CN107686230A - Mould structure for manufacturing moulded glass - Google Patents

Abstract

The invention discloses a mold structure for manufacturing molded glass, which comprises a first female mold part, a second female mold part, a first male mold part, a pushing part and a plurality of first supporting parts, the second female mould part can move relative to the first female mould part, the first male mould part can open and close relative to the first female mould part, the second male die piece can move relative to the first male die piece, the pushing piece is fixedly arranged on the first male die piece, the first supporting piece is abutted against the first female die piece and the second female die piece, when the first male die piece is closed relative to the first female die piece, the pushing piece forms a first deformation structure on the molded glass, and the second female mould part and the second male mould part can jointly form a second deformation structure on the molded glass.

Description

For manufacturing the mould structure of moulded glass

Technical field

The present invention relates to a kind of mould structure, more particularly to a kind of mould structure for being used for manufacturing moulded glass.

Background technology

In general, glass material is a tabular.If being intended to produce the glass with moulding, the known practice is will be flat The glass material of tabular is arranged on a upper mould piece and once between module, then heats upper mould piece, lower module and is arranged on Glass material between module and lower module, so that glass material softens.When above-mentioned glass material softening, upper mould piece is with Module can carry out mould assembling action, the profile so as to moulding glass material.

However, because known upper mould piece and lower module do not have supporting construction, therefore most glass material is heating During can be in vacant state.Therefore, when glass material is heated to softening, most glass material without structure because limiting Make and produce a thermal deformation, cause the surface of most of glass material to produce wavy lines and influence transparency, enter And influence product quality and reduce the competitiveness of product commercially.In addition, the deformation structure of different directions is such as produced, Generally another deformation structure first need to be molded for direction shaping deformation structure, then for other direction, i.e., need to be molded twice The deformation structure of different directions can be completed, increases the process time of glass material.

The content of the invention

The present invention provides a kind of mould structure for being used for manufacturing a moulded glass, to solve the above problems.

In order to reach above-mentioned purpose, the present invention discloses a kind of mould structure for being used for manufacturing a moulded glass, the model Glass has a flat part and extends a periphery of the flat part, and the mould structure includes one first parent form mould Part, one second parent form mold members, one first male mold members, a yoke frame and multiple first support members, first parent form Formed with a molding cave in mold members, the periphery of the moulded glass is corresponded to around the shaping die cavity, it is described Second parent form mold members are movably disposed in the shaping die cavity, and the first male mold members are set in a manner of retractable Put above the first parent form mold members, the second male mold members are movably disposed in the first male mold members On, the second male mold members and the second parent form mold members make the relative of the flat part of glass described in clamping jointly Both sides, the yoke frame are installed in the first male mold members, and the yoke frame is in the first male mold members along one First direction relatively the first parent form mold members matched moulds when flat part described in pushing tow, with the flat part along described first Direction forms one first deformation structure, and the multiple first support member is arranged in the shaping die cavity and abuts the shaping mould The bottom surface in cave and the second parent form mold members, the multiple first support member are soft when the first parent form mold members are heated Change, enable the second parent form mold members and the second male mold members jointly along relative first mother of the first direction Type mold members are moved to a die-closed position, and then make to force the periphery around the shaping die cavity along in contrast to described the One second direction in one direction forms one second deformation structure.

According to one of them embodiment of the present invention, the second male mold members are formed with a passage, and the pushing tow Part passes through flat part described in the passage pushing tow.

According to one of them embodiment of the present invention, the yoke frame includes an ejector pin component and a locking component, institute State ejector pin component to be movably disposed in the passage, the locking component is connected to the ejector pin component and is installed in described First male mold members.

According to one of them embodiment of the present invention, one formed with the corresponding passage in the second parent form mold members Formed recess, the ejector pin component have a shaped ends, and the shaped ends are relatively described in the first male mold members Enter the formed recess during the first parent form mold members matched moulds to die-closed position, to form first deformation structure.

