CN104556644B - Molding device of glass molding articles - Google Patents

Abstract

The invention relates to a molding device of glass molding articles. More specifically, the molding device of the glass molding articles comprises a pre-heating mechanism contacted with a mold body in a non-load state for pre-heating, a discharge cooling line provided with a cooling water line is formed at an outlet side of a molding chamber, the cooling time in the molding chamber is shortened, the whole molding period time of glass with a curved surface portion is further shortened, a plurality of suction holes into which vacuum pressure flows are formed at the bottom of a lower mold of the mold body, vacuum pressure absorption materials flowing into the suction holes are employed during molding motions, the glass with the excellent curved surface portion is molded, an inlet side of the molding chamber is provided with a vacuum mechanism for vacuum treatment of the mold body, and the molding device can be applied to the molding of infrared glass optical lenses.

Description

Glass products formed shaped device

Technical field

The present invention relates to a kind of glass products formed shaped device, more specifically, the glass products formed shaped device includes The preheating mechanism preheated in the state of mold is contacted with no load condition, is formed in the outlet side of forming room and is possessed cooling The discharge cooling line of waterline and shorten shaping indoor cool time, so as to further shorten the glass or glass that possess curved face part The global formation cycle time of eyeglass, moreover it is possible to which install in the entrance side of forming room carries out vacuum treated vacuum mechanism to mold And be able to be applied to the molding applications of infrared transmitting glass eyeglass.

Background technology

Glass products formed generally with glass lens (glass lens) and possesses the glass of curved face part as its typical case.

Eyeglass is installed in the various cameras of infrared transmitting glass eyeglass, camera lens etc, the glass mesh for possessing curved face part Before be mainly used in the screen glass (window glass) or bonnet (back cover) of the portable terminals such as smart mobile phone.

The prior art for possessing the device for shaping glass of curved face part has Republic of Korea's registered patent the 10-1121449th.

Prior art is divided into forward and backward two parts the top of pedestal, handle is formed with front of pedestal top and is put into The heater wire (line) that the mold of plate morphology material was slowly transferred and was heated to high temperature and bends material, on pedestal top Rear be formed with the mold cooling line slowly transferring and cool down allowed through heating, the end of heater wire be formed with order to The connecting line (line) for being transplanted on cooling line and connecting by the mold of heater wire, it is formed with heater wire and is filled with nitrogen The chamber of gas, also includes：

Preheating mechanism, with the mold indirectly heat that contactless state is supplied to successively transfer mechanism heater wire；

Shaping mechanism, so that contact condition is directly heated to the mold through preheating by the material inside mold in addition Bending；

Transfer mechanism, transfers while heater wire, connecting line, cooling line are supplied to successively mold.

But, the preheating upper heater that preheating mechanism is constituted in prior art is preheated in the state of mold is not in contact with And cause heat conduction efficiency low, it is impossible to allow mold rapidly to rise to required preheating temperature, be formed mechanism heats Mold to high temperature aftershaping is then discharged into cooling line and cools down so that what is be molded by drastically changing for temperature possesses Continually there is disrepair phenomenon in the glass of curved face part, and when having elongated the global formation cycle of the glass for possessing curved face part Between.

The content of the invention

The technical task of solution

In order to solve the above problems, it is an object of the invention to provide a kind of glass products formed shaped device, including with without negative The preheating mechanism preheated in the state of lotus state contacts mold, forms in the outlet side of forming room and possesses cooling water line Discharge cooling line and shorten shaping indoor cool time, so as to further shorten the glass that possesses curved face part or glass lens Global formation cycle time, moreover it is possible to vacuum treated vacuum mechanism is carried out to mold in the entrance side installation of forming room and is able to It is applied to the molding applications of infrared transmitting glass eyeglass.

