CN203144273U - Forming apparatus for making moulded glass - Google Patents

Abstract

A molding apparatus for manufacturing molded glass includes a female mold member, a first male mold member, a second male mold member, a supporting pin and a pressing pin. The first male die piece is arranged on the female die piece in an openable and closable manner, and the second male die piece is arranged between the female die piece and the first male die piece. The supporting ejector rod penetrates through the female mould piece and is used for pushing the second male mould piece so as to support the second male mould piece and the first male mould piece to clamp molded glass together. The pressure rod is arranged on one side of the first male die piece and used for pressing down the first male die piece so that the first male die piece and the second male die piece move to a die assembly position relative to the female die piece to form the molded glass.

Description

Be used for making the molding device of moulded glass

Technical field

This creation relates to a kind of molding device, particularly relevant a kind of molding device that is used for making moulded glass.

Background technology

Generally speaking, the glass material is a tabular.If desire production one has the glass of moulding, the known practice is arranged on a upper mould piece with flat glass material and once between the module, then heat upper mould piece, down module and be arranged on upper mould piece with following module between the glass material so that the glass material softens.When above-mentioned glass material was softening, upper mould piece just can be carried out mould assembling action with following module, uses the profile of moulding the glass material.

Yet, because known upper mould piece does not have supporting structure with following module, so most glass material can be in vacant state in heat-processed.Therefore, when the glass material is heated to when softening, most glass material produces a thermal distortion because of non-structure restriction, causes the surface of described most of glass material to produce wavy lines and influence transparency, and then influences quality product and reduce the competitive power of product on market.

The utility model content

Therefore, this creation provides a kind of molding device that is used for making moulded glass, to address the above problem.

In order to reach above-mentioned purpose, this creation discloses a kind of molding device that is used for making a moulded glass, and it includes a parent form mold members, one first public type mold members, one second public type mold members, support push rod and a depression bar.But the described first public type mold members is arranged on the described parent form mold members in the mode of folding, and the described second public type mold members is arranged between described parent form mold members and the described first public type mold members.Described support push rod is arranged in described parent form mold members, and described support push rod is used for ejection in the described second public type mold members, uses and supports the described second public type mold members and the described moulded glass of the described first common clamping of public type mold members.Described depression bar is arranged on a side of the described first public type mold members and separable in the described first public type mold members, described depression bar is used for down being pressed on the described first public type mold members, so that the described first public type mold members moves to a matched moulds position with the described second public type mold members along the relative described parent form mold members of first direction, use the described moulded glass of moulding.

According to one of them embodiment of this creation, further disclosing described molding device further includes one first actuating module and one second actuating module in this creation.Described first actuating module is connected in described depression bar, described first actuating module is used for driving along described first direction and is pressed on the described first public type mold members under the described depression bar, and described first actuating module further is used for driving described depression bar along the second direction in contrast to described first direction and is located away from the described first public type mold members.Described second actuating module is connected in described support push rod, described second actuating module is used for when described first actuating module drives described depression bar and is located away from the described first public type mold members along described second direction, drive described support push rod and drive the described second public type mold members along described second direction and promote described first public type mold members to a die sinking position, use and take out described moulded glass.

One of them embodiment according to this creation, it is a pneumatic cylinder module that this creation further discloses described first actuating module, it is formed with one first air pressure chamber and one second air pressure chamber, and described second actuating module is a pneumatic cylinder module, and it is formed with one the 3rd air pressure chamber and one the 4th air pressure chamber.

One of them embodiment according to this creation, further disclosing described first actuating module includes one first nozzle arrangements and one second nozzle arrangements in this creation, described first nozzle arrangements is communicated in the described first air pressure chamber, described second nozzle arrangements is communicated in the described second air pressure chamber, described second actuating module includes one the 3rd nozzle arrangements and one the 4th nozzle arrangements, described the 3rd nozzle arrangements is communicated in described the 3rd air pressure chamber, and described the 4th nozzle arrangements is communicated in described the 4th air pressure chamber.

One of them embodiment according to this creation, this creation further discloses a valve gear of atmospheric pressure, it is connected in described first nozzle arrangements, described second nozzle arrangements, described the 3rd nozzle arrangements and described the 4th nozzle arrangements, described valve gear of atmospheric pressure is controlled the pressure reduction of the described first air pressure chamber and the described second air pressure chamber by described first nozzle arrangements and described second nozzle arrangements, using the described depression bar of driving moves or moves along described second direction along described first direction, described valve gear of atmospheric pressure is further controlled the pressure reduction of described the 3rd air pressure chamber and described the 4th air pressure chamber by described the 3rd nozzle arrangements and described the 4th nozzle arrangements, use the described support push rod of driving and move or move along described second direction along described first direction.