According to one of them embodiment of the present invention, the mould structure also includes multiple second support members, is arranged on institute State between the first male mold members and the second male mold members, each second support member abuts the first male mould respectively Part and the second male mold members.

According to one of them embodiment of the present invention, the first male mold members can relatively described second male mold members Moved between a die sinking position and the die-closed position, the multiple second support member is in the first male mold members position in institute When stating die sinking position, the first male mold members are supported to prevent the flat board of moulded glass described in the yoke frame bursting Portion, and the multiple second support member softens when the first male mold members are heated, and makes the first male mold members The die-closed position, and the multiple second softened can be moved to by the relatively described second male mold members of the die sinking position Support member can will in die-closed position described in the first male mold members migration caused pressure transmission once to described the Two male mold members.

According to one of them embodiment of the present invention, the bottom surface of the shaping die cavity of the first parent form mold members is formed Have multiple first locating lower recess, and the bottom of each first support member be contained in the multiple first locating lower recess wherein it One, the second male mold members towards the side of the first male mold members formed with multiple second locating lower recess, and The bottom of each second support member is contained in one of the multiple second locating lower recess.

According to one of them embodiment of the present invention, the second parent form mold members are towards the bottom surface of the shaping die cavity Multiple first positioning upper recess of the side formed with corresponding the multiple first locating lower recess, and the top of each first support member It is contained in the multiple first positioning one of upper recess, the first male mold members are towards the second male mould Formed with an accommodating recess, the side of the second male mold members is contained in the accommodating recess, described for the side of part Multiple second positioning upper recess of the bottom surface of accommodating recess formed with corresponding the multiple second locating lower recess, and each second One of the multiple second positioning upper recess is contained at the top of support member.

According to one of them embodiment of the present invention, it is recessed that the bottom surface for being molded die cavity is also formed with multiple first flashes Portion, each first flash recess is communicated in one of the multiple first locating lower recess, and each first flash recess is in institute When stating multiple first support member softenings, there is provided the flash space of the first support member one being respectively softened, the bottom surface of the accommodating recess Formed with multiple second flash recesses, each second flash recess is communicated in one of the multiple second positioning upper recess, And each second flash recess is when the multiple second support member softens, there is provided the flash of the second support member one being respectively softened is empty Between.

According to one of them embodiment of the present invention, each first support member and each second support member are respectively by heat deformable material Made by matter.

According to one of them embodiment of the present invention, the second parent form mold members have one first clamping face, and described the Two male mold members have one second clamping face of relatively described first clamping face, first clamping face and the described second clamping Face clamps the opposite sides of the flat part of the moulded glass respectively.

According to one of them embodiment of the present invention, first clamping face is added with minute surface respectively with second clamping face Made by the mode of work.

According to one of them embodiment of the present invention, the mould structure also includes a fitting, is arranged on described first In parent form mold members, the fitting is moved to the conjunction in the relatively described first parent form mold members of the first male mold members During mould position, the first male mold members are connected to.

In summary, due to the first clamping face of the second parent form mold members and the second clamping face point of the second male mold members Not Jia Chi moulded glass flat part opposite sides, mould structure so of the invention can provide the flat part of moulded glass Limitation in structure, produced because of thermal deformation so as to reducing the surface of the flat part of moulded glass in forming process wavy Lines, the transparency of the flat part of the moulded glass after being molded with lifting.In addition, mould structure of the invention is public first When type mold members are along a first direction the first parent form mold members matched moulds relatively, using flat part described in yoke frame pushing tow, with mould Make and form the first deformation structure on the flat part of glass in the first direction, mould structure of the invention is also existed using the first support member First parent form mold members soften when being heated, and enable the second parent form mold members and the second male mold members phase in the first direction jointly The die-closed position is moved to the first parent form mold members, and then makes to force periphery around shaping die cavity along in contrast to first The second direction in direction forms one second deformation structure, i.e., mould structure of the invention can respectively moulded glass flat part and Periphery forms the deformation structure with different directions, without carrying out post forming process, when can reduce the processing of moulded glass Between.For the present invention foregoing and other technology contents, feature and effect, it is following cooperation refer to the attached drawing embodiment it is detailed In explanation, can clearly it present.