Solve the technical scheme of problem

In order to achieve the above object, it is of the invention in the top installation forming room 3 of pedestal 1, by the mold of input material 102 201 molds 200 constituted with lower mould 203 are then shifted into the forming room 3, the side of forming room 3 be formed with for Mold 200 is put into into the input chamber 2 inside forming room 3, the opposite side of forming room 3 be formed with for will pass through into The discharge chamber 4 that mold 200 inside type room 3 is discharged,

Then install inside forming room 3：Preheating mechanism 10, mold 200 preheating temperature is heated to；

Shaping mechanism 30, is heated to forming temperature and pressurizes so that material 102 is shaped to possess the mold 200 of preheating The glass or glass lens of curved face part；

Cooling body 40, the mold 200 for having passed through shaping mechanism 30 is slowly cooled down.

Beneficial effect

The present invention includes contacting the preheating mechanism preheated in the state of mold with no load condition, in forming room Outlet side is formed to be possessed the discharging cooling line of cooling water line and shortens shaping indoor cool time, is possessed so as to further shorten The glass of curved face part or the global formation cycle time of glass lens, moreover it is possible to which install in the entrance side of forming room is carried out to mold Vacuum treated vacuum mechanism and be able to be applied to the molding applications of infrared transmitting glass eyeglass.

Description of the drawings

Fig. 1 is the portable terminal figure for being suitable for the glass for possessing curved face part.

Fig. 2 a, 2b are the figures of mould therefor body of the present invention.

Fig. 3 is the front view of the glass products formed shaped device of the present invention.

Fig. 4 is the top view of the glass products formed shaped device of the present invention.

Fig. 5 applies to the figure of the first embodiment of the preheating mechanism of the present invention.

Fig. 6 a, 6b, 6c apply to the figure of the second embodiment of the preheating mechanism of the present invention.

Fig. 7 is the shaped device diagrammatic illustration of the second embodiment for being suitable for preheating mechanism.

Fig. 8 applies to the figure of the operating state of the mould transfer mechanism of the present invention with Fig. 9 a, 9b.

Figure 10 is the enforcement state diagrammatic illustration of huge profit absorption affinity of the present invention.

Figure 11 is the figure of another embodiment of the present invention.

Figure 12 and Figure 13 is the figure of the variant embodiment of the present invention.

<The explanation of main graphical mark>

Specific embodiment

Presently preferred embodiments of the present invention is described in detail with reference to Fig. 1 to Figure 13.

It is of the invention in the top installation forming room 3 of pedestal 1 according to above-mentioned accompanying drawing, by the mold 201 of input material 102 The mold 200 constituted with lower mould 203 is then shifted into the forming room 3, is formed with for by mould in the side of forming room 3 Input chamber 2 inside concrete 200 input forming room 3, forms in the opposite side of forming room 3 and is used for that forming room 3 will have been passed through The discharge chamber 4 that internal mold 200 is discharged,

Then install inside forming room 3：Preheating mechanism 10, mold 200 preheating temperature is heated to；Shaping mechanism 30, The mold 200 of preheating is heated to forming temperature and is pressurizeed so that material 102 is shaped to glass or the glass for possessing curved face part Eyeglass；Cooling body 40, the mold 200 for having passed through shaping mechanism 30 is slowly cooled down.

When with the present invention material of plate morphology is bent, as shown in figures 2 a and 2b, mold 200 is by mold 201 are constituted with lower mould 203, and the bottom surface of mold 201 forms projecting surface 202 and recessed face is then formed at the top of lower mould 203 204。

Therefore, in the state of the material 102 in plate morphology is put between mold 201 and lower mould 203, in high temperature Environment pressurization can just allow material 102 to be shaped to bend into form, that is, be shaped to bend (bending) form.

And, multiple inlet holes 205 are formed on the bottom of lower mould 203, and mold 200 is formed when mechanism is molded by upper State inlet hole 205 flow into vacuum pressure and so that the crooked position of material 102 is close to completely the bottom surface of lower mould 203, so as to be able to It is shaped to the glass for possessing high-quality curved face part.

And, during using formed glass eyeglass of the present invention, it is allowed to the material input mold 201 of spherical state and lower mould In 203, mold 201 is preferable with the interior groove for then forming glass lens shape of lower mould 203.

The present invention relates to a kind of shaped device for carrying out glass shaping, it can be with formed glass bending, glass lens etc Various glass products, below illustrate its action when by for plate morphology the material person of being curved as a example by illustrate.

