CN207405073U - Laminated mold construction and glass shaping equipment - Google Patents

Laminated mold construction and glass shaping equipment Download PDF

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Publication number
CN207405073U
CN207405073U CN201721208182.7U CN201721208182U CN207405073U CN 207405073 U CN207405073 U CN 207405073U CN 201721208182 U CN201721208182 U CN 201721208182U CN 207405073 U CN207405073 U CN 207405073U
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CN
China
Prior art keywords
glass
lower die
mould
molding structure
moulded glass
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201721208182.7U
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Chinese (zh)
Inventor
邱明哲
朱建兴
萧政利
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Mirle Automation Corp
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Mirle Automation Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to US201762555052P priority Critical
Priority to US62/555,052 priority
Application filed by Mirle Automation Corp filed Critical Mirle Automation Corp
Application granted granted Critical
Publication of CN207405073U publication Critical patent/CN207405073U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/50Glass production, e.g. reusing waste heat during processing or shaping
    • Y02P40/57Improving the yield, e-g- reduction of reject rates

Abstract

The utility model discloses a kind of laminated mold construction and glass shaping equipment, laminated mold construction includes mould in upper die and lower die and at least one.Mould is arranged between upper mold and lower die at least one.At least two glass molding spaces are formed in upper die and lower die and at least one between mould and accommodate at least two moulded glass.Upper die and lower die clamp at least two moulded glass with mould at least one and at least two moulded glass are carried out hot-forming jointly.Glass shaping equipment heats laminated mold construction and moulded glass from around laminated mold construction with ring radiation heater.Whereby, the laminated mold construction of the utility model can one-pass molding at least two moulded glass, so as to improve production capacity.

Description

Laminated mold construction and glass shaping equipment
Technical field
The utility model is related to a kind of laminated mold construction and glass shaping equipment, more particularly to one kind can simultaneously into The type at least laminated mold construction of two moulded glass and with ring radiation heater from around laminated mold construction to layer The glass shaping equipment that stack mould structure is heated with moulded glass.
Background technology
It please refers to Fig.1, Fig. 1 is the schematic diagram of the glass shaping equipment 1 of the prior art.As shown in Figure 1, glass shaping equipment 1 includes mould structure 10, upper heating plate 12 and lower heating plate 14.Mould structure 10 is made of upper mold 100 and lower die 102, Wherein glass molding space 104 is formed between upper mold 100 and lower die 102, and glass molding space 104 is accommodating model glass Glass 2.When carrying out mould model to moulded glass 2 with mould structure 10, prior art more than heating plate 12 and lower heating plate 14 contact upper mold 100 and lower die 102 respectively, make heating plate 12 and lower heating plate 14 via the mode of heat transfer to mould structure 10 are heated with moulded glass 2.After moulded glass 2 heats and softens, upper mold 100 is clamped with lower die 102 and the moulded glass that presses 2, the edge for making moulded glass 2 is hot-forming according to the shape of glass molding space 104.
Since mould structure 10 can only once be molded a piece of moulded glass 2, production capacity is limited.When with the shaping of mould structure 10 one During the moulded glass 2 of fixed number amount, the production time is longer and compared with consuming energy.In addition, when upper heating plate 12 is passed through with lower heating plate 14 When being heated by the mode of heat transfer to mould structure 10 and moulded glass 2, the intermediate region A1 of mould structure 10 can be generated Heat build-up effect, and the lateral side regions A2 of mould structure 10 can generate heat dissipation effect.Therefore, the temperature around moulded glass 2 When reaching bendable pack temperature, the mid-plane area of moulded glass 2 can generate the surface blemishes such as orange peel, mist line due to overheat, so as to Influence the surface quality after moulded glass 2 is molded.
Utility model content
Technical problem to be solved in the utility model is:In order to make up for the deficiencies of the prior art, providing one kind can be simultaneously The shaping at least laminated mold construction of two moulded glass and right from around laminated mold construction with ring radiation heater The glass shaping equipment that laminated mold construction is heated with moulded glass, to solve foregoing problems.
The laminated mold construction of the utility model uses following technical scheme:
The laminated mold construction includes mould in upper die and lower die and at least one.Mould is arranged in described at least one Between mould and lower die.At least two glass molding spaces be formed in the upper mold, the lower die and described at least one between mould and Accommodate at least two moulded glass.In the upper mold, the lower die and described at least one mould jointly clamping at least two moulded glass and At least two moulded glass are carried out hot-forming.