According to one of them embodiment of this creation, further disclosing described molding device further includes one first retaining plate and one second retaining plate in this creation.Described first retaining plate is used for fixing described first actuating module, and described second retaining plate is used for fixing described second actuating module.

According to one of them embodiment of this creation, further disclosing described molding device further includes one first heating module and one second heating module in this creation.Described first heating module is connected in the described first public type mold members, and described second heating module is connected in described parent form mold members, and described second heating module and described first heating module are used for heating described moulded glass jointly.

One of them embodiment according to this creation, further disclosing described first heating module includes one first heat pipe and one first heat-conducting plate in this creation, described first heat pipe is used for producing heat, described first heat-conducting plate is used for the heat that described first heat pipe produces is conducted to the described first public type mold members, described second heating module includes one second heat pipe and one second heat-conducting plate, described second heat pipe is used for producing heat, and described second heat-conducting plate is used for the heat that described second heat pipe produces is conducted to described parent form mold members.

One of them embodiment according to this creation, further disclosing the described first public type mold members includes a platform structure in this creation, described platform structure is used for moving in the process of described matched moulds position a dull and stereotyped district with the described moulded glass of the common clamping of one first side of the described second public type mold members in the described relatively parent form mold members of the described first public type mold members, described parent form mold members includes a die cavity structure, ccontaining described platform structure when described die cavity structure moves to described matched moulds position in the described relatively parent form mold members of the described first public type mold members, described dull and stereotyped district and the described second public type mold members of described moulded glass, and described die cavity structure moves to a molding region that is connected in described dull and stereotyped area edge in the process of described matched moulds position with the described moulded glass of the common moulding of described platform structure in the described relatively parent form mold members of the described first public type mold members.

According to one of them embodiment of this creation, this creation further discloses the bottom surface that a perforation is formed on described die cavity structure, and described support push rod passes described perforation.

In sum, this creation utilize to support push rod in the process of moulded glass moulding ejection in the second public type mold members, so that the second public type mold members can be in the process of moulded glass moulding and the first public type mold members both sides up and down in the flat board district of clamping moulded glass respectively, in the process of moulding, because supporting, unbraced structure causes thermal distortion with the side in the flat board district that prevents moulded glass.So, it is smooth that the flat board district of moulded glass just can keep in said process, so that the display frame on the display area that is presented at described display module can be known by dull and stereotyped district.

Description of drawings

Fig. 1 is the element schematic appearance of this creation embodiment molding device.

Fig. 2 is the element exploded perspective view of this creation embodiment molding device.

Fig. 3 is that molding device shown in Figure 1 is along the element section synoptic diagram of section line A-A in die opening state.

Fig. 4 is the element synoptic diagram of this creation embodiment first public type mold members at another visual angle.

Fig. 5 is that molding device shown in Figure 1 is along the element section synoptic diagram of section line B-B in die opening state.

Fig. 6 is that molding device shown in Figure 5 is at the element section synoptic diagram of matched moulds state.

Fig. 7 and Fig. 8 are respectively molding device shown in Figure 1 along the element section synoptic diagram of section line B-B in different die opening state.

Wherein, description of reference numerals is as follows:

30 molding devices, 32 moulded glass

321 dull and stereotyped districts, 323 molding regions

34 parent form mold members, 341 die cavity structures

343 perforation, 36 first public type mold members

361 platform structures, 38 second public type mold members

40 depression bars, 42 first actuating modules

421 first air pressure chambers, 423 second air pressure chambers

425 first nozzle arrangements, 427 second nozzle arrangements

43 first retaining plates 44 support push rod

46 second actuating modules 461 the 3rd air pressure chamber

463 the 4th air pressure chambers 465 the 3rd nozzle arrangements

467 the 4th nozzle arrangements, 47 second retaining plates

48 valve gear of atmospheric pressure, 50 first heating modules

501 first heat pipes, 503 first heat-conducting plates

52 second heating modules, 521 second heat pipes

523 second heat-conducting plate X1 first directions

X2 second direction A-A, B-B section line

Embodiment

About the aforementioned of this creation and other technology contents, characteristics and effect, in the detailed description of following cooperation embodiment with reference to the accompanying drawings, can clearly present.The direction term of mentioning in following examples, for example: upper and lower, left and right, front or rear etc. only are the directions with reference to attached drawings.Therefore, the direction term of use is to illustrate not to be to limit this creation.