Input chamber 2 is formed in the entrance side of forming room 3 and outlet side then forms discharge chamber 4, input chamber 2 Outside be mounted with for the mold 200 in the input chamber 2 to put into input cylinder 5 inside forming room 3, input chamber Rise and open door when input mold 200 is then defined between 2 and forming room 3.

And, the outside of discharge chamber 4 is mounted with the row of moving to of mold 200 of the end in forming room 3 Put with the taking-up cylinder 6 inside chamber 4, take out bar 7 then to fallWord shape install, the taking-up bar 7 be removed cylinder 6 drive and Move and order about mold 200 and move in left and right direction.

Above-mentioned taking-up bar 7 in a little higher than mold 200 position and take out bar 7 with taking-up cylinder 6 it is (not shown) Up and down cylinder orders about and allows in the state of declining and take out cylinder 6 and start and cause to take out bar 7 towards the left side movement on figure by mould Body 200 moves to discharge chamber 4.

On the other hand, preheating mechanism 10 of the invention can be distinguished as follows：With no load condition in contact mold 200 The first embodiment preheated in the state of upper side；Using IR lamps 25 or the second embodiment of Frequency multiplier 24.

As shown in figure 5, the preheating mechanism 10 of first embodiment installs multiple preheating lower heaters in the bottom surface of forming room 3 14, then install on the positive top of preheating lower heater 14 and preheating is ordered about with the air pressure of lower circuit 16 according to circuit in inflow 15 Multiple preheating cylinders 11 that piston 12 is moved up and down, in the end of preheating piston 12 preheating upper heater 13 is installed, and the preheating is used Upper heater 13 is heated in the state of the upper side contact with the mold 200 being placed in preheating lower heater 14,

Air pump 17 is connected to circuit 15 and lower circuit 16, the air pump 17 will correspond to be applied in preheating action The compensation pressure of the loading of preheating cylinder 11 is supplied to lower circuit 16, upper circuit 15 then will be greater than compensation press and allow preheating use plus Hot device 13 is supplied to upper circuit 15 with the air pressure that no load condition contacts the top of mold 200.

By air pressure operation cylinder be generally configured with towards order about piston decline direction supply air pressure upper circuit 15 and The lower circuit 16 of air pressure is supplied towards the direction for ordering about piston rising, so as to according to the sky for being supplied to upper circuit 15 or lower circuit 16 Air pressure orders about piston and moves up and down.

Mold 200 is heated to preheating temperature by preheating mechanism 10, if pre- in order to allow mold 200 to rise to quickly Hot temperature and allow preheating upper heater 13 contact mold 200, it is possible to the material 102 of plate morphology can occur accidentally by lotus The damaged phenomenon of weight.

In order to solve the problem, the present invention is connected to upper circuit 15 and lower circuit 16 air pump 17, and the air pump 17 exists The compensation pressure of the loading that will correspond to be applied to preheating cylinder 11 during preheating action is supplied to lower circuit 16, then will be big to upper circuit 15 Press and allow preheating upper heater 13 to be supplied to the air pressure that no load condition contacts the top of mold 200 in compensation and reach the standard grade Road 15, even if so as to the top that preheating upper heater 13 contacts mold 200 also will not apply any lotus to mold 200 Weight.

That is, allow the air pressure that compensation pressure is supplied to circuit 15 corresponding to the loading and allowing of preheating upper heater 13 then Fine more than compensation pressure, even if therefore the upper side of the contact mold 200 of preheating upper heater 13 that declines can also allow lotus Weight is almost not applied to mold 200, whereby allows the heat of preheating upper heater 13 to be conducted in the state of contact mold 200 And it is able to quickly preheated mold body 200.

On the other hand, need to order about on preheating upper heater 13 in order to mold 200 is moved to into next position When rising, downward circuit 16 supplies higher air pressure and just can be achieved with rising.