The upper mold has the first molding structure, and the lower die has the second molding structure, and mold has in described at least one 3rd molding structure and the 4th molding structure, first molding structure and the 3rd molding structure coordinate to it is described at least The progress of one of two moulded glass is hot-forming, and second molding structure coordinates with the 4th molding structure to described Wherein another progress of at least two moulded glass is hot-forming.
First molding structure and the concaveconvex structure that the 3rd molding structure is mutual cooperation, and second shaping Structure and the concaveconvex structure that the 4th molding structure is mutual cooperation.
One of the upper mold and the middle mould have the first bearing and leaning portion, the lower die and the middle mould wherein it One has the second bearing and leaning portion, and described at least one of two moulded glass bear against first bearing and leaning portion, and it is described at least The wherein another of two moulded glass bears against second bearing and leaning portion.
One of the upper mold and the middle mould have the first limiting section, the lower die and the middle mould wherein it One has the second limiting section, at least one of two moulded glass, and second limit described in the first limiting section /V At least two moulded glass is wherein another described in the /V of position portion.
The glass shaping equipment of the utility model uses following technical scheme:
The glass shaping equipment includes laminated mold construction and ring radiation heater.The stacked die knot Structure includes mould in upper die and lower die and at least one.Mould is arranged between the upper mold and the lower die in described at least one.At least Two glass molding spaces are formed in the upper mold, the lower die and described at least one between mould and accommodate at least two model glass Glass.The ring radiation heater has annular-heating space.It is empty that the laminated mold construction is arranged at the annular-heating Between in.The ring radiation heater with infrared radiation from around the laminated mold construction to the stacked die Structure is heated at least two moulded glass.Mould clamps institute jointly in the upper mold, the lower die and described at least one It states at least two moulded glass and at least two moulded glass is carried out hot-forming.
The upper mold has the first molding structure, and the lower die has the second molding structure, and mold has in described at least one 3rd molding structure and the 4th molding structure, first molding structure and the 3rd molding structure coordinate to it is described at least The progress of one of two moulded glass is hot-forming, and second molding structure coordinates with the 4th molding structure to described Wherein another progress of at least two moulded glass is hot-forming.
First molding structure and the concaveconvex structure that the 3rd molding structure is mutual cooperation, and second shaping Structure and the concaveconvex structure that the 4th molding structure is mutual cooperation.
One of the upper mold and the middle mould have the first bearing and leaning portion, the lower die and the middle mould wherein it One has the second bearing and leaning portion, and described at least one of two moulded glass bear against first bearing and leaning portion, and it is described at least The wherein another of two moulded glass bears against second bearing and leaning portion.
One of the upper mold and the middle mould have the first limiting section, the lower die and the middle mould wherein it One has the second limiting section, at least one of two moulded glass, and second limit described in the first limiting section /V At least two moulded glass is wherein another described in the /V of position portion.
Therefore, according to preceding solution, the laminated mold construction and glass shaping equipment of the utility model are at least With following advantages and advantageous effect:Mould during the utility model sets at least one between upper mold and lower die, it is stacked to form Mould structure.It is formed with to accommodate at least two glass of at least two moulded glass between mould due to upper die and lower die and at least one Glass molding space, therefore, the laminated mold construction of the utility model can jointly be clamped using upper die and lower die with mould at least one At least two moulded glass and at least two moulded glass carry out it is hot-forming.Whereby, the laminated mold construction of the utility model Can one-pass molding at least two moulded glass, so as to improve production capacity.When the laminated mold construction shaping one with the utility model During the moulded glass of fixed number amount, the production time can effectively shorten and relatively save the energy.
In addition, the utility model is right from around laminated mold construction with infrared radiation using ring radiation heater Laminated mold construction is heated with moulded glass.Since heat caused by infrared radiation can be from laminated mold construction Surrounding is gradually transferred to the inside from laminated mold construction, therefore, during heating, around laminated mold construction Temperature can be higher than the internal temperature of laminated mold construction.When temperature around moulded glass reaches bendable pack temperature, mould The mid-plane area of glass is made compared with low temperature, the surface blemishes such as orange peel, mist line will not be generated due to overheat.Therefore, the utility model It can effectively ensure the surface quality after moulded glass shaping.