See also Fig. 1 and Fig. 2, Fig. 1 creates the element schematic appearance of an embodiment molding device 30 for this, and Fig. 2 is the element exploded perspective view of this creation embodiment molding device 30.In this embodiment, molding device 30 is used for making a moulded glass 32, and moulded glass 32 can be applicable to an electronic installation (not being illustrated among the figure), for example the display module of mobile phone etc.The molding region 323 that moulded glass 32 includes a dull and stereotyped district 321 and is connected in 321 edges, dull and stereotyped district.It is smooth that the flat board district 321 of moulded glass 32 keeps before and after moulding, uses the more excellent transparence of maintenance.Actually, dull and stereotyped district 321 can be applicable to the display area of described display module.

See also Fig. 1 to Fig. 3, Fig. 3 is the element section synoptic diagram of molding device 30 shown in Figure 1 along section line A-A in die opening state.As shown in Figure 1 to Figure 3, molding device 30 includes a parent form mold members 34, one first public type mold members 36 and one second public type mold members 38, but the first public type mold members 36 is arranged on the parent form mold members 34 in the mode of folding, and the second public type mold members 38 is arranged between parent form mold members 34 and the first public type mold members 36.In addition, see also Fig. 1 to Fig. 4, Fig. 4 is the element synoptic diagram of this creation embodiment first public type mold members 36 at another visual angle.As shown in Figures 1 to 4, the first public type mold members 36 includes a platform structure 361, and parent form mold members 34 includes a die cavity structure 341.

See also Fig. 5 and Fig. 6, Fig. 5 be molding device 30 shown in Figure 1 along the element section synoptic diagram of section line B-B in die opening state, Fig. 6 is that molding device 30 shown in Figure 5 is at the element section synoptic diagram of matched moulds state.As Fig. 5 and shown in Figure 6, move in the process of a matched moulds position as shown in Figure 6 in the first public type mold members 36 along first direction X1 relative to parent form mold members 34 oneself die sinking positions as shown in Figure 5, the platform structure 361 of the first public type mold members 36 can be used to the flat board district 321 with the common clamping moulded glass 32 of a side of the second public type mold members 38, so that the flat board district 321 of moulded glass 32 can be kept smooth by the described side clamping of the platform structure 361 of the first public type mold members 36 and the second public type mold members 38 in the process of moulding.

In this embodiment, the described side of platform structure 361 and the second public type mold members 38 can mirror finish mode made, use the surface finish of flat board district 321 after moulding that increases moulded glass 32, dull and stereotyped like this district's 321 display frames that just can know on the display area that is presented at described display module.In addition, when the first public type mold members 36 relative parent form mold members 34 moved to as shown in Figure 6 described matched moulds position, the die cavity structure 341 of parent form mold members 34 can be used to flat board district 321 and the second public type mold members 38 of ccontaining platform structure 361, moulded glass 32.

On the other hand, move along first direction X1 in the process of described matched moulds position as shown in Figure 6 relative to parent form mold members 34 oneself described die sinking positions as shown in Figure 5 in the first public type mold members 36, the molding region 323 of the die cavity structure 341 of parent form mold members 34 and the platform structure of the first public type mold members 36 361 common moulding moulded glass 32 is so that the molding region 323 of moulded glass 32 may be molded to circular shape as shown in Figure 2.By this, the molding device 30 of this creation just can be used to be manufactured on the moulded glass 32 that dull and stereotyped district 321 edges have the molding region 323 of arc modeling, to meet the electronic installation with diversified moulding.

As Fig. 5 and shown in Figure 6, molding device 30 further includes a depression bar 40 and one first actuating module 42.Depression bar 40 is arranged on a side of the first public type mold members 36 and separable in the first public type mold members 36, and first actuating module 42 is connected in depression bar 40.In addition, molding device 30 further comprises one first retaining plate 43, and it is used for fixing first actuating module 42, so that first actuating module 42 can firmly be connected in depression bar 40.In this embodiment, first actuating module 42 can be a pneumatic cylinder module, and it is formed with one first air pressure chamber 421 and one second air pressure chamber 423.In addition, first actuating module 42 includes one first nozzle arrangements 425 and one second nozzle arrangements, 427, the first nozzle arrangements 425 and is communicated in the first air pressure chamber, 421, the second nozzle arrangements 427 and is communicated in the second air pressure chamber 423.

