CN207646073U - Transfer tool and 3D glass processing systems - Google Patents

Abstract

The utility model is related to a kind of transfer tool and 3D glass processing systems.The transfer tool includes adsorption plate and connector, and adsorption plate is in microcosmic porous structure, and adsorption plate has an adsorption plane, and the side far from adsorption plane is equipped with aspirating hole on adsorption plate, and aspirating hole is blind hole；Connector is equipped with connecting hole, and connector connect with adsorption plate and connecting hole is made to be connected with aspirating hole.Coordinate the microcosmic porous structure of adsorption plate using the aspirating hole of blind hole structure, which can be on the whole by being sucked by vacuum the transfer realized and glass is adsorbed on adsorption plane, and then realizes glass, and will not generate harmful effect to the surface of glass.When transfer tool is applied to 3D glass processings; it can realize preheating, molding and cooling settings into different beats; improve production efficiency; improve the surface quality of 3D glass; and without preheating and using the graphite jig for needing nitrogen protection in cooling step; energy consumption is saved, and reduces production cost.

Description

Transfer tool and 3D glass processing systems

Technical field

The utility model is related to 3D glass processings fields, more particularly to a kind of transfer tool and 3D glass processing systems.

Background technology

3D glass is widely used in various electronic equipments, such as mobile phone, wrist-watch, automobile data recorder, in terms of hand-set lid Even more have the tendency that gradually replacing metal cover board.

The equipment of processing 3D glass is mainly South Korea DTK formula 3D glass bending molding machines currently on the market.The equipment will be pre- Heat, molding and cooling three sections of stations are integrated in identical beat on same machine, and station number is generally 11~43 stations, Mei Gegong It is identical to stand to the processing time of glass, such as is 45s~120s.Process using the equipment processing and fabricating 3D glass is 2D glass is placed in graphite jig and continues through preheating, molding and cooling three sections of stations processing, i.e., by 2D glass bendings at 3D Glass.Place is had the following deficiencies using the equipment processing and fabricating 3D glass：

(1) due to being carried out continuously preheating, molding and cooling three kinds of different process using the same graphite jig, make Preheating, molding and cooling three processes are designed as identical beat (processing time is identical) by force, keep the forming process time longer, And the cooling procedure time is shorter.

(2) 2D glass and graphite jig need to be heated to 760 DEG C or so by warm from room temperature, and cooling procedure needs logical again 3D glass and graphite jig are down to room temperature by supercooled water, and this heating temperature-fall period is actually needed is glass, graphite jig The temperature changing process of heating, cooling belong to extra energy consumption.

(3) graphite jig consumption is big, and the price of graphite jig is of high cost generally at 2000~6000 yuan or so, uses Period is generally 2000~6000 times or so, and since graphite jig high temperature is easily aoxidized, needs nitrogen in pyroprocess always The protection of equal inert atmospheres causes every 3D glass to be required for increasing the fringe cost for preventing graphite jig high-temperature oxydation.

Utility model content

Based on this, it is necessary to which energy consumption can be reduced, save production cost and can realize in 3D glass processings by providing one kind The transfer tool and 3D glass processing systems that preheating, molding and cooling three processes are carried out with different beats.

A kind of transfer tool, including：

Adsorption plate, the adsorption plate are in microcosmic porous structure on the whole, and the adsorption plate has adsorption plane, the adsorption plate The upper side far from the adsorption plane is equipped with aspirating hole, and the aspirating hole is blind hole；

And connector, the connector are equipped with connecting hole, the connector connect with the adsorption plate and makes described Connecting hole is connected with the aspirating hole, and the connector is for connecting air extractor.

The transfer tool further includes conducting element in one of the embodiments, and the conducting element is equipped with diversion cavity, institute Conducting element is stated to be set between the connector and the adsorption plate and make the connecting hole, the diversion cavity and the aspirating hole phase Connection.

The transfer tool further includes sealing ring in one of the embodiments, and the sealing ring is around the conducting element Periphery is arranged, and the sealing ring is between the connector and the adsorption plate.

The adsorption plate is graphite cake in one of the embodiments,.

The aspirating hole has multiple in one of the embodiments, and multiple aspirating hole integrated distributions are in the absorption In the central region of plate, vacuum suction region is formed.