Brief description of the drawings

Fig. 1 is the schematic appearance of mould structure of the embodiment of the present invention.

Fig. 2 is the exploded perspective view of mould structure of the embodiment of the present invention.

Fig. 3 is exploded perspective view of the mould structure of the embodiment of the present invention at another visual angle.

Fig. 4 is diagrammatic cross-section of the moulded glass along hatching B-B shown in Fig. 2.

Fig. 5 is diagrammatic cross-section of the mould structure along hatching A-A shown in Fig. 1.

Fig. 6 is the diagrammatic cross-section that mould structure of the embodiment of the present invention is in heated condition.

Fig. 7 is the diagrammatic cross-section that mould structure of the embodiment of the present invention is in matched moulds state.

Wherein, description of reference numerals is as follows：

1000 mould structures

2000 moulded glass

2001 flat parts

2002 peripheries

2003 first deformation structures

2004 second deformation structures

1 first parent form mold members

10 shaping die cavitys

101 bottom surfaces

11 first locating lower recess

12 first flash recesses

2 second parent form mold members

20 first positioning upper recess

21 first clamping faces

22 formed recess

23 sides

3 first male mold members

30 accommodating recesses

301 bottom surfaces

31 second positioning upper recess

32 second flash recesses

33 sides

4 second male mold members

40 passages

41 second locating lower recess

42 second clamping faces

43 sides

5 yoke frames

50 ejector pin components

501 shaped ends

51 locking components

6 first support members

7 second support members

8 fittings

Heating module on 3000

4000 times heating modules

X1 first directions

X2 second directions

A-A, B-B hatching

Embodiment

The direction term being previously mentioned in following examples, such as：Upper and lower, left and right, front or rear etc., only it is with reference to additional attached The direction of figure.Therefore, the direction term used is intended to be illustrative and not intended to limit the present invention.Fig. 1 to Fig. 5 is referred to, Fig. 1 is The schematic appearance of the mould structure 1000 of the embodiment of the present invention one, Fig. 2 are that the blast of mould structure of the embodiment of the present invention 1000 is shown Be intended to, Fig. 3 be mould structure of the embodiment of the present invention 1000 in the exploded perspective view at another visual angle, Fig. 4 is a model glass shown in Fig. 2 Diagrammatic cross-section of the glass 2000 along hatching B-B, Fig. 5 are section signal of the mould structure 1000 shown in Fig. 1 along a hatching A-A Figure.As shown in Figures 1 to 5, mould structure 1000 may be utilized in fabricating moulded glass 2000, and moulded glass 2000 has a flat part 2001st, a periphery 2002, one first deformation structure 2003 and one second deformation structure 2004, periphery 2002 extend flat Plate portion 2001, the first deformation structure 2003 are formed on flat part 2001, and the second deformation structure 2004 is formed in periphery On 2002.

In addition, mould structure 1000 includes one first parent form mold members 1, one second parent form mold members 2, one first male mould Have part 3, one second male mold members 4, a yoke frame 5 and multiple first support members 6, in the first parent form mold members 1 formed with A molding cave 10, is molded the periphery 2002 that moulded glass 2000 is corresponded to around die cavity 10, and the second parent form mold members 2 can live It is arranged on dynamicly in shaping die cavity 10, the first male mold members 3 are arranged in a manner of retractable in first parent form mold members 1 Side.In the present embodiment, when the first male mold members 3 and the first parent form 1 matched moulds of mold members, the first male mold members 3 can edge One first direction X1 is close with respect to the first parent form mold members 1, when the first male mold members 3 and the die sinking of the first parent form mold members 1, First male mold members 3 can leave the first parent form mold members 1 along the second direction X2 in contrast to first direction X1.Second male Mold members 4 are movably disposed in the first male mold members 3, and the second male mold members 4 are pressed from both sides jointly with the first parent form mold members 1 Hold the opposite sides of the flat part 2001 of moulded glass 2000.Yoke frame 5 is installed in the first male mold members 3, and multiple first Support member 6 is arranged in shaping die cavity 10 and abuts a bottom surface 101 and the second parent form mold members 2 of shaping die cavity 10.

