hot melt preform blowup in a mold form face shield by means of gas pressure, no Waste material (the most unnecessary face shield material base) can be cut away, cause the face shield processed to have waste material；Follow-up have to manually excise face The waste material of cover, this not only increases labor cost, also extends the production cycle, and then reduce production efficiency.

Summary of the invention

The shortcoming of prior art in view of the above, it is an object of the invention to provide a kind of mould, is used for solving existing The problems referred to above present in technology.

For achieving the above object and other relevant purposes, the present invention provides a kind of mould, including upper die component, middle membrane module And lower mold assemblies, after matched moulds, the lower surface of described upper die component and the upper surface of described middle membrane module, described upper die component The inner surface of inner surface and described middle membrane module enclose an openings house room, described lower mold assemblies upper surface has clout and cuts Except the upper surface of structure, the lower surface of described upper die component and described middle membrane module, and described middle membrane module lower surface Form touch is excised so that the lower surface of described upper die component, the inner surface of middle membrane module, clout excision knot with described clout Structure, and the upper surface of upper die component encloses a sealing cavity, is provided with and connects with described sealing cavity in described lower mold assemblies Air supply channel.

Preferably, described upper die component includes upper mould fixed plate and is located at the cope match-plate pattern of described upper mould fixed plate lower end.

Preferably, described cope match-plate pattern is for be entrenched in described upper mould fixed plate and two ends from described upper mould fixed plate lower surface It is respectively provided with the cylinder of perforate.

Preferably, described middle membrane module includes that structure is identical and can to the left and right and two middle templates moving up and down.

Preferably, described lower mold assemblies includes end template and is entrenched in the ring-type installing rack of described end template upper surface, institute State clout excision structure ring and be located at the top surface edge of described ring-type installing rack.

Preferably, described clout excision structure is blade.

Preferably, during described air supply channel is located at described end template.

Preferably, described air supply channel is to run through the through hole that end template is upper and lower.

Preferably, described mould also includes that be assembled on described lower mold assemblies turns gas plate, described in turn gas plate cover supply The outlet of passage.

Preferably, described in turn the lower surface of gas plate and be provided with the appearance air drain of the outlet with described air supply channel, described turn Gas plate is provided with the some points of vent holes running through its upper and lower surface and connecting with described appearance air drain and sealing cavity respectively.

Preferably, the lower surface turning gas plate described in is additionally provided with some points connected respectively with described appearance air drain and sealing cavity Gas groove.

Preferably, described in turn the rounded shape of gas plate, described point of gas groove radially extends and the most uniformly arranges Cloth.

As it has been described above, the mould that the embodiment of the present invention provides, have the advantages that

After mould matched moulds, clout excision structure has excised clout so that the face shield that machine-shaping is good does not has waste material, Eliminate and carry out later stage excision waste material operation, thus improve production efficiency, and reduce labor cost.

Accompanying drawing explanation

The face shield axonometric chart of the Fig. 1 Making mold for being provided by the preferred embodiment of the present invention.

The mould three-dimensional assembly diagram that Fig. 2 provides for the preferred embodiment of the present invention, wherein mould is in matched moulds state.

Fig. 3 is another view stereo assembling figure of mould shown in Fig. 2, and wherein mould is in matched moulds state.

Fig. 4 is upper die component and the three-dimensional assembly diagram of middle membrane module in mould shown in Fig. 2.

Fig. 5 is the three-dimensional exploded view of Fig. 3.

Fig. 6 is the three-dimensional exploded view of Fig. 2.

Fig. 7 is the further assembling figure of mould shown in Fig. 5.

Fig. 8 is the profile of line A-A along Fig. 2.

Fig. 9 is enlarged drawing at B in Fig. 8.

The three-dimensional exploded view of the mould that Figure 10 provides for the preferred embodiments of the present invention, wherein mould is in die opening state.

Figure 11 be shown in Figure 10 in the exploded view of another angle of membrane module.

The schematic perspective view turning gas plate of the mould that Figure 12 provides for the preferred embodiment of the present invention.

Figure 13 is the schematic perspective view turning gas plate shown in Figure 10.

Figure 14 is enlarged drawing at C in Figure 13.

Detailed description of the invention

By particular specific embodiment, embodiments of the present invention being described below, those skilled in the art can be by this explanation Content disclosed by book understands other advantages and effect of the present invention easily.