In addition, molding device 30 further includes one and supports push rod 44, it is arranged in parent form mold members 34, supports push rod 44 and is used for ejection in the second public type mold members 38, uses and supports the second public type mold members 38 and the first public type mold members 36 common clamping moulded glass 32.In addition, a perforation 343 is formed on the bottom surface of die cavity structure 341, and ejection is in the second public type mold members 38 so that support push rod 44 can pass perforation 343.In this embodiment, the bottom surface of die cavity structure 341 is formed with four perforation 343, and corresponding described two perforation 343 of molding device 30 and contain four support push rod 44(as shown in Figure 2).343 can not be confined to this embodiment accompanying drawing with the quantity that supports push rod 44 and illustrate and bore a hole, it is looked closely actual demand and decides.

In addition, molding device 30 further includes one second actuating module 46 and one second retaining plate 47, second actuating module 46 is connected in and supports push rod 44, and second retaining plate 47 is used for fixing second actuating module 46, supports push rod 44 so that second actuating module 46 can firmly be connected in.In this embodiment, second actuating module 46 can be a pneumatic cylinder module, and it is formed with one the 3rd air pressure chamber 461 and one the 4th air pressure chamber 463.In addition, second actuating module 46 includes one the 3rd nozzle arrangements 465 and one the 4th nozzle arrangements, 467, the three nozzle arrangements 465 and is communicated in the 3rd air pressure chamber 461, the four nozzle arrangements 467 and is communicated in the 4th air pressure chamber 463.

As Fig. 5 and shown in Figure 6, molding device 30 further includes a valve gear of atmospheric pressure 48, and it is connected in first nozzle arrangements 425, second nozzle arrangements 427, the 3rd nozzle arrangements 465 and the 4th nozzle arrangements 467.Valve gear of atmospheric pressure 48 can be used driving depression bar 40 and move or move along the second direction X2 in contrast to first direction X1 along first direction X1 by the pressure reduction of first nozzle arrangements 425 and second nozzle arrangements, the 427 control first air pressure chambers 421 and the second air pressure chamber 423.In addition, valve gear of atmospheric pressure 48 further can be used driving support push rod 44 and be moved or move along second direction X4 along first direction X1 by the pressure reduction of the 3rd nozzle arrangements 465 and the 4th nozzle arrangements 467 control the 3rd air pressure chambers 461 and the 4th air pressure chamber 463.

For instance, in Fig. 5 and matched moulds process shown in Figure 6, valve gear of atmospheric pressure 48 can be supplied gas to the first air pressure chamber 421 and can air be discharged by the second air pressure chamber 423 by second nozzle arrangements 427 by first nozzle arrangements 425, this moment, the internal pressure of the first air pressure chamber 421 just can form a pressure reduction greater than the internal pressure of the second air pressure chamber 423, use drive depression bar 40 along first direction X1 move and under be pressed on the first public type mold members 36.By this, first actuating module 42 just can be used to drive depression bar along first direction X1 and is pressed on the first public type mold members 36 for 40 times, so that the first public type mold members 36 and the second public type mold members 38 move as shown in Figure 6 described matched moulds position from as shown in Figure 5 described die sinking position along first direction X1, use moulding moulded glass 32.

Further, in the first public type mold members 36 and the second public type mold members 38 along in the process of first direction X1 moulding moulded glass 32, for making depression bar 40 press down the first public type mold members 36 along first direction X1 smoothly, valve gear of atmospheric pressure 48 further can be supplied gas to the 3rd air pressure chamber 461 and further can air be discharged by the 4th air pressure chamber 463 by the 4th nozzle arrangements 467 by the 3rd nozzle arrangements 465, this moment, the internal pressure of the 3rd air pressure chamber 461 just can form a pressure reduction greater than the internal pressure of the 4th air pressure chamber 463, use and reduce depression bar 40 presses down the first public type mold members 36 along first direction X1 resistance, support push rod 44 by this and just can be successfully move as shown in Figure 6 described matched moulds position from as shown in Figure 5 described die sinking position along first direction X1, and then the first public type mold members 36 and the second public type mold members 38 can be successfully moved and shaping mould is made glass 32 along first direction X1.