As shown in Figures 1 to 5, the second male mold members 4 can include an ejector pin component formed with a passage 40, yoke frame 5 50 and a locking component 51, ejector pin component 50 be movably disposed in passage 40, locking component 51 is connected to ejector pin component 50 and the first male mold members 3 are installed in, i.e. locking component 51 by ejector pin component 50 being locked in the first male mold members 3. It is noted that the structure design of the yoke frame 5 of the present invention can be not limited to depicted in this embodiment accompanying drawing, such as yoke frame 5 or with a 3 integrally formed protruded stigma of the first male mold members, hold depending on actual demand.In addition, the second parent form mold members A formed recess 22 formed with respective channel 40 on 2, ejector pin component 50 have a shaped ends 501.

In addition, mould structure 1000 also includes multiple second support members 7, is arranged on the first male mold members 3 and Between two male mold members 4, each second support member 7 abuts the first male mold members 3 and the second male mold members 4 respectively.At this In embodiment, each first support member 6 and each second support member 7 can be respectively a pearl shape structure, and the first support member of the present invention 6 with The profile of second support member 7 can be not limited to depicted in this embodiment accompanying drawing, such as the first support member 6 and the second support member 7 It can be a cube-shaped structure, hold depending on actual demand.The bottom surface 101 of the shaping die cavity 10 of first parent form mold members 1 is formed There are multiple first locating lower recess 11, and the bottom of each first support member 6 is contained in multiple first locating lower recess 11 wherein One of, the first support member 6 each whereby can be positioned on the bottom surface 101 of shaping die cavity 10, to prevent each first support member 6 from existing It is molded on the bottom surface 101 of die cavity 10 and slides or roll.Similarly, the second male mold members 4 towards the first male mold members 3 one Side 43 is formed with multiple second locating lower recess 41, and the bottom of each second support member 7 is contained in multiple second locating lower recess One of 41, the second support member 7 each whereby can be positioned on the side 43 of the second male mold members 4, to prevent Each second support member 7 is slided or rolled on the side 43 of the second male mold members 4.

In addition, the second parent form mold members 2 towards the bottom surface 101 of shaping die cavity 10 side 23 formed with corresponding multiple first Multiple first positioning upper recess 20 of locating lower recess 11, and the top of each first support member 6 is contained in multiple first positioning One of recess 20, the first support member 6 each whereby can be positioned on the side 23 of the second parent form mold members 2, with Prevent that this each first support member 6 is slided or rolled on the side 23 of the second parent form mold members 2.Similarly, the first male mould Towards the side 33 of the second male mold members 4 formed with an accommodating recess 30, the side 43 of the second male mold members 4 holds part 3 Put in accommodating recess 30, to prevent the second male mold members 4 from being moved relative to the first male mold members 3, i.e. the first male mould Accommodating recess 30 on the side 33 of part 3 can be used to the second male mold members 4 being positioned in the first male mold members 3, with Prevent the first male mold members 3 and the relative displacement of the second male mold members 4.Further, the shape of a bottom surface 301 of recess 30 is housed Into the multiple second positioning upper recess 31 for multiple second locating lower recess 41 having in corresponding second male mold members 4, and each the The top of two support members 7 is contained in one of multiple second positioning upper recess 31, and the second support member 7 each whereby can be determined On the bottom surface 301 of accommodating recess 30 of the position in the first male mold members 3, to prevent each second support member 7 in accommodating recess 30 Bottom surface 301 on slide or roll.