On the other hand, the preheating mechanism 10 of second embodiment installs multiple preheating lower heaters in the bottom surface of forming room 3 14, then install on the positive top of preheating lower heater 14 and preheating is ordered about with the air pressure of lower circuit 16 according to circuit in inflow 15 Multiple preheating cylinders 11 that piston 12 is moved up and down, combine the preheating lid 23 of dome form, in preheating in the end of preheating piston 12 Multiple IR lamps 25 that the inner side of lid 23 is installed as shown in Figure 6 a oriented mold infra-red-emitting and preheated.

Using the preheating mechanism 10 of IR lamps 25 as shown in figure in the state of preheating lid 23 covers the top of mold 200 Mold 200 is heated to preheating temperature by the infrared ray irradiated by IR lamps 25.

Furthermore, it is possible to install oriented mold generation high frequency in the inner side of preheating lid 23 as shown in Figure 6 b and preheated Frequency multiplier 26.

The reflecting surface 24 that reflects light or high frequency towards mold 200 is formed with the inner peripheral surface of above-mentioned preheating lid 23 and be able to Quickly mold 200 is heated.

And, Fig. 6 c illustrate the embodiment at one stroke preheating multiple molds 200 using a preheating lid 23.

On the other hand, is provided with the rear end of preheating mechanism 10 and mold 200 is heated to forming temperature and is press-formed Shaping mechanism,

Above-mentioned shaping mechanism 30 with positioned at preheating with the rear end of lower heater 14 the bottom surface of forming room 3 install it is multiple into Type lower heater 33, is erected to multiple moulding cylinders 31 that shaping piston 32 is moved up and down inside forming room 3 and is arranged on into The top of type room 3, in the above-mentioned connecting shaping of shaping piston 32 upper heater 34, in shaping upper heater 34 and has passed through pre- Forming temperature is heated in the state of the upper contact of the mold 200 of heat engine structure 10.

And, the rear end of shaping mechanism 30 be provided with the mold 200 for being heated to forming temperature cooled down it is cold But mechanism 40,

Above-mentioned cooling body 40 in the bottom surface of forming room 3 with the rear end of lower heater 34 positioned at shaping installing multiple cold But lower heater 43 is used, multiple cooling cylinders 41 that cooling piston 42 is moved up and down inside forming room 3 is erected to and is arranged on into The top of type room 3, in above-mentioned cooling piston 42 cooling upper heater 44 is combined, and allows cooling lower heater 43 to use with cooling Heater 44 less than the heating of the temperature of forming temperature in cooling upper heater 44 and having passed through the mould of shaping mechanism 30 Mold 200 is cooled down in the state of the upper contact of body 200.

On the other hand, the present invention as illustrated in fig. 8 discharge with the outlet side of chamber 4 according in the front of pedestal 1 towards input The mode rolled over the lateral bending of chamber 2 forms discharge cooling line 50, and in being internally formed for the discharge cooling line 50 cooling water circulation is allowed Cooling water line 51 and mold 200 is quickly cooled down.

The part bent in discharge cooling line 50 is provided with and changes the pushing away cylinder 52 of direct of travel of mold 200 and rely on This pushes away cylinder 52 allows mold 200 to be shifted into the bending part of discharge cooling line 50.

The mold for being cooled to uniform temperature by cooling body 40 after shaping in forming room 3 is forced to be discharged into discharge use Chamber 4, is then discharged into discharge cooling line 50 by the bleed piston 9 for discharging cylinder 8, in the process of the discharge transfer of cooling line 50 In due to along be formed at discharge cooling line 50 inside cooling water line 51 circulation cooling water and so that mold 200 cooling Speed further speeds up.

Global formation cycle time is reduced due to the cool time in forming room 3 can be shortened by the effect.

On the other hand, the present invention is constituting the central portion of the shaping with lower heater 33 of shaping mechanism 30 as illustrated in fig. 10 The vacuum hole 206 for introducing vacuum pressure is formed, in the bottom of lower mould 203 of above-mentioned mold 200 multiple inlet holes 205 are formed, During shaping by feat of the vacuum pressure for being introduced into inlet hole 205 make material 102 adsorbed and so that material 102 bends.