Description of the drawings
Fig. 1 is the schematic diagram of the glass shaping equipment of the prior art.
Fig. 2 is the schematic diagram of the glass shaping equipment of one embodiment of the utility model.
Fig. 3 is the explosive view of the laminated mold construction in Fig. 2.
Fig. 4 is laminated mold construction in Fig. 2 in the explosive view at another visual angle.
Fig. 5 is the sectional view of the glass shaping equipment in Fig. 2.
Fig. 6 is another schematic diagram of the glass shaping equipment of one embodiment of the utility model.
Fig. 7 is the sectional view of the glass shaping equipment in Fig. 6.
Fig. 8 is the sectional view of the laminated mold construction of another embodiment of the utility model.
Fig. 9 is the sectional view of the laminated mold construction of another embodiment of the utility model.
Figure 10 is the sectional view of the laminated mold construction of another embodiment of the utility model.
Figure 11 is the sectional view of the laminated mold construction of another embodiment of the utility model.
Wherein, the reference numerals are as follows:
1st, 3 glass shaping equipment
2nd, 4 moulded glass
10 mould structures
12nd, heating plate on 36
14th, 34 times heating plates
30 laminated mold constructions
32 ring radiation heaters
100th, 300 upper mold
102nd, 302 lower die
104th, 304 glass molding space
Mould in 303
320 annular-heating spaces
3000 first molding structures
3020 second molding structures
3022 second bearing and leaning portions
3024 second limiting sections
3030 the 3rd molding structures
3032 the 4th molding structures
3034 first bearing and leaning portions
3036 first limiting sections
Specific embodiment
It please refers to Fig.2 to Fig. 5, Fig. 2 is the schematic diagram of the glass shaping equipment 3 of one embodiment of the utility model, and Fig. 3 is figure The explosive view of laminated mold construction 30 in 2, Fig. 4 are laminated mold constructions 30 in Fig. 2 in the explosive view at another visual angle, Fig. 5 is the sectional view of the glass shaping equipment 3 in Fig. 2.
As shown in Figures 2 to 5, glass shaping equipment 3 include laminated mold construction 30, ring radiation heater 32 and Lower heating plate 34.Laminated mold construction 30 is arranged in lower heating plate 34.Laminated mold construction 30 include upper mold 300, under Mould 303 in mould 302 and at least one.Mould 303 is arranged between upper mold 300 and lower die 302 at least one so that at least two glass Molding space 304 is formed in upper mold 300, lower die 302 and at least one between mould 303.At least two glass molding spaces 304 to Accommodate at least two moulded glass 4.
Due to being formed with to accommodate at least two moulded glass 4 between mould 303 in upper mold 300, lower die 302 and at least one At least two glass molding spaces 304, therefore, the laminated mold construction 30 of the utility model can utilize upper mold 300, lower die 302 It clamps at least two moulded glass 4 jointly with mould 303 at least one and at least two moulded glass 4 is carried out hot-forming.Whereby, originally The laminated mold construction 30 of utility model can one-pass molding at least two moulded glass 4, so as to improve production capacity.When with this practicality When new laminated mold construction 30 is molded a certain number of moulded glass 4, the production time can effectively shorten and relatively save energy Source.
In the present embodiment, it is arranged at there are one middle mould 303 between upper mold 300 and lower die 302, therefore, there are two glass Molding space 304 is formed in upper mold 300, lower die 302 and at least one between mould 303, to accommodate two panels moulded glass 4.Such as Fig. 5 Shown, the glass molding space 304 between upper mold 300 and middle mould 303 accommodates a piece of moulded glass 4, and lower die 302 and middle mould Glass molding space 304 between 303 accommodates another moulded glass 4.It should be noted that in practical applications, middle mould 303 Quantity can be one or more, with formed between upper mold 300, lower die 302 and middle mould 303 two or more glass into Type space, so as to accommodate moulded glass 4 more than two panels or two panels.Therefore, the utility model is not with depicted implementation in scheming Example is limited.