As shown in Figures 1 to 5, the second parent form mold members 2 have one first clamping face 21, and the second male mold members 4 have One second clamping face 42, the second clamping face 42 is in contrast to the side 43, the first clamping face 21 and second of the second parent form mold members 2 Second clamping face 42 of male mold members 4 clamps the opposite sides of the flat part 2001 of moulded glass 2000 respectively, by model Glass 2000 is retained in mould structure 1000.In addition, mould structure 1000 also includes a fitting 8, the first parent form is arranged on In mold members 1.Inventive die structure 1000 is to be useful in a forming bench (not being shown in figure), and the forming bench includes Heating module 3000 and once heating module 4000, lower heating module 4000 are connected to the first parent form mold members 1 and be used in combination on one To heat the first parent form mold members 1, and then make the second parent form mold members 2 and each first support member 6 heated, so as to making the first support Part 6 is heated and softens.Upper heating module 3000 could be detachably connected to the first male mold members 3 and to heat the first male mould Have part 3, and then make the second support member 7 heated, soften so as to making the second support member 7 heated.In the present embodiment, each first Support member 6 can be made by heat deformable material (such as glass etc.) respectively with each second support member 7, but the present invention is not limited.

Fig. 5 to Fig. 7 is referred to, Fig. 6 is the section signal that mould structure of the embodiment of the present invention 1000 is in a heated condition Figure, Fig. 7 are the diagrammatic cross-section that mould structure of the embodiment of the present invention 1000 is in a matched moulds state.As shown in Figures 5 to 7, when When mould structure 1000 is in a die sinking position as shown in Figure 5, multiple second support members 7 can support the first male mold members 3, To prevent from being connected to the yoke frame 5 of the first male mold members 3 by the Action of Gravity Field of the first male mold members 3 down bursting moulded glass 2000 flat part 2001.When mould structure 1000 to be used is molded moulded glass 2000, heating module 3000 upper first by X1 is moved to position as shown in Figure 6 in the first direction for position as shown in Figure 5, to contact and heat the first male mold members 3, And then make each second support member 7 heated.At the same time, lower heating module 4000 also heats the first parent form mold members 1, so that each One support member 6 is heated.

When the first support member 6 and the second support member 7 it is heated and when softening, moulded glass 2000 is also heated and softened, now Upper heating module 3000 can drive the first male mold members 3, and X1 is with respect to the matched moulds of the first parent form mold members 1 in the first direction, now The ejector pin component 50 of yoke frame 5 can by the flat part 2001 of the pushing tow moulded glass 2000 of passage 4 of the second male mold members 4, And when the first male mold members 3 continue in the first direction X1 by position as shown in Figure 6 with respect to the first parent form mold members 1 matched moulds extremely During an as shown in Figure 7 die-closed position, the shaped ends 501 of the ejector pin component 50 of yoke frame 5 can enter the second parent form mould The formed recess 22 of part 2, so that X1 forms the first deformation structure in the first direction on the flat part 2001 of moulded glass 2000 2003.When the first male mold members 3, X1 is moved to the conjunction as shown in Figure 7 with respect to the first parent form mold members 1 in the first direction During mould position, the edge of periphery 2002 of moulded glass 2000 can be forced around the shaping die cavity 10 of the first parent form mold members 1 A second direction X2 in contrast to first direction X1 forms the second deformation structure 2004, and fitting 8 can be connected to the first male Mold members 3.

It is noted that due to the second parent form mold members 2 the first clamping face 21 and the second male mold members 4 second Clamping face 42 clamps the opposite sides of the flat part 2001 of moulded glass 2000, so mould structure 1000 of the invention just respectively The limitation in the structure of flat part 2001 of moulded glass 2000 can be provided, so as to reduce the flat part 2001 of moulded glass 2000 Surface produces wavy lines in forming process because of thermal deformation, the flat part of the moulded glass 2000 after being molded with lifting 2001 transparency.In the present embodiment, the first clamping face 21 and the second clamping face 42 can the institutes in a manner of mirror finish respectively It is made, to lift the surface accuracy of the first clamping face 21 and the second clamping face 42, and then lifts the flat part of moulded glass 2000 2001 transparency.