The bottom of the aspirating hole is 1~20mm at a distance from the adsorption plane in one of the embodiments,.

The connector is equipped with clamping portion in one of the embodiments, and the adsorption plate is set by the clamping portion card On the connector.

A kind of 3D glass processings system, including：

Preheating mechanism, the preheating mechanism include the first mold for placing 2D white glass and for described first The heating component of mold heating；

Shaping mechanism, it includes white for placing the 2D after preheating that the shaping mechanism, which has atmosphere chamber, the shaping mechanism, The second mold and hot pressing component of sheet glass, second mold are graphite jig, and the heating platen of the hot pressing component is set to institute It states on the second mold for making its molding to the 2D white glass heating pressurization after the preheating；

Cooling body, the cooling body include third mold for placing molding 3D glass and are used for the molding The continuous tunnel furnace formula annealing device annealed of 3D glass；The material of the third mold and/or first mold is non-stone Black material；And

Transfer tool described in any of the above-described embodiment, the transfer tool are driven mobile with by 2D by mobile drive deivce White glass shifted between first mold and second mold or by molding 3D glass in second mold and It is shifted between the third mold.

The 3D glass processings system further includes transmission mechanism in one of the embodiments, and the transmission mechanism includes Guide rail and load-bearing part, the load-bearing part is for placing first mold, the second mold or the third mold, the load-bearing part It can be slidably matched on the guide rail and with the guide rail to transmit first mold, the second mold or the third mould Tool.

First mold and the third mold are punching block in one of the embodiments,.

A kind of 3D glass processings method carries out 3D glass using the 3D glass processing systems described in any of the above-described embodiment and adds Work makes, and the 3D glass processings method includes the following steps：

2D white glass is provided；

The 2D white glass is placed in the first mold of preheating mechanism, 700 DEG C~1000 DEG C is heated to, is preheated 2D white glass afterwards；

The 2D white glass after the preheating is transferred in the second mold in shaping mechanism by transfer tool；

Second mold is placed in the atmosphere chamber of shaping mechanism again, nitrogen is persistently supplied to atmosphere intracavitary supply Gas, and by the heating platen in hot pressing component to the 2D white glass after the preheating carry out heating pressurization make its molding, obtain 3D glass after molding；

The 3D glass after molding is transferred to by the third mold in cooling body by the glass transfer tool again In；

By the third mold be transferred in continuous tunnel furnace formula annealing device anneal to get.

Above-mentioned transfer tool includes adsorption plate and connector, and wherein adsorption plate is in microcosmic porous structure, adsorption plate on the whole With adsorption plane, the side far from adsorption plane is equipped with aspirating hole on adsorption plate, and aspirating hole is blind hole, and connector is equipped with connection Hole, connector connect with adsorption plate and connecting hole are made to be connected with aspirating hole to form bleed-off passage.Above-mentioned transfer tool uses The microcosmic porous structure of the aspirating hole cooperation adsorption plate of blind hole structure can be realized by being sucked by vacuum by glass waiting turn on the whole It moves part to be adsorbed on adsorption plane, and then realizes that glass waits for the transfer of adsorption piece.Simultaneously because aspirating hole is non-through duct Structure, when the glass of absorbing high temp waits for transfer member, adsorption plane is not due to having pore structure that would not wait for transfer member to glass Surface generate harmful effect.Preheating, molding and cooling three sections of stations are integrated in same machine with identical beat with existing Device carries out 3D glass quantity-produced processes and compares, and is applied during the production and processing of 3D glass when by above-mentioned transfer tool When, it has the advantages that on the whole：

(1) preheating, molding and cooling three processes can be arranged to different beats (processing time is different) and carries out serialization Production improves production efficiency.

(2) it is not necessarily to significantly reduce production using the graphite jig for needing nitrogen protection in preheating and cooling two processes Cost.

(3) it while can make the mold in preheating procedure that higher temperature be maintained to preheat 2D white glass always, make molding 2D white glass after graphite jig in process maintains constant temperature to make preheating always is molded, and the mold in cooling section is made to tie up always It holds lower temperature and continuous Slow cooling is carried out to 3D glass after molding, generally significantly save energy consumption, and improve 3D glass Surface quality.