In the present embodiment, laminated mold construction 30 can be by metal, graphite, ceramics or other with high thermoconductivity Material is made.Ring radiation heater 32 has annular-heating space 320.As shown in figures 2 and 5, with stacked die knot When structure 30 carries out mould model to moulded glass 4, upper mold 300, lower die 302 and middle mould 303 clamping moulded glass 4, and layer jointly Stack mould structure 30 is arranged in the annular-heating space 320 of ring radiation heater 32.Then, then ring radiation is controlled to add Hot device 32 adds laminated mold construction 30 and moulded glass 4 from around laminated mold construction 30 with infrared radiation Heat.Since heat can be gradually transferred to from around laminated mold construction 30 from stacked die knot caused by infrared radiation The inside of structure 30, therefore, during heating, the ambient temperature of laminated mold construction 30 can be higher than laminated mold construction 30 internal temperature.When temperature around moulded glass 4 reaches bendable pack temperature, the centre of stacked moulded glass 4 is put down Face area will not generate the surface blemishes such as orange peel, mist line compared with low temperature due to overheat.Therefore, the utility model can effectively ensure model Surface quality after the shaping of glass 4.
In the present embodiment, glass shaping equipment 3 may also include actuator (not shown), be connected to ring radiation heater 32.Actuator can drive annular pharoid 32 to be moved up and down with respect to laminated mold construction 30, so that stacked die knot Structure 30 is arranged in the annular-heating space 320 of ring radiation heater 32.
In another embodiment, glass shaping equipment 3 may also include actuator (not shown), be connected to stacked die knot Structure 30.Actuator can drive 30 opposed annular pharoid 32 of laminated mold construction to move up and down, so that stacked die Structure 30 is arranged in the annular-heating space 320 of ring radiation heater 32.
It should be noted that the ring radiation heater 32 of the utility model can be single tube structure or double pipe structure, to reach To ring-type to the purpose of 30 all-round side heat of laminated mold construction.
Refer to Fig. 6 and Fig. 7, Fig. 6 be one embodiment of the utility model glass shaping equipment 3 another schematic diagram, Fig. 7 is the sectional view of the glass shaping equipment 3 in Fig. 6.As shown in Figures 6 and 7, glass shaping equipment 3 may also include heating Plate 36 wherein upper heating plate 36 coordinates with lower heating plate 34, with moulded glass 4 add early period to laminated mold construction 30 Heat.Using foregoing ring radiation heater 32 with infrared radiation from around laminated mold construction 30 to stacked mould Before lamps structure 30 and moulded glass 4 are heated, the utility model can be first with upper heating plate 36 from laminated mold construction 30 Laminated mold construction 30 and moulded glass 4 are heated in top, and utilize lower heating plate 34 from laminated mold construction 30 Laminated mold construction 30 and moulded glass 4 are heated lower section.
Before temperature around moulded glass 4 reaches bendable pack temperature, then lower heating plate 34 is stacked with thereon Mould structure 30 is transferred to the work station for being provided with ring radiation heater 32, to utilize ring radiation heater 32 with infrared ray Radiation heats laminated mold construction 30 and moulded glass 4 from around laminated mold construction 30, makes moulded glass 4 Around temperature reach bendable pack temperature.
When temperature around moulded glass 4 reaches bendable pack temperature, you can by lower heating plate 34 and stacking thereon Formula mould structure 30 is transferred to the work station for being provided with heating plate 36, to be coordinated using upper heating plate 36 and lower heating plate 34, Actuating upper mold 300 and lower die 302 are moved to die-closed position so that upper mold 300, lower die 302 and middle mould 303 to moulded glass 4 into Row is hot-forming.Finally, 30 Xu Leng of laminated mold construction is made to cool down, you can by the moulded glass 4 after shaping from stacked mould Lamps structure 30 takes out.
It should be noted that it can be one or more to be provided with heating plate 36 and the work station of ring radiation heater 32, Depending on practical application.
In the present embodiment, upper mold 300 can have the first molding structure 3000, and lower die 302 can have the second molding structure 3020, and middle mould 303 can have the 3rd molding structure 3030 and the 4th molding structure 3032.As shown in Figures 3 to 5, the 3rd 3030 and the 4th molding structure 3032 of molding structure is located at opposite two sides of middle mould 303 so that the first molding structure of upper mold 300 3000 can coordinate with the 3rd molding structure 3030 of middle mould 303 to one of two moulded glass 4 carry out it is hot-forming, and under Second molding structure 3020 of mould 302 can coordinate with the 4th molding structure 3032 of middle mould 303 to the wherein another of two moulded glass 4 One progress is hot-forming.Furthermore, it is understood that the 3rd molding structure of the first molding structure 3000 and middle mould 303 of upper mold 300 3030 can be the concaveconvex structure (for example, groove and boss for cooperating) to cooperate, and the second shaping of lower die 302 is tied 4th molding structure 3032 of structure 3020 and middle mould 303 can be the concaveconvex structure to cooperate (for example, the groove to cooperate With boss).