In addition, the second support member 7 can soften when the first male mold members 3 are heated by upper heating module 3000, and first Support member 6 can soften when the first parent form mold members 1 are heated by lower heating module 4000, whereby when upper heating module 3000 drives X1 is moved to first male mold members 3 by the die sinking position as shown in Figure 6 with respect to the first parent form mold members 1 in the first direction During the as shown in Figure 7 die-closed position, the second support member 7 of softening can will be in matched moulds described in the migration of the first male mold members 3 Caused pressure transmission once is to the second male mold members 4 during position, and the first support member 6 softened can be by the first parent model Has upper pressure transmission caused by part 1 to the second parent form mold members 2, whereby the second male mold members 4 and the second parent form mold members 2 The lower pressure and the upper pressure can be kept to the flat part 2001 of moulded glass 2000, help to reduce moulded glass 2000 flat part 2001 produces wavy lines because of thermal deformation.

In addition, the bottom surface 101 for being molded die cavity 10 is also formed with multiple first flash recesses 12, each first flash recess 12 are communicated in one of multiple first locating lower recess 11, whereby when the first support member 6 because the first parent form mold members 1 are added Heat and when softening, each first flash recess 12 can provide the flash space of the first support member 6 one being respectively softened, and make each first The part that support member 6 is softened and overflowed does not influence the process of shaping.Similarly, the accommodating recess 30 of the first male mold members 3 Formed with multiple second flash recesses 32, each second flash recess 32 is communicated in multiple second positioning upper recess 31 for bottom surface 301 One of them, whereby when the second support member 7 because the first male mold members 3 be heated soften when, each second flash recess 32 is just The flash space of the second support member 7 one being respectively softened can be provided, the part that each second support member 7 is softened and overflowed is not influenceed The process of shaping.

Prior art is compared, due to the first clamping face of the second parent form mold members and the second clamping of the second male mold members Face clamps the opposite sides of the flat part of moulded glass respectively, and so mould structure of the invention can provide the flat of moulded glass Limitation in plate portion structure, wave is produced because of thermal deformation in forming process so as to reduce the surface of the flat part of moulded glass The lines of shape, the transparency of the flat part of the moulded glass after being molded with lifting.In addition, mould structure of the invention is One male mold members along a first direction with respect to the first parent form mold members matched moulds when, using flat part described in yoke frame pushing tow, with Form the first deformation structure in the first direction on the flat part of moulded glass, mould structure of the invention also utilizes the first support Part softens when the first parent form mold members are heated, and enables the second parent form mold members with the second male mold members jointly along first party Be moved to the die-closed position to relative first parent form mold members, so make to force around shaping die cavity periphery along in contrast to The second direction of first direction forms one second deformation structure, i.e., mould structure of the invention can be respectively in the flat board of moulded glass Portion forms the deformation structure with different directions with periphery, without carrying out post forming process, can reduce adding for moulded glass Between man-hour.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (13)

1. a kind of mould structure for being used for manufacturing a moulded glass, the moulded glass has a flat part and extended described flat One periphery of plate portion, it is characterised in that include：

One first parent form mold members, correspond to the moulded glass formed with a molding cave, described be molded around die cavity thereon The periphery；

One second parent form mold members, it is movably disposed in the shaping die cavity；

One first male mold members, it is arranged in a manner of retractable above the first parent form mold members；

One second male mold members, be movably disposed in the first male mold members, the second male mold members with The opposite sides of the flat part of glass is made described in the common clamping of the second parent form mold members；

One yoke frame, it is installed in the first male mold members, the yoke frame is in the first male mold members along one One direction relatively the first parent form mold members matched moulds when flat part described in pushing tow, with the flat part along the first party To one first deformation structure of formation；And

Multiple first support members, it is arranged in the shaping die cavity and abuts the bottom surface of the shaping die cavity and second parent form Mold members, the multiple first support member soften when the first parent form mold members are heated, and make the second parent form mould Part and the second male mold members can be moved to a matched moulds along the relative first parent form mold members of the first direction jointly Position, and then make to force the periphery along the second direction shape in contrast to the first direction around the shaping die cavity Into one second deformation structure.