Above-mentioned 3D glass processings system passes through setting and the matched preheating mechanism of above-mentioned transfer tool, shaping mechanism and cold But mechanism can be realized on the whole when carrying out 3D glass processings using above-mentioned 3D glass processings system by preheating, molding and cold But three processes carry out continuous production with different beats (processing time is different), can improve production efficiency, and can avoid The defects of scald of 3D glass, gross distortion, the surface quality of 3D glass is improved, while the first mold, the second mold can be improved And the utilization rate of third mold, and energy consumption is generally significantly saved, and reduce production cost.

Description of the drawings

Fig. 1 is the structural schematic diagram of the transfer tool of an embodiment；

Fig. 2 is the structural schematic diagram of the adsorption plate of the transfer tool in Fig. 1；

Fig. 3 is the connector and the matched structural schematic diagram of conducting element of the transfer tool in Fig. 1；

Fig. 4 is the structural schematic diagram at another visual angle of the connector of the transfer tool in Fig. 1.

Specific implementation mode

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can in many different forms come in fact It is existing, however it is not limited to embodiment described herein.Make public affairs to the utility model on the contrary, purpose of providing these embodiments is The understanding for opening content is more thorough and comprehensive.

It should be noted that when element is referred to as " being fixedly arranged on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with the technology for belonging to the utility model The normally understood meaning of technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein "and/or" includes Any and all combinations of one or more relevant Listed Items.

The 3D glass processing systems of one embodiment, including preheating mechanism, shaping mechanism, cooling body, transfer tool 100, mobile drive deivce and transmission mechanism.

In the present embodiment, preheating mechanism includes the first mold for placing 2D white glass and for the first mould Tool or the heating component that directly 2D white glass is heated.

First mold is preferably punching block, can bear 700 DEG C~1000 DEG C or more of temperature, to preheat 2D white glass. The shape of first mold can be configured according to the formation of 2D white glass and size needs.In other embodiments, first The material of mold is the non-graphite material without its gas shield of the inertia such as nitrogen, can bear 700~1000 DEG C or more High temperature, with save to the energy consumption in 2D white glass warms, it is cost-effective.

Heating component includes temperature sensor and the controller and heating rod that are connect respectively with temperature sensor.By right Heating rod energization is realized is preheated to 700 DEG C~1000 DEG C, such as 760 DEG C, 820 DEG C or 930 DEG C etc., heating speed by 2D white glass Degree is fast, and convenient for regulation and control.In other embodiments, heating rod can also use the electric currents heating members such as heating plate.In addition, preheating The mode of heating of mechanism is not limited to electrical conduction heating, can also pass through the mode of heatings such as infra-red radiation.

In the present embodiment, shaping mechanism has an atmosphere chamber for filling inert gas, and shaping mechanism further includes the Two molds and hot pressing component.

Second mold is graphite jig.Second mold includes upper mold and lower mold, in order to which transfer tool 100 is in high temperature Under the conditions of (for example, 700 DEG C or more) place preheating after 2D white glass, and in order to using transfer tool 100 in high temperature item 3D glass after molding is removed under part.

In present embodiment, in the forming process of 3D glass, atmosphere chamber be can be filled with nitrogen sealing system with Prevent the second mold from aoxidizing in the high temperature environment.In other embodiments, shaping mechanism, which is additionally provided with, is connected with atmosphere chamber Entrance and air exit are inflated, so that the inert gases such as nitrogen is continuously inputted atmosphere intracavitary, to prevent the second mold in hot environment Middle oxidation, and improve safety.

Hot pressing component include heating platen and for make heating platen connect electricity conducting wire.Heating platen is fixedly arranged on the upper of the second mold On mold, so that heating platen and upper mold are mobile simultaneously, convenient for placing and removing glass.After heating platen is by being powered to preheating The heating of 2D white glass makes it maintain hot-forming required temperature, by 2D white glass hot bending at 3D glass.

In the present embodiment, cooling body includes third mold for placing molding 3D glass and for molding The continuous tunnel furnace formula annealing device that 3D glass is annealed.