Refer to accompanying drawing.It should be clear that structure depicted in this specification institute accompanying drawings, ratio, size etc., the most only in order to coordinate Content disclosed in description, understands for those skilled in the art and reads, being not limited to the present invention enforceable Qualifications, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size, Do not affect under effect that the present invention can be generated by and the purpose that can reach, all should still fall at disclosed technology contents In the range of containing.Meanwhile, in this specification cited as " on ", D score, "left", "right", " middle " and " one " etc. Term, be merely convenient to understanding of narration, and be not used to limit the enforceable scope of the present invention, the change of its relativeness or Adjust, changing under technology contents without essence, when being also considered as the enforceable category of the present invention.

Fig. 1 shows a kind of face shield 200, the rounded shape of this face shield.This face shield 200 is applied to illuminator (such as lamp affixed to the ceiling) On, act primarily as protection light source, uniform-light transmission, the effect of environmental decoration.As shown in Figures 2 and 3, the present invention provides a kind of mould 100, this mould 100 can be used in being processed into face shield 200.Specifically, mould 100 includes the upper module being from top to bottom sequentially arranged Part 1, in circular middle membrane module 2 and lower mold assemblies 3.Wherein, described upper die component 1 is arranged on the top mold frame of blow moulding machine (not Diagram) on, middle membrane module 2 is arranged on the middle mould bases (not shown) of blow moulding machine, and lower mold assemblies 3 is arranged under blow moulding machine On mould bases (not shown)；Top mold frame, middle mould bases and lower mold holder are prior art, do not repeat.

Described upper die component 1 connects promising upper die component 1 provides first driving means (not shown) of power；Described Under one driving means effect, described upper die component 1 to close middle membrane module 2 direction and can move away from middle membrane module 2 direction, Here the first driving means can be the devices such as hydraulic jack, cylinder or servomotor.

As shown in Figure 4 and Figure 6, when described upper die component 1 is under the first driving means drives, near middle membrane module 2 side After a mobile segment distance, the lower surface of described upper die component 1 can be with the upper surface of described middle membrane module 2 so that described The inner surface of the inner surface of upper die component 1 and described middle membrane module 2 encloses an openings house room 4, and this openings house room 4 Configuration is consistent with face shield 200 configuration.

As shown in Fig. 4 to Fig. 8, described upper die component 1 specifically includes: upper mould fixed plate 11 and be located at described upper mould fixed plate The cope match-plate pattern 12 of 11 lower ends.When described upper die component 1 contacts with described middle membrane module 2, described upper mould fixed plate 11 lower surface, The inner surface of cope match-plate pattern 12 inner surface and middle membrane module 2 encloses openings house room 4.Preferably, described cope match-plate pattern 12 is for from institute State upper mould fixed plate 11 lower surface to be entrenched in described upper mould fixed plate 11 and two ends are respectively provided with the cylinder of perforate.

As shown in figure 11, described middle membrane module 2, in circular, specifically includes: structure is identical and can to the left and right and up and down The middle template 21 of two semi-circular shape of movement.Each described middle template 21 connects the second driving means.Specifically, described Under second driving means drives, two middle templates 21 can be done and move dorsad, until there is certain distance between two middle templates 21, Or, two middle templates 21 move towards, until the end contact of two middle templates 21 is to form an annulus, and i.e. middle module Part 2.Described second driving means can be the devices such as hydraulic jack, cylinder or servomotor.

As shown in Figure 6, described lower mold assemblies 3 upper surface has peripherally disposed clout excision structure 5.Specifically Ground, clout excision structure 5 is towards openings house room 4, and it abuts the lower surface to middle membrane module 2.Preferably, such as Fig. 6 and Fig. 8 institute Showing, described lower mold assemblies 3 specifically includes: end template 31 and the ring-type installing rack 32 being located at described end template 31 upper surface.Specifically Ground, described ring-type installing rack 32 is entrenched in end template 31 upper surface, and clout excision structure 5 ring on described lower mold assemblies 3 is located at The top surface edge of described ring-type installing rack 32.Preferably, described clout excision structure 5 is blade.

