CN108467187A - A kind of glass heat bender - Google Patents

Abstract

The invention discloses a kind of glass heat benders comprising organic frame, feed mechanism, discharging mechanism, molding chamber, mold thrust gear, mold heating mechanism, the gentle cold structure of workpiece shaping mechanism, forming cavity are filled with nitrogen in room；Feed mechanism is used to the mold for carrying glass pieces being delivered to the inlet of molding chamber；Mold thrust gear is for multiple molds and glass pieces to be pushed in turn in forming cavity room；Mold heating mechanism is for preheating the indoor mold of forming cavity and glass pieces；Workpiece shaping mechanism is used to carry out hot pressing processing to the glass pieces after preheating；Slow cooling mechanism be used for hot pressing process after glass pieces and mold cool down；Discharging mechanism is for exporting glass pieces after cooling and mold.The service life of equipment can be improved in the present invention, can reduce that nitrogen consumption, structure is simplified, save low cost, failure rate, high precision machining, stability are good.

Description

A kind of glass heat bender

Technical field

The present invention relates to glass processing device more particularly to a kind of glass heat benders.

Background technology

Glass heat bender is for by the automation equipment of glass pieces machine-shaping, existing glass bending owner will to deposit In following defect：

First, in the prior art, the molding modes of 3D glass heat benders generally comprise it is hot-forming, this mode there is Some obvious shortcomings, major embodiment are some as follows：3D glass is hot-forming, because using pressure larger, inside and outside 3D glass products Surface will produce press back, and press back needs to clear off machine removal by dedicated glass, but the press back removal difficulty of concave surface is larger, Time is longer；3D glass is hot-forming, unstable to the control of glass product sizes；3D glass is hot-forming, glass product table Surface evenness is also to be hoisted；3D glass heats inhale molding, and molding time is long；3D glass heats inhale molding, and size is unstable；3D glass Heat inhales molding, requires height to mould and die accuracy, die life is short, of high cost.

Secondly, the prior art, 3D glass heat benders mode of heating is generally by multiple opening electric heating pipe type heating work stations Mold and glass are heated, but the opening electric heating pipe type heating used at present has shortcomings, major embodiment several as follows Point：Opening electric heating pipe type heating, the thermal efficiency is low, and uneven heating is even, causes both mold ends and center position temperature low；It is open Type electrothermal tube formula heats, and structure is open type, poor sealing, and heat loss is fast；Opening electric heating pipe type heating, mechanism structure are multiple It is miscellaneous, it is of high cost；Opening electric heating pipe type heating, heat-generating pipe service life is short of high cost, and failure probability is high；Poor sealing, Nitrogen air consumption is big.

Meanwhile 3D glass heats bender is in process of production, multiple sets of molds are recycled successively between each work station to Forward It is dynamic.The shifting formwork mode of the prior art is generally moved by multiple shifting formwork pawls, and multiple shifting formwork pawls are fixed on conveying axis side by side, with shifting Mould driving mechanism, the action for completing rotation, pushing, resetting, each shifting formwork pawl drive 1 mold, move forward.Although can realize It moves moulds, but the prior art still has the logical cooling water of complicated, high failure rate, of high cost, poor sealing, conveying axis and leads Cause the defects of high energy consumption, action are cumbersome, the shifting formwork time is long, mold arrangement interval is big, occupied space is big, equipment size is long.

Again, in the prior art, the preheating stations of 3D glass heats bender are generally made of multistation, each preheating stations It is made of upper heating mechanism and lower heating mechanism, but is found in putting into practice, there are many shortcomings for the prior art, are primarily present knot The defects of structure is complicated, installation effectiveness is low, high failure rate, of high cost, poor sealing, big nitrogen air consumption.

In addition, the prior art, 3D glass heats bender is in main cavity and shows multiple preheating stations, moulding station, slow Cold work station, wherein moulding station are divided into tamping mechanism and supporting mechanism, and 3D glass heats bender is in main cavity and shows multiple Slow cooling work station, slow cooling work station are divided into slow cooling mechanism and lower slow cooling mechanism, these mechanisms are primarily present that precision is low, stability Difference, Caton phenomenon take place frequently, poor sealing the defects of.

Invention content

The technical problem to be solved in the present invention is, in view of the deficiencies of the prior art, provides and a kind of making for equipment can be improved With the service life, the glass heat that nitrogen consumption, structure is simplified, save low cost, failure rate, high precision machining, stability are good can be reduced Bender.

In order to solve the above technical problems, the present invention adopts the following technical scheme that.