Third mold is preferably punching block, with the 3D glass after cooling and shaping.In other embodiments, the material of third mold Matter is the non-graphite material without its gas shield of the inertia such as nitrogen, cost-effective to save energy consumption.

The continuous Slow cooling of 3D glass after molding that continuous tunnel furnace formula annealing device is used to be placed on third mold improves The defects of surface property of 3D glass, reduction glass deformation.

Incorporated by reference to Fig. 1 and Fig. 2, in the present embodiment, transfer tool 100 includes adsorption plate 110 and connector 120.

Adsorption plate 110 is in microcosmic porous structure on the whole.Adsorption plate 110 has adsorption plane, far from absorption on adsorption plate 110 The side in face is equipped with aspirating hole 111, and aspirating hole 111 is blind hole.Preferably, adsorption plate 110 is graphite cake.In other embodiment In, it is in microcosmic porous material that adsorption plate 110, which can also use, and the parameters such as porosity and apparent density can be adjusted to meet To the adsorption of glass, but the quality of glass surface is not influenced.

In addition, when being used for the transfer tool 100 to adsorb the smaller object of the quality such as simple glass, and the hole of adsorption plane Will not be in the influences such as output hole print on the object, which can open up without blind hole as through-hole.

Preferably, aspirating hole 111 has multiple, 111 integrated distribution of multiple aspirating holes in the central region of adsorption plate 110, Vacuum suction region is formed, the suction force to glass is improved.

Preferably, the bottom of aspirating hole 111 at a distance from adsorption plane be 1~20mm, such as can be 2mm, 5mm, 8mm, 10mm, 12mm or 15mm etc..Coordinate adjustment to ensure adsorption plate open up depth, aperture and the number three of aspirating hole 111 Adsorption plane to glass have stronger adsorption capacity, realize the absorption and transfer of glass.

In the present embodiment, the shape of adsorption plate 110 is cuboid.In other embodiments, adsorption plate 110 Shape may be oblate cylindricality etc., while being sucked by vacuum region and can be rectangle or circle etc., as long as ensureing adsorption plate 110 Adsorption plane waits for transfer member to have suitable suction force in glass.

Please further combined with Fig. 3 and Fig. 4, connector 120 is equipped with connecting hole 121, and connector 120 connects with adsorption plate 110 It connects and connecting hole 121 is made to be connected with aspirating hole 111, connector 120 is used to connect the pumpings such as vacuum pump by pump-line 130 Device.Pump-line 130 can be fixed on connector 120 by flange 140 and be connected to connecting hole 121.Connector 120 is equipped with more A clamping portion 122, adsorption plate 110 are fastened on by multiple clamping portions 122 on connector 120.

It is appreciated that in other embodiments, connector 120 can be not necessarily to be arranged to clamping engagement structure, can directly lead to It crosses bonding or threaded connection etc. adsorption plate 110 is fixed on connector 120.Meanwhile the shape of connector 120 can also be rectangular Body, cylinder etc..In addition, supporting rod can also be arranged on connector 120, connector 120 is driven with mobile by supporting rod Device is connected to drive moving up and down for entire transfer tool 100.

A more step, connector 120 can coat adsorption plate 110, only expose the adsorption plane of adsorption plate 110, further The high-temperature oxydation of the adsorption plate 110 of graphite material is prevented, service life is improved.

Further, the transfer tool 100 of present embodiment further includes conducting element 150.Conducting element 150 can seal vacuum Suction areas.Conducting element 150 is equipped with for the diversion cavity 151 to gas flow guiding in aspirating hole 111.Conducting element 150, which is set to, to be connected Between fitting 120 and adsorption plate 110 and connecting hole 121, diversion cavity 151 is made to be connected with aspirating hole 111.In other embodiment In, connector 120 and conducting element 150 can be integrated.In addition, conducting element 150 can also omit, as long as connector 120 The aspirating hole 111 in vacuum suction region of connecting hole 121 and adsorption plate 110 form sealing connected system.

Further, the transfer tool 100 of present embodiment further includes heat safe sealing ring 160.Sealing ring is around water conservancy diversion The periphery of part 150 is arranged, and sealing ring 160 is between connector 120 and adsorption plate 110, logical to being evacuated to further increase The sealing function of road system.