What deserves to be mentioned is, above-mentioned pressure reduction reduces depression bar 40 along first direction X1 presses down the resistance of the first public type mold members 36 except can be used to, and it further can be used to drive in the process of moulded glass 32 moulding and supports push rod 44 lasting ejections in the second public type mold members 38.Therefore, the second public type mold members 38 just can be in the process of moulded glass 32 moulding and the first public type mold members 36 both sides up and down in the flat board district 321 of clamping moulded glass 32 respectively, causes thermal distortion because unbraced structure supports with the side in the flat board district 321 that prevents moulded glass 32 in the process of moulding.So, it is smooth that the flat board district 321 of moulded glass 32 just can keep in said process, so that dull and stereotyped district's 321 display frames that can know on the display area that is presented at described display module.

Otherwise, in the die sinking process, seeing also Fig. 6 to Fig. 8, Fig. 7 and Fig. 8 are respectively molding device 30 shown in Figure 1 along the element section synoptic diagram of section line B-B in different die opening state.Extremely shown in Figure 8 as Fig. 6, at first valve gear of atmospheric pressure 48 can be supplied gas to the second air pressure chamber 423 and can air be discharged by the first air pressure chamber 421 by first nozzle arrangements 425 by second nozzle arrangements 427, this moment, the internal pressure of the second air pressure chamber 423 just can form a pressure reduction greater than the internal pressure of the first air pressure chamber 421, and described pressure reduction can drive depression bar 40 and move to as shown in Figure 7 position along second direction X2 by described matched moulds position shown in Figure 6, in other words, first actuating module 42 can be used to drive depression bar 40 along second direction X2 and is located away from the first public type mold members 36.

Further, when first actuating module 42 drives depression bar 40 and is located away from the first public type mold members 36 along second direction X2, valve gear of atmospheric pressure 48 further can be supplied gas to the 4th air pressure chamber 463 and further can air be discharged by the 3rd air pressure chamber 461 by the 3rd nozzle arrangements 465 by the 4th nozzle arrangements 467, this moment, the internal pressure of the 4th air pressure chamber 463 just can form a pressure reduction greater than the internal pressure of the 3rd air pressure chamber 461, used to drive and supported push rod 44 ejections in the second public type mold members 38.In other words, support push rod 44 and can be driven by second actuating module 46 and drive the second public type mold members 38, and then promote the first public type mold members 36 and move as shown in Figure 8 position from as shown in Figure 7 position along second direction X2.So, the moulded glass 32 that the user just can be after the first public type mold members 36 and the second public type mold members 38 be taken out moulding.

In addition, as Fig. 7 and shown in Figure 8, molding device 30 further includes one first heating module 50 and one second heating module 52.In this embodiment, first heating module 50 is connected in the first public type mold members 36, second heating module 52 is connected in parent form mold members 34, and second heating module 52 and first heating module 50 are used for heating moulded glass 32 jointly, so that the temperature of moulded glass 32 rises, and when the temperature rising of moulded glass 32 reached a softening temperature, moulded glass 32 just can be softened, and moulded glass 32 just can be by the first public type mold members 36 and second public type mold members 38 moulding like this.

In this embodiment, first heating module 50 includes one first heat pipe 501 and one first heat-conducting plate, 503, the first heat pipes 501 are used for producing heat, and first heat-conducting plate 503 is used for the heat that first heat pipe 501 produces is conducted to the first public type mold members 36.In addition, second heating module 52 includes one second heat pipe 521 and one second heat-conducting plate, 523, the second heat pipes 521 are used for producing heat, and second heat-conducting plate 523 is used for the heat that second heat pipe 521 produces is conducted to parent form mold members 34.So, the heat that first heat pipe 501 and second heat pipe 521 produce just can conduct to moulded glass 32 by conduction of heat, so that moulded glass 32 is heated and softens, and then can be by the first public type mold members 36 and second public type mold members 38 moulding.

Compared to prior art, this creation utilize to support push rod in the process of moulded glass moulding ejection in the second public type mold members, so that the second public type mold members can be in the process of moulded glass moulding and the first public type mold members both sides up and down in the flat board district of clamping moulded glass respectively, in the process of moulding, because supporting, unbraced structure causes thermal distortion with the side in the flat board district that prevents moulded glass.So, it is smooth that the flat board district of moulded glass just can keep in said process, so that the display frame on the display area that is presented at described display module can be known by dull and stereotyped district.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. a molding device that is used for making a moulded glass is characterized in that, described molding device includes:

One parent form mold members;

One first public type mold members, but its mode with folding is arranged on the described parent form mold members;

One second public type mold members, it is arranged between described parent form mold members and the described first public type mold members;

One supports push rod, and it is arranged in described parent form mold members, and described support push rod is used for ejection in the described second public type mold members, uses and supports the described second public type mold members and the described moulded glass of the described first common clamping of public type mold members; And

One depression bar, it is arranged on a side of the described first public type mold members and separable in the described first public type mold members, described depression bar is used for down being pressed on the described first public type mold members, so that the described first public type mold members moves to a matched moulds position with the described second public type mold members along the relative described parent form mold members of first direction, use the described moulded glass of moulding.