Vacuum pressure can be introduced from vavuum pump (not shown), and when carrying out forming action as previously shown, vacuum pressure is introduced into The inlet hole 205 of lower mould 203 will allow the crooked position for putting into the material 102 in mold 200 complete by the absorption of vacuum pressure The bottom surface of lower mould 203 is close to entirely and bending is realized, so as to the quality for being able to expect to greatly improve brake forming product.

Foregoing vacuum hole 206 can be also formed in the cooling lower heater 43 of cooling body 40 and be able to cold But process is persistently adsorbed the crooked position of material and is bent.

And, present invention additionally comprises have that mold 200 is transplanted on successively preheating mechanism 10, forming machine in forming room 3 The mould transfer mechanism 60 of structure 30, cooling body 40,

Above-mentioned mould transfer mechanism 60 includes：Supporting member 71, the side of support mode body 200 when transferring mould；Transfer Component 61, outlet side is transplanted on successively mold 200 from the entrance side of forming room 3, and the side of the mold 200 is supported structure Part 71 is supported.

Supporting member 71 includes：Rotary shaft 73, to install through the front of forming room 4 downside；Rotary driving part 72, peace The outside of forming room 4 is mounted in, rotary shaft 73 is ordered about when mold is transferred towards the inner side rotation of forming room 4；Support bar 74, is arranged on The outside of rotary shaft 73, rotates and abuts the side of mold 200 and support；

Transferring members 61 are provided with the take-off plate moved to left and right direction by the first actuator 66 at the rear of forming room 3 65, shifting rod 62 is alongst formed with the Internal back end of forming room 3, it is each that the shifting rod 62 has been protrudedly formed insertion Stop part 63 between mold 200, installs the second actuator 64 in take-off plate 65, and second actuator 64 orders about above-mentioned shifting Bar 62 is sent to start in fore-and-aft direction.

When needing the transfer mold 200 in the forming room 3, the rotary driving part 72 of supporting member 71 carry out spinning movement and Order about support bar 74 as illustrated in fig. 9 to rotate in a direction, so as to allow the front of the support mode body 200 of support bar 74, then Second actuator 64 of transferring members 61 carries out forward motion and orders about shifting rod 62 and advance, so as to allow stop part 63 as Fig. 8 with Insert between each mold 200 shown in Fig. 9 b, in this condition the first actuator 66 carries out forward motion and orders about take-off plate 65 advance, so as to move to the next position with allowing the lattice of 200 1 lattice of mold one.

On the other hand, Figure 11 is the figure of another embodiment of the present invention, and load/unload is pacified with robot device 300 It is mounted in forming room 3 and is able in forming room 3 carry out the loading and unloading of mold 200 by robot device 300, so as to Mold 200 can be allowed molding cycles to be repeated at high operating temperatures and mold 200 is rapidly heated to shaping temperature Degree.

Another embodiment of the present invention in the top installation forming room 3 of pedestal 1, by the upper of input plate glass material 102 The mold 200 that mould 201 is constituted with lower mould 203 is then shifted into the forming room 3,

Include inside forming room 3：

Preheating mechanism 10, mold 200 preheating temperature is heated to；

Shaping mechanism 30, is heated to forming temperature and pressurizes so that material 102 is shaped to possess the mold 200 of preheating The glass of curved face part；

Cooling body 40, the mold 200 for having passed through shaping mechanism 30 is slowly cooled down；

Load/unload takes out the tool being molded by the mold 200 for having passed through cooling body 40 with robot device 300 After the glass 100 of standby curved face part, material 102 is put into and be supplied to preheating mechanism 10 behind the inside of mold 200；

Nitrogen ambience is constituted in chamber atmosphere in case oxidation, can the temperature of mold 200 for high temperature state Under molding cycles are constantly repeated.

When as shown in another embodiment of the present invention load/unload being installed with robot device 300 in forming room 3, Can also allow robot device 300 promptly shaping even if the temperature for having passed through the mold 200 of cooling body 40 is high temperature After the glass unloading for possessing curved face part material is put into again and mold 200 and be loaded into preheating position, therefore in the condition of high temperature Under again mold 200 is preheated and is molded such that it is able to mold 200 is promptly heated to into preheating temperature and shaping Temperature and be able to correspondingly shorten the molding cycle time of forming machine.