A kind of glass heat bender comprising organic frame, the rack are equipped with feed mechanism, discharging mechanism and forming cavity Room, between the feed mechanism and discharging mechanism successively be equipped with mold thrust gear, mold heating mechanism, workpiece shaping mechanism and Slow cooling mechanism, the mold heating mechanism, workpiece shaping mechanism ease up cold structure on the molding chamber, wherein：Institute It states in forming cavity room and is filled with nitrogen；The feed mechanism is used to the mold for carrying glass pieces being delivered to molding chamber Inlet；The mold thrust gear is for multiple molds and glass pieces to be pushed in turn in forming cavity room；The mold adds Heat engine structure is for preheating the indoor mold of forming cavity and glass pieces；After the workpiece shaping mechanism is used for preheating Glass pieces carry out hot pressing processing；The slow cooling mechanism be used for hot pressing process after glass pieces and mold cool down；It is described go out Material mechanism is for exporting glass pieces after cooling and mold.

Preferably, the molding chamber is encircled into strip chamber by polylith metallic plate, and the inside of the metallic plate is equipped with Chamber thermal insulation board.

Preferably, the mold thrust gear includes passage driving mechanism, the rear and front end difference of the molding chamber It is formed with front side board and back side panel, die entrance is offered on the front side board, mould outlet, institute are offered on the back side panel Die entrance and mould outlet alignment are stated, and is formed with the passage passed through for mold between the die entrance and mould outlet Channel, the passage driving mechanism are set to the outside of front side board, and the passage driving mechanism includes a push rod, the push rod and The passage channel is concordant, and the end of the push rod is equipped with pushing block, the pushing block towards the die entrance, and the pushing block with A material position that enters for housing mold is formed between the die entrance, the passage driving mechanism is for driving push rod and pushing away The mold for entering material position is pushed into the passage channel by the pushing block, and pushes the passage channel successively by block anterior-posterior translation Interior multiple molds.

Preferably, the mold heating mechanism includes the upper thermal insulator of at least two strips, the upper thermal insulator Cross section is in inverted " u "-shaped, and electric heater is fixed on the inside of the upper thermal insulator, and the lower section of the upper thermal insulator is equipped with lower guarantor Wen Ti is fixed with metal casing on the outside of the upper thermal insulator, heating elevating mechanism, institute is fixed at the top of the molding chamber It includes there are two parallel arrangement of riser to state heating elevating mechanism, and the lower end of the riser and the top of the molding chamber are fixed Connection, the top of two risers are fixedly connected by a crossbeam, cylinder are fixed on the crossbeam, the piston rod of the cylinder is worn It crosses the crossbeam and extends downwardly, an intermediate beam is equipped between two risers, the madial wall of two risers is respectively fixed with guide rail, Intermediate slider is respectively equipped on two guide rails, and the intermediate slider is slidably connected with the guide rail, two intermediate slider difference The both sides of intermediate beam are fixed on, the lower end of the piston rod is connected to the intermediate beam, is fixed at the top of the molding chamber Polished rod bearing is equipped with polished rod in the polished rod bearing and the two is slidably connected, and the upper end of the polished rod is solid with the intermediate beam The lower end of fixed connection, the polished rod is fixedly connected on metal casing across the top of the molding chamber, by the cylinder Metal casing and upper thermal insulator is driven to rise or decline.

Preferably, the workpiece shaping mechanism includes upper tamping mechanism and supporting mechanism, the top of the molding chamber Be fixed with elevating mechanism, the elevating lever of the elevating mechanism passes through the top of the molding chamber, and the elevating lever with it is described Upper tamping mechanism is fixedly connected, and the lower section of the upper tamping mechanism is equipped with Re Xi mechanisms, and the Re Xi mechanisms include that vacuum is inhaled It manages, stomata is offered on the supporting mechanism, the vaccum suction pipe passes through the bottom of molding chamber, and the top of the vaccum suction pipe End is inserted in the stomata, and the graphite jig for bearing glass workpiece, and the graphite are placed on the supporting mechanism Mold is covered in the vaccum suction pipe, and the Re Xi mechanisms are used for by vaccum suction pipe air-breathing, to enable glass pieces be adsorbed in stone On black mold, suction and upper pressure that the elevating mechanism applies for driving tamping mechanism to push by the Re Xi mechanisms Type mechanism apply pressure and enable glass pieces thermoforming.

Preferably, the Re Xi mechanisms include cooling device, and the vaccum suction pipe passes through the cooling device, by institute Stating cooling device enables vaccum suction pipe cool down.

Preferably, there are four upper pillar stands for the top fixation of the upper tamping mechanism, and the top of the upper pillar stand is fixed with company Fishplate bar, the elevating lever are fixedly connected with the connecting plate.

Preferably, the bottom of the supporting mechanism is fixed with lower pillar stand, the lower end of the lower pillar stand and the molding chamber Bottom be fixedly connected.