2. molding device as claimed in claim 1 is characterized in that, described molding device further includes:

One first actuating module, it is connected in described depression bar, described first actuating module is used for driving along described first direction and is pressed on the described first public type mold members under the described depression bar, and described first actuating module further is used for driving described depression bar along the second direction in contrast to described first direction and is located away from the described first public type mold members; And

One second actuating module, it is connected in described support push rod, described second actuating module is used for when described first actuating module drives described depression bar and is located away from the described first public type mold members along described second direction, drive described support push rod and drive the described second public type mold members along described second direction and promote described first public type mold members to a die sinking position, use and take out described moulded glass.

3. molding device as claimed in claim 2, it is characterized in that, described first actuating module is a pneumatic cylinder module, it is formed with one first air pressure chamber and one second air pressure chamber, and described second actuating module is a pneumatic cylinder module, and it is formed with one the 3rd air pressure chamber and one the 4th air pressure chamber.

4. molding device as claimed in claim 3, it is characterized in that, described first actuating module includes one first nozzle arrangements and one second nozzle arrangements, described first nozzle arrangements is communicated in the described first air pressure chamber, described second nozzle arrangements is communicated in the described second air pressure chamber, described second actuating module includes one the 3rd nozzle arrangements and one the 4th nozzle arrangements, described the 3rd nozzle arrangements is communicated in described the 3rd air pressure chamber, and described the 4th nozzle arrangements is communicated in described the 4th air pressure chamber.

5. molding device as claimed in claim 4 is characterized in that, described molding device further includes:

One valve gear of atmospheric pressure, it is connected in described first nozzle arrangements, described second nozzle arrangements, described the 3rd nozzle arrangements and described the 4th nozzle arrangements, described valve gear of atmospheric pressure is controlled the pressure reduction of the described first air pressure chamber and the described second air pressure chamber by described first nozzle arrangements and described second nozzle arrangements, using the described depression bar of driving moves or moves along described second direction along described first direction, described valve gear of atmospheric pressure is further controlled the pressure reduction of described the 3rd air pressure chamber and described the 4th air pressure chamber by described the 3rd nozzle arrangements and described the 4th nozzle arrangements, use the described support push rod of driving and move or move along described second direction along described first direction.

6. molding device as claimed in claim 3 is characterized in that, described molding device further includes:

One first retaining plate, it is used for fixing described first actuating module; And

One second retaining plate, it is used for fixing described second actuating module.

7. molding device as claimed in claim 1 is characterized in that, described molding device further includes:

One first heating module, it is connected in the described first public type mold members; And

One second heating module, it is connected in described parent form mold members, and described second heating module and described first heating module are used for heating described moulded glass jointly.

8. molding device as claimed in claim 7, it is characterized in that, described first heating module includes one first heat pipe and one first heat-conducting plate, described first heat pipe is used for producing heat, described first heat-conducting plate is used for the heat that described first heat pipe produces is conducted to the described first public type mold members, described second heating module includes one second heat pipe and one second heat-conducting plate, described second heat pipe is used for producing heat, and described second heat-conducting plate is used for the heat that described second heat pipe produces is conducted to described parent form mold members.

9. molding device as claimed in claim 1, it is characterized in that, the described first public type mold members includes a platform structure, described platform structure is used for moving in the process of described matched moulds position a dull and stereotyped district with the described moulded glass of the common clamping of one first side of the described second public type mold members in the described relatively parent form mold members of the described first public type mold members, described parent form mold members includes a die cavity structure, ccontaining described platform structure when described die cavity structure moves to described matched moulds position in the described relatively parent form mold members of the described first public type mold members, described dull and stereotyped district and the described second public type mold members of described moulded glass, and described die cavity structure moves to a molding region that is connected in described dull and stereotyped area edge in the process of described matched moulds position with the described moulded glass of the common moulding of described platform structure in the described relatively parent form mold members of the described first public type mold members.

10. molding device as claimed in claim 9 is characterized in that, a perforation is formed on the bottom surface of described die cavity structure, and described support push rod passes described perforation.

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