On the other hand, Figure 12 and Figure 13 is the deformation implementation illustration of the invention that can be molded infrared transmitting glass eyeglass,

In the top installation forming room 3 of pedestal 1, by the mold and lower mould of input infrared transmitting glass eyeglass shaping material The constituted mold 200 of tool is then shifted into the forming room 3, is formed with for mold 200 is thrown in the side of forming room 3 Enter the input chamber 2 inside forming room 3, be formed with for the mould inside forming room 3 will have been passed through in the opposite side of forming room 3 Concrete 200 discharge discharged chambers 4,

Install inside forming room 3：

Vacuum mechanism 90, the evacuation of mold 200 for having put into material and puts into nitrogen to avoid in forming process Oxidation；

Preheating mechanism 10, is heated to preheating temperature and preheats material mold 200；

Shaping mechanism 30, preheating mold 200 be heated to forming temperature and pressurize so that material 102 be shaped to it is infrared Line glass lens；

Cooling body 40, the mold 200 for having passed through shaping mechanism 30 is slowly cooled down；

Vacuum mechanism 90 includes：

Lid (cap) 92, being driven by lid cylinder 91 carries out down maneuver and is sealed mold 200；

Suction line 93, the vacuum for being connected to the top of lid 92 and being supplied by vavuum pump press cause inside lid 92 into For vacuum state；

Supply pipe 94, is connected to the top of lid 92 and puts into nitrogen to the inside of lid 92.

The mold 200 used during manufacture infrared transmitting glass eyeglass is made up of with lower mould mold and its shape is as follows Formed describedly, that is, allow material forming to be infrared transmitting glass mirror when pressurizeing in the state of the mould inside has put into material Plate shape.

The variant embodiment of the present invention is also equipped with vacuum mechanism 90 and allows the institute of input chamber 2 in the entrance side of forming room 3 The mold 200 of supply becomes vacuum state, then puts into nitrogen to avoid material that oxygen is contacted in forming process, so as to In case oxidation.

Vacuum mechanism 90 is provided with the lid 92 for moving up and down and being sealed mold 200 in forming room 3, orders about The mechanism that the lid 92 is moved up and down is as follows, and lid cylinder 91 is installed with vertical direction on the top of forming room 3, by lid cylinder The end combined cover 92 of the 91 lid actuator levers 95 for moving up and down and cause lid 92 by lid cylinder 91 in the forming room 3 on Lower movement, the lower end of above-mentioned lid 92 then combines O-ring 96, and the O-ring 96 is close to lower heater surface when lid 92 declines And sealed mold 200.

And, the top of lid 92 combine suction line 93, the suction line 93 using vavuum pump (not shown) supplied it is true By vacuum state is become inside lid 92, the supply pipe 94 that nitrogen is put into the inside of lid 92 is bonded to the top of lid 92 to pneumatics, Mold 200 and material week are allowed in the state of the sealed mould of lid 92 concrete 200 using the vacuum pressure supplied by suction line 93 Side is in perfect vacuum state, is formed and is then supplied to mold 200 by the nitrogen that supply pipe 94 is supplied and avoids after vacuum Material in mold 200 is contacted with oxygen, so as to aoxidize easily in forming process.

Vacuum treated mold 200 has been carried out by aforementioned vacuum mechanism 90 then passed through preheating mechanism described above 10th, shaping mechanism 30, cooling body 40 are press-formed at high operating temperatures and are shaped to infrared transmitting glass eyeglass.