As shown in figure 5, middle mould 303 can have the first bearing and leaning portion 3034, and lower die 302 can have the second bearing and leaning portion 3022, So that the moulded glass 4 between upper mold 300 and middle mould 303 bears against the first bearing and leaning portion 3034, and lower die 302 and middle mould 303 it Between moulded glass 4 bear against the second bearing and leaning portion 3022.In addition, middle mould 303 can have the first limiting section 3036, and lower die 302 There can be the second limiting section 3024 so that the moulded glass 4 between 3036 /V upper mold 300 of the first limiting section and middle mould 303, and Moulded glass 4 between second limiting section, 3024 /V lower die 302 and middle mould 303.
Fig. 8 to Figure 10 is refer to, Fig. 8 is the sectional view of the laminated mold construction 30 of another embodiment of the utility model, Fig. 9 is the sectional view of the laminated mold construction 30 of another embodiment of the utility model, and Figure 10 is another implementation of the utility model The sectional view of the laminated mold construction 30 of example.As shown in Fig. 8 to Figure 10, the laminated mold construction 30 of the utility model it is upper Mould 300, lower die 302 and middle mould 303 can have various forms of designs according to practical application.In addition, according to Fig. 8 to Figure 10 Various forms of laminated mold constructions 30, one of upper mold 300 and middle mould 303 can have foregoing first to bear against Portion, and one of lower die 302 and middle mould 303 can have the second foregoing bearing and leaning portion so that two moulded glass 4 wherein it One bears against the first bearing and leaning portion, and the wherein another of two moulded glass 4 bears against the second bearing and leaning portion.In addition, upper mold 300 and middle mould One of 303 can have the first foregoing limiting section, and one of lower die 302 and middle mould 303 can have it is foregoing Second limiting section so that one of two moulded glass 4 of the first limiting section /V, and two moulded glass of the second limiting section /V 4 it is wherein another.
Please refer to Fig.1 the sectional view that 1, Figure 11 is the laminated mold construction 30 of another embodiment of the utility model.Such as figure Shown in 11, mould 303 during the utility model can set two between upper mold 300 and lower die 302.Whereby, laminated mold construction 30 Can one-pass molding three pieces moulded glass 4, so as to improve production capacity.
Therefore, according to preceding solution, the laminated mold construction and glass shaping equipment of the utility model are at least With following advantages and advantageous effect:Mould during the utility model sets at least one between upper mold and lower die, it is stacked to form Mould structure.It is formed with to accommodate at least two glass of at least two moulded glass between mould due to upper die and lower die and at least one Glass molding space, therefore, the laminated mold construction of the utility model can jointly be clamped using upper die and lower die with mould at least one At least two moulded glass and at least two moulded glass carry out it is hot-forming.Whereby, the laminated mold construction of the utility model Can one-pass molding at least two moulded glass, so as to improve production capacity.When the laminated mold construction shaping one with the utility model During the moulded glass of fixed number amount, the production time can effectively shorten and relatively save the energy.
In addition, the utility model is right from around laminated mold construction with infrared radiation using ring radiation heater Laminated mold construction is heated with moulded glass.Since heat caused by infrared radiation can be from laminated mold construction Surrounding is gradually transferred to the inside from laminated mold construction, therefore, during heating, around laminated mold construction Temperature can be higher than the internal temperature of laminated mold construction.When temperature around moulded glass reaches bendable pack temperature, mould The mid-plane area of glass is made compared with low temperature, the surface blemishes such as orange peel, mist line will not be generated due to overheat.Therefore, the utility model It can effectively ensure the surface quality after moulded glass shaping.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modifications, equivalent replacements and improvements are made should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of laminated mold construction, which is characterized in that the laminated mold construction includes:
Upper mold;
Lower die;And
Mould at least one is arranged between the upper mold and the lower die, at least two glass molding spaces be formed at the upper mold, In the lower die and described at least one between mould and accommodate at least two moulded glass;
Wherein, the upper mold, the lower die are at least two moulded glass described in the common clamping of mould in described at least one and to described At least two moulded glass carry out hot-forming.