2. mould structure as claimed in claim 1, it is characterised in that the second male mold members formed with a passage, and The yoke frame passes through flat part described in the passage pushing tow.

3. mould structure as claimed in claim 2, it is characterised in that the yoke frame includes：

One ejector pin component, is movably disposed in the passage；And

One locking component, it is connected to the ejector pin component and is installed in the first male mold members.

4. mould structure as claimed in claim 3, it is characterised in that formed with described in correspondence in the second parent form mold members One formed recess of passage, the ejector pin component have a shaped ends, and the shaped ends are in the first male mold members Relatively described first parent form mold members matched moulds is to the formed recess is entered during the die-closed position, to form first deformation Structure.

5. mould structure as claimed in claim 1, it is characterised in that also include：

Multiple second support members, it is arranged between the first male mold members and the second male mold members, each second Support member abuts the first male mold members and the second male mold members respectively.

6. mould structure as claimed in claim 5, it is characterised in that the first male mold members can relatively described second public affairs Type mold members move between a die sinking position and the die-closed position, and the multiple second support member is in the first male mould Part position supports the first male mold members to prevent moulded glass described in the yoke frame bursting in the die sinking position The flat part, and the multiple second support member softens when the first male mold members are heated, and makes first public affairs Type mold members can be moved to the die-closed position by the relatively described second male mold members of the die sinking position, and be softened described Multiple second support members can will in die-closed position described in the first male mold members migration caused pressure transmission once To the second male mold members.

7. mould structure as claimed in claim 5, it is characterised in that the shaping die cavity of the first parent form mold members Bottom surface is formed with multiple first locating lower recess, and the bottom of each first support member is contained in the multiple first locating lower recess One of, the second male mold members are towards the side of the first male mold members formed with the multiple second positioning Recess, and the bottom of each second support member is contained in one of the multiple second locating lower recess.

8. mould structure as claimed in claim 7, it is characterised in that the second parent form mold members are towards the shaping die cavity Bottom surface multiple first positioning upper recess of the side formed with corresponding the multiple first locating lower recess, and each first support It is contained in the multiple first positioning one of upper recess at the top of part, the first male mold members are towards described second Formed with an accommodating recess, the side of the second male mold members is contained in the accommodating recess for the side of male mold members It is interior, multiple second positioning upper recess of the bottom surface formed with corresponding the multiple second locating lower recess of the accommodating recess, and One of the multiple second positioning upper recess is contained at the top of each second support member.

9. mould structure as claimed in claim 8, it is characterised in that the bottom surface of the shaping die cavity is also formed with multiple first Flash recess, each first flash recess is communicated in one of the multiple first locating lower recess, and each first flash is recessed Portion is when the multiple first support member softens, there is provided the flash space of the first support member one being respectively softened, the accommodating recess Bottom surface formed with multiple second flash recesses, each second flash recess be communicated in it is the multiple second positioning upper recess wherein One of, and each second flash recess is when the multiple second support member softens, there is provided the second support member one being respectively softened overflows Material space.

10. mould structure as claimed in claim 5, it is characterised in that each first support member and each second support member respectively by Made by heat deformable material.

11. mould structure as claimed in claim 2, it is characterised in that the second parent form mold members have one first clamping Face, the second male mold members have one second clamping face of relatively described first clamping face, first clamping face and institute State the opposite sides that the second clamping face clamps the flat part of the moulded glass respectively.

12. mould structure as claimed in claim 11, it is characterised in that first clamping face and second clamping face point Not made by a manner of mirror finish.

13. mould structure as claimed in claim 1, it is characterised in that also include：

One fitting, it is arranged in the first parent form mold members, the fitting is in the first male mold members with respect to institute When stating the first parent form mold members and being moved to the die-closed position, the first male mold members are connected to.