Claims (10)

1. a kind of glass products formed shaped device, it is characterised in that

In the top installation forming room (3) of pedestal (1), by mold (201) and lower mould (203) institute of input material (102) The mold (200) of composition is then shifted into the forming room (3), is formed with for by mold in the side of forming room (3) (200) put into the internal input of forming room (3) with chamber (2), the opposite side of forming room (3) be formed with for will pass through into The discharge that the internal mold (200) in type room (3) is discharged with chamber (4),

Then install inside forming room (3)：Preheating mechanism (10), mold (200) preheating temperature is heated to；Shaping mechanism (30), the mold (200) of preheating is heated to forming temperature and is pressurizeed so that material (102) is shaped to the glass for possessing curved face part Glass or glass lens；Cooling body (40), the mold (200) for having passed through shaping mechanism (30) is slowly cooled down,

Preheating mechanism (10) installs multiple preheating lower heaters (14) in the bottom surface of forming room (3), in preheating lower heater (14) then install and order about preheating piston (12) up and down according to upper circuit (15) and the air pressure of lower circuit (16) is flowed in positive top Multiple preheating cylinders (11) of action, preheating is installed with upper heater (13) in the end of preheating piston (12), and the preheating is used and added Hot device (13) is heated in the state of the upper side contact with the mold (200) being placed in preheating lower heater (14),

Air pump (17) is connected to upper circuit (15) and lower circuit (16), the air pump (17) will correspond in preheating action The compensation pressure for being applied to the loading of preheating cylinder (11) is supplied to lower circuit (16), to upper circuit (15) then will be greater than compensation pressure and Allow preheating upper heater (13) and upper circuit (15) is supplied to the air pressure on no load condition contact mold (200) top.

2. a kind of glass products formed shaped device, it is characterised in that

In the top installation forming room (3) of pedestal (1), by mold (201) and lower mould (203) institute of input material (102) The mold (200) of composition is then shifted into the forming room (3), is formed with for by mold in the side of forming room (3) (200) put into the internal input of forming room (3) with chamber (2), the opposite side of forming room (3) be formed with for will pass through into The discharge that the internal mold (200) in type room (3) is discharged with chamber (4),

Then install inside forming room (3)：Preheating mechanism (10), mold (200) preheating temperature is heated to；Shaping mechanism (30), the mold (200) of preheating is heated to forming temperature and is pressurizeed so that material (102) is shaped to the glass for possessing curved face part Glass or glass lens；Cooling body (40), the mold (200) for having passed through shaping mechanism (30) is slowly cooled down,

Preheating mechanism (10) installs multiple preheating lower heaters (14) in the bottom surface of forming room (3), in preheating lower heater (14) then install and order about preheating piston (12) up and down according to upper circuit (15) and the air pressure of lower circuit (16) is flowed in positive top Multiple preheating cylinders (11) of action, in the end of preheating piston (12) the preheating lid (23) of dome form is combined, in preheating lid (23) multiple IR lamps (25) that inner side is installed oriented mold infra-red-emitting and preheated.

3. a kind of glass products formed shaped device, it is characterised in that

In the top installation forming room (3) of pedestal (1), by mold (201) and lower mould (203) institute of input material (102) The mold (200) of composition is then shifted into the forming room (3), is formed with for by mold in the side of forming room (3) (200) put into the internal input of forming room (3) with chamber (2), the opposite side of forming room (3) be formed with for will pass through into The discharge that the internal mold (200) in type room (3) is discharged with chamber (4),

Then install inside forming room (3)：Preheating mechanism (10), mold (200) preheating temperature is heated to；Shaping mechanism (30), the mold (200) of preheating is heated to forming temperature and is pressurizeed so that material (102) is shaped to the glass for possessing curved face part Glass or glass lens；Cooling body (40), the mold (200) for having passed through shaping mechanism (30) is slowly cooled down,

Preheating mechanism (10) installs multiple preheating lower heaters (14) in the bottom surface of forming room (3), in preheating lower heater (14) then install and order about preheating piston (12) up and down according to upper circuit (15) and the air pressure of lower circuit (16) is flowed in positive top Multiple preheating cylinders (11) of action, in the end of preheating piston (12) the preheating lid (23) of dome form is combined, in preheating lid (23) inner side is installed by the Frequency multiplier (26) that oriented mold generates high frequency and preheated.

4. the glass products formed shaped device according to claim 2 or claim 3, it is characterised in that

The reflecting surface (24) for reflecting light or high frequency towards mold (200) is formed with the inner peripheral surface of above-mentioned preheating lid (23).