As shown in Fig. 3 and Fig. 8, described lower mold assemblies 3 is connected by air supply channel 6 has feeder (not shown), specifically Ground, air supply channel 6 is arranged in described lower mold assemblies 3.As shown in Figure 8 and Figure 9, when lower surface and the institute of described upper die component 1 State the upper surface of middle membrane module 2, and when described middle membrane module 2 lower surface contacts with described clout excision structure 5, clout Excision structure 5 ring is located at the opening surrounding of openings house room 4, the lower surface of described upper die component 1, the interior table of middle membrane module 2 Face, clout excision structure 5, and the upper surface of lower mold assemblies 3 enclose a sealing cavity 8.Described air supply channel 6 can give institute State sealing cavity 8 and input gas, seal cavity 8 internal gas pressure with quick increase.

Preferably, described air supply channel 6 is located in described end template 31, and described air supply channel 6 is for running through described end template The upper face center of 31 and the through hole of lower surface central authorities, as can be seen from figures 8 and 9.

As shown in Figure 10, before matched moulds, described upper die component 1, middle membrane module 2 are not in contact with each other, they be respectively positioned on described under Above membrane module 3；And between two middle templates 21 of middle membrane module 2, there is certain distance, i.e. two middle templates 21 do not connect mutually Touch, see Figure 11.

Such as Fig. 6 to Figure 10, during matched moulds, first pass through mechanical hand or operating personnel and face shield material base is placed on lower mold assemblies 3 Upper surface；Two middle templates 21 move towards, until the end contact of two middle templates 21 is to form an annulus；Then Described upper die component 1, middle membrane module 2 all move to described lower mold assemblies 3, until the lower surface of described upper die component 1 and institute State the upper surface of middle membrane module 2, and described middle membrane module 2 lower surface contacts with described clout excision structure 5, described remaining Material excision structure 5 can excise clout.The lower surface of the upper die component 1 described in Tong Shi, the inner surface of middle membrane module 2, clout excise Structure 5, and the upper surface of lower mold assemblies 3 encloses a sealing cavity 8；The most described air supply channel 6 is to described sealing cavity 8 Interior input gas, seals cavity 8 internal gas pressure with quick increase；Face shield material base is blown to by the interior table of described upper die component 1 by gas The inwall of the openings house room 4 that the inner surface of face and described middle membrane module 2 encloses, final face shield material base is in gas pressure effect Compacted under is face shield 200.

During die sinking, described upper die component 1 moves up, and in said two, template 21 can be done and moves dorsad simultaneously, until two Having certain distance between individual middle template 21, so in latter two, template 21 moves up, final described upper die component 1 and two Middle template 21 returns to origin-location, as shown in Figure 10；The face shield 200 processed is taken away i.e. finally by mechanical hand or operating personnel Can.

As shown in Fig. 5 to Figure 10 and Figure 12 to Figure 14, as a further improvement on the present invention, described mould 100 also includes Turn gas plate 7, described in turn gas plate 7 and be arranged on described end template 31 upper surface, and be positioned at inside described ring-type installing rack 32, described turn Gas plate 7 is completely covered the outlet 61 of air supply channel 6.Export in gas process at described air supply channel 6, from described air supply channel 6 Outlet 61 gas out can enter seal in cavity 8 through the described gas plate 7 that turn, seal cavity 8 internal gas pressure with quick increase.

In the present embodiment, as shown in Fig. 8 to Figure 10 and Figure 12 to Figure 14, described in turn the lower surface of gas plate 7, i.e. towards institute State outlet 61 surface, offer appearance air drain 71, described in turn be additionally provided with on gas plate 7 some from turn gas plate 7 upper surface extend to hold Hold some points of vent holes 72 of air drain 71 bottom surface, described in turn the lower surface of gas plate 7 and be additionally provided with and hold that air drain 71 connects some points Gas groove 73, described point of gas groove 73 extend to described in turn the lateral surface of gas plate 7.Preferably, described some points of vent holes 72 are just Outlet 61 for air supply channel 6.The described gas plate 7 that turns is when coordinating with described end template 31 upper surface, and described point of gas groove 73 is high In the upper surface of described end template 31, as shown in FIG. 13 and 14.Gas can seal cavity 8 through being entered by point gas groove 73 In.Gas out enters appearance air drain 71 from the outlet 61 of described air supply channel 6, then enters from point gas groove 73 and a point vent hole 72 Enter to seal cavity 8.So, input gas in described sealing cavity 8 can be given from all directions so that in described sealing cavity 8 The air pressure of each position keeps rapidly consistent, and then improves Forming Quality.