Transfer tool 100 can be led on the whole using the microcosmic porous structure of the aspirating hole cooperation adsorption plate 110 of blind hole structure Vacuum suction realization is crossed to be adsorbed on glass on the adsorption plane of adsorption plate 110.It is tied simultaneously because aspirating hole is non-through duct Structure, when the glass of absorbing high temp waits for transfer member, adsorption plane is not due to having cavernous structure that would not wait for transfer member to glass Surface have an impact.Transfer tool 100 can be driven by mobile drive deivce it is mobile with by 2D white glass in the first mold And second shift between mold or shift molding 3D glass between the second mold and third mold.Namely transfer tool 100 are effectively equivalent to a handgrip for shifting glass, are resistant to high temperature on the whole, and strong with higher support Degree, and harmful effect is not generated to the surface of 3D glass.

Further, the 3D glass processing systems of present embodiment further include transmission mechanism.Transmission mechanism include guide rail and Load-bearing part.Load-bearing part is set on guide rail for placing the first mold, the second mold or third mold, load-bearing part and can be with guide rail It is slidably matched to transmit the first mold, the second mold or third mold to the lower section of transfer tool 100, convenient for glass in different moulds It is shifted between tool.Load-bearing part is preferably connect with load-bearing part driving device, is easy to implement automation control.In other embodiment In, transmission mechanism can also use the matched transmission systems such as conveyer belt and driving device.

Adsorption plate 110 is coordinated using aspirating hole due to transfer tool 100 in the 3D glass processing systems of the utility model Microcosmic porous structure can realize that is glass is adsorbed on adsorption plane, and then realizes glass etc. turns by being sucked by vacuum on the whole It moves, to realize that the process treatment process of preheating mechanism, shaping mechanism and cooling body can in 3D glass continuous production processes With different beats (processing time is different) individually control, three technical process is made separately to carry out.

Preheating, molding and cooling three sections of stations are integrated in same machine progress 3D glass with identical beat with existing Quantity-produced process is compared, and 3D glass can be avoided due to molding time mistake using the 3D glass processings system of the utility model Caused by long the defects of scald, avoiding the occurrence of leads to 3D glass gross distortions since cooling time is too short, so as to Improve the surface quality of 3D glass, reduce the time for the post-processings such as clearing off, reduces the difficulty and cost of follow-up cooling processing, it is overall On production efficiency can be improved.

In addition, when the 3D glass processing systems using the utility model carry out 3D glass processings, preheating and cooling two works Without the graphite jig of nitrogen protection is needed in sequence, using solid heat safe punching block, production cost is significantly reduced； It can make the mold in preheating procedure that higher temperature be maintained to preheat 2D white glass always simultaneously, make the stone in molding procedure 2D white glass after black mold maintains constant temperature to make preheating always is molded, and the mold in cooling section is made to maintain lower temperature always Degree carries out continuous Slow cooling to 3D glass after molding, generally significantly saves energy consumption, and improve the surface quality of 3D glass, The service efficiency of each mold can be improved simultaneously.

A kind of 3D glass processing systems using present embodiment carry out the 3D glass processing methods of 3D glass productions, including Following steps：

S1 provides 2D white glass.

S2, preheating：

2D white glass is placed in the first mold of preheating mechanism, is heated to 2D white glass by heating component 700 DEG C~1000 DEG C, the 2D white glass after being preheated.

S3, the 2D white glass after transfer preheating：

First mold is transferred to the operating space of 100 lower section of transfer tool by transmission mechanism, opens air extractor, makes to turn The 2D white glass after the absorption preheating of adsorption plate 110 of jig 100 is moved, is lifted transfer tool 100, then by the in shaping mechanism The lower mold of two molds is transferred to the operating space of 100 lower section of transfer tool, after being preheated by machinery contraposition or CCD optical registrations 2D white glass be placed in the lower mold of the second mold, close air extractor.It again will be under the second mold by transmission mechanism Mold is transferred to atmosphere intracavitary, and by the upper mold of the second mold and lower mold clamping.

S4, molding：

Nitrogen is filled to atmosphere intracavitary, the 2D white glass after preheating is heated by the heating platen in hot pressing component Pressurization makes its molding, obtains 3D glass after molding.