5. the glass products formed shaped device according to any one of claim 1-3, it is characterised in that

In the outlet side of discharge chamber (4) according to being formed towards the mode that input chamber (2) lateral bending is rolled in the front of pedestal (1) Discharge cooling line (50), in being internally formed for the discharge cooling line (50) cooling water line (51) of cooling water circulation is allowed, so that Obtain mold (200) quickly to cool down.

6. the glass products formed shaped device according to any one of claim 1-3, it is characterised in that

The vacuum hole for introducing vacuum pressure is formed with the central portion of lower heater (33) in the shaping for constituting shaping mechanism (30) (206), multiple inlet holes (205) are formed in lower mould (203) bottom of above-mentioned mold (200), in shaping by feat of quilt The vacuum pressure for introducing inlet hole (205) makes material (102) adsorbed and causes material (102) shaping.

7. the glass products formed shaped device according to any one of claim 1-3, it is characterised in that

Vacuum hole (206) is also formed in the cooling of cooling body (40) with lower heater (43).

8. glass products formed shaped device according to claim 1, it is characterised in that

Also include and mold (200) is transplanted on successively preheating mechanism (10), shaping mechanism (30), cold in the forming room (3) But the mould transfer mechanism (60) of mechanism (40),

Above-mentioned mould transfer mechanism (60) includes：

Supporting member (71), the side of support mode body (200) when transferring mould；

Transferring members (61), are transplanted on successively outlet side, the mold mold (200) from the entrance side of forming room (3) (200) side is supported by supporting member (71).

9. glass products formed shaped device according to claim 8, it is characterised in that

Supporting member (71) includes：

Rotary shaft (73), to install through the front of forming room (4) downside ground；Rotary driving part (72), installed in forming room (4) Outside, transfer mold when order about rotary shaft (73) towards forming room (4) inner side rotate；Support bar (74), installed in rotation The outside of axle (73), rotates and abuts the side of mold (200) and support；

Transferring members (61) are provided with the transfer moved to left and right direction by the first actuator (66) at the rear of forming room (3) Plate (65), in the Internal back end of forming room (3) shifting rod (62) is alongst formed with, and the shifting rod (62) projects landform Into the stop part (63) between each mold of insertion (200), the second actuator (64) is installed in take-off plate (65), this second Actuator (64) orders about above-mentioned shifting rod (62) and starts in fore-and-aft direction.

10. a kind of glass products formed shaped device, it is characterised in that

In the top installation forming room (3) of pedestal (1), by mold (201) and lower mould (203) institute of input material (102) The mold (200) of composition is then shifted into the forming room (3),

Include inside forming room (3)：

Preheating mechanism (10), mold (200) preheating temperature is heated to；

Shaping mechanism (30), is heated to forming temperature and pressurizes so that material (102) is shaped to tool the mold (200) of preheating The glass or glass lens of standby curved face part；

Cooling body (40), the mold (200) for having passed through shaping mechanism (30) is slowly cooled down；

Load/unload with robot device (300), from after taking out products formed by the mold of cooling body (40) (200), Material (102) is put into and be supplied to preheating mechanism (10) behind mold (200) inside；

Preheating mechanism (10) installs multiple preheating lower heaters (14) in the bottom surface of forming room (3), in preheating lower heater (14) then install and order about preheating piston (12) up and down according to upper circuit (15) and the air pressure of lower circuit (16) is flowed in positive top Multiple preheating cylinders (11) of action, preheating is installed with upper heater (13) in the end of preheating piston (12), and the preheating is used and added Hot device (13) is heated in the state of the upper side contact with the mold (200) being placed in preheating lower heater (14),

Air pump (17) is connected to upper circuit (15) and lower circuit (16), the air pump (17) will correspond in preheating action The compensation pressure for being applied to the loading of preheating cylinder (11) is supplied to lower circuit (16), to upper circuit (15) then will be greater than compensation pressure and Allow preheating upper heater (13) and upper circuit (15) is supplied to the air pressure on no load condition contact mold (200) top.