As shown in Figure 8 and Figure 9, the lower surface of described upper die component 1, the inner surface of middle membrane module 2, clout excision structure 5, and the upper surface of lower mold assemblies 3 encloses a sealing cavity 8.When inputting gas by described air supply channel 6, gas is from institute The outlet 61 stating air supply channel 6 out enters appearance air drain 71, then enters from point gas groove 73 and point vent hole 72 and seals cavity 8.Visible, gas can enter from all directions and seal in cavity 8 so that in described sealing cavity 8, the air pressure of each position is fast Speed keeps consistent.So when face shield material base is blown to the outer surface of molding structure by gas, it can be ensured that each position of face shield material base Put stress identical, and during sealing and making face shield material base final molding be face shield under gas pressure effect in cavity 8, it is ensured that Each position stress of face shield material base is identical, and then improves the quality of face shield 200.

In sum, the mould 100 that the preferred embodiment of the present invention provides, owing to when matched moulds, clout excision structure 5 can be cut Except being positioned on end template 31 for molding face shield 200 clout so that the face shield 200 processed does not has waste material, eliminates after carrying out Phase excision clout operation, thus improve production efficiency, and reduce labor cost.So, the present invention effectively overcomes existing The various shortcoming in technology is had to have high industrial utilization.

The principle of above-described embodiment only illustrative present invention and effect thereof, not for limiting the present invention.Any ripe Above-described embodiment all can be modified under the spirit and the scope of the present invention or change by the personage knowing this technology.Cause This, have usually intellectual such as complete with institute under technological thought without departing from disclosed spirit in art All equivalences become are modified or change, and must be contained by the claim of the present invention.

Claims (12)

1. a mould, including upper die component, middle membrane module and lower mold assemblies, it is characterised in that after matched moulds, described upper die component The upper surface of lower surface and described middle membrane module, the inner surface of the inner surface of described upper die component and described middle membrane module Enclose an openings house room, described lower mold assemblies upper surface have clout excision structure, the lower surface of described upper die component with The upper surface of described middle membrane module, and described middle membrane module lower surface and described clout excise form touch so that institute The lower surface of the upper die component stated, the inner surface of middle membrane module, clout excise structure, and the upper surface of upper die component encloses One seals cavity, is provided with the air supply channel connected with described sealing cavity in described lower mold assemblies.

Mould the most according to claim 1, it is characterised in that: described upper die component includes upper mould fixed plate and is located at described The cope match-plate pattern of upper mould fixed plate lower end.

Mould the most according to claim 2, it is characterised in that: described cope match-plate pattern is embedding from described upper mould fixed plate lower surface It is combined in described upper mould fixed plate and two ends are respectively provided with the cylinder of perforate.

Mould the most according to claim 1, it is characterised in that: described middle membrane module includes that structure is identical and can be to the left and right With two the middle templates moved up and down.

Mould the most according to claim 1, it is characterised in that: described lower mold assemblies includes end template and is entrenched in the described end The ring-type installing rack of template upper surface, described clout excision structure ring is located at the top surface edge of described ring-type installing rack.

Mould the most according to claim 5, it is characterised in that: described clout excision structure is blade.

Mould the most according to claim 5, it is characterised in that: described air supply channel is located in described end template.

Mould the most according to claim 7, it is characterised in that: described air supply channel is to run through the through hole that end template is upper and lower.

Mould the most according to claim 1, it is characterised in that: described mould also includes being assembled on described lower mold assemblies Turn gas plate, described in turn gas plate cover air supply channel outlet.

Mould the most according to claim 8, it is characterised in that the lower surface turning gas plate described in: is provided with logical with described supply The appearance air drain of the outlet in road, described in turn gas plate be provided with run through its upper and lower surface and respectively with described appearance air drain and seal cavity Some points of vent holes of connection.

11. moulds according to claim 9, it is characterised in that the lower surface turning gas plate described in: is additionally provided with respectively with described Hold air drain and seal some points of gas grooves of cavity connection.

12. moulds according to claim 10, it is characterised in that turn the rounded shape of gas plate, described point of gas groove edge described in: Radially extend and the most uniformly arrange.