2. laminated mold construction as described in claim 1, which is characterized in that the upper mold has the first molding structure, institute Lower die is stated with the second molding structure, mold has the 3rd molding structure and the 4th molding structure in described at least one, and described the One molding structure coordinates with the 3rd molding structure carries out hot-forming, institute to described at least one of two moulded glass The second molding structure is stated to be hot pressed into described the wherein another of at least two moulded glass with the 4th molding structure cooperation Type.
3. laminated mold construction as claimed in claim 2, which is characterized in that first molding structure and described the three one-tenth Type structure is the concaveconvex structure to cooperate, and second molding structure and the 4th molding structure are the recessed of mutual cooperation Male structure.
4. laminated mold construction as described in claim 1, which is characterized in that one of the upper mold and the middle mould With the first bearing and leaning portion, one of the lower die and the middle mould have the second bearing and leaning portion, at least two moulded glass One of bear against first bearing and leaning portion, and the wherein another of at least two moulded glass bears against described second and holds Relying part.
5. laminated mold construction as described in claim 1, which is characterized in that one of the upper mold and the middle mould With the first limiting section, one of the lower die and the middle mould have the second limiting section, the first limiting section /V Described at least one of two moulded glass, and at least two moulded glass described in the second limiting section /V is wherein another One.
6. a kind of glass shaping equipment, which is characterized in that the glass shaping equipment includes:
Laminated mold construction, mould including upper die and lower die and at least one, in described at least one mould be arranged at the upper mold with Between the lower die, at least two glass molding spaces be formed in the upper mold, the lower die and described at least one between mould and Accommodate at least two moulded glass;And
Ring radiation heater has annular-heating space;
Wherein, the laminated mold construction is arranged in the annular-heating space, and the ring radiation heater is with infrared Beta radiation carries out the laminated mold construction and at least two moulded glass from around the laminated mold construction Heating, in the upper mold, the lower die and described at least one mould clamp jointly described at least two moulded glass and to it is described at least Two moulded glass carry out hot-forming.
7. glass shaping equipment as claimed in claim 6, which is characterized in that the upper mold has the first molding structure, described Lower die has the second molding structure, and mold has the 3rd molding structure and the 4th molding structure in described at least one, and described first Molding structure and the 3rd molding structure cooperation are hot-forming to the progress of described at least one of two moulded glass, described Second molding structure coordinates wherein another progress at least two moulded glass hot-forming with the 4th molding structure.
8. glass shaping equipment as claimed in claim 7, which is characterized in that first molding structure and the described 3rd shaping Structure is the concaveconvex structure to cooperate, and second molding structure and the 4th molding structure are the bumps to cooperate Structure.
9. glass shaping equipment as claimed in claim 6, which is characterized in that one of the upper mold and the middle mould tool There is the first bearing and leaning portion, one of the lower die and the middle mould have the second bearing and leaning portion, at least two moulded glass One of them bears against first bearing and leaning portion, and the wherein another of at least two moulded glass bears against second breasting Portion.
10. glass shaping equipment as claimed in claim 6, which is characterized in that one of the upper mold and the middle mould With the first limiting section, one of the lower die and the middle mould have the second limiting section, the first limiting section /V Described at least one of two moulded glass, and at least two moulded glass described in the second limiting section /V is wherein another One.
CN201721208182.7U 2017-09-07 2017-09-20 Laminated mold construction and glass shaping equipment Expired - Fee Related CN207405073U (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US201762555052P true 2017-09-07 2017-09-07
US62/555,052 2017-09-07

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109366812A (en) * 2018-11-28 2019-02-22 北京航空航天大学 It is a kind of for processing the mold of seriation aircraft fuselage shell

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI406826B (en) * 2010-12-22 2013-09-01 Catcher Technology Co Ltd Method for manufacturing three-dimensional glass article
EP2958863B1 (en) * 2013-02-20 2018-09-26 Corning Incorporated Method and apparatus for forming shaped glass articles
CN206109195U (en) * 2016-10-18 2017-04-19 蓝思科技股份有限公司 Curved graphite three -plate mold utensil of 3D heat

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109366812A (en) * 2018-11-28 2019-02-22 北京航空航天大学 It is a kind of for processing the mold of seriation aircraft fuselage shell
CN109366812B (en) * 2018-11-28 2020-07-03 北京航空航天大学 Mold for processing serialized aircraft fuselage shell

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