S5, the 3D glass after transfer formation：

Second mold is removed into atmosphere chamber, opens the upper mold of the second mold, then will be equipped under 3D glass after molding Mold is transferred to the operating space of the lower section of transfer tool 100.Air extractor is opened, transfer tool 100 draws 3D glass after molding Glass and by itself and lower mould separating, is lifted transfer tool 100, then the third mold in cooling body is transferred to transfer tool The operating space of 100 lower sections makes 3D glass after molding be positioned in third mold, closes by machinery contraposition or CCD optical registrations Close air extractor.Third mold is transferred in continuous tunnel furnace formula annealing device by transmission mechanism again.

S6, it is cooling：

Open continuous tunnel furnace formula annealing device, so that the 3D glass after third die for molding is continuously slowly annealed to get.

In the 3D glass processing methods, the transfer of preheating, molding and cooling three processes by transfer tool 100 to glass Process separately carries out, and can accelerate molding rate according to demand, slows down cooling rate, realizes 3D glass continuously and Slow cooling, Production efficiency, and the rate cooperation by that will preheat, and be molded and cool down are improved, can get have excellent surface quality on the whole 3D glass.Preheating and cooling process use cost are relatively low simultaneously and are not necessarily to the non-graphite mold of gas shield, on the whole can Reduce fringe cost.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (9)

1. a kind of transfer tool, which is characterized in that including：

Adsorption plate, the adsorption plate are in microcosmic porous structure on the whole, and the adsorption plate has adsorption plane, remote on the adsorption plate Side from the adsorption plane is equipped with aspirating hole, and the aspirating hole is blind hole；

And connector, the connector are equipped with connecting hole, the connector connect with the adsorption plate and makes the connection Hole is connected with the aspirating hole, and the connector is for connecting air extractor.

2. transfer tool according to claim 1, which is characterized in that further include conducting element, the conducting element is equipped with and leads Chamber is flowed, the conducting element is set between the connector and the adsorption plate and makes the connecting hole, the diversion cavity and described Aspirating hole is connected.

3. transfer tool according to claim 2, which is characterized in that further include sealing ring, the sealing ring is led around described The periphery setting of part is flowed, and the sealing ring is between the connector and the adsorption plate.

4. transfer tool according to any one of claims 1 to 3, which is characterized in that the adsorption plate is graphite cake.

5. transfer tool according to claim 4, which is characterized in that the aspirating hole has multiple, multiple aspirating holes Integrated distribution forms vacuum suction region in the central region of the adsorption plate.

6. transfer tool according to claim 5, which is characterized in that the bottom of the aspirating hole and the adsorption plane away from From for 1~20mm.

7. transfer tool according to any one of claims 1 to 3, which is characterized in that the connector is equipped with clamping portion, institute Adsorption plate is stated to be fastened on the connector by the clamping portion.

8. a kind of 3D glass processings system, which is characterized in that including：

Preheating mechanism, the preheating mechanism include the first mold for placing 2D white glass and for first mold The heating component of heating；

Shaping mechanism, it includes for placing the 2D white glasses after preheating that the shaping mechanism, which has atmosphere chamber, the shaping mechanism, The second mold and hot pressing component of glass, second mold are graphite jig, and the heating platen of the hot pressing component is set to described the For making its molding to the 2D white glass heating pressurization after the preheating on two molds；

Cooling body, the cooling body include third mold for placing molding 3D glass and are used for the molding 3D The continuous tunnel furnace formula annealing device that glass is annealed；The material of the third mold and/or first mold is non-graphite material Matter；And

Claim 1 to 7 any one of them transfer tool, the transfer tool are driven mobile with by 2D by mobile drive deivce White glass shifted between first mold and second mold or by molding 3D glass in second mold and It is shifted between the third mold.

9. 3D glass processings system according to claim 8, which is characterized in that further include transmission mechanism, the conveyer Structure includes guide rail and load-bearing part, and the load-bearing part is described for placing first mold, the second mold or the third mold Load-bearing part is set on the guide rail and can be slidably matched with the guide rail to transmit first mold, the second mold or described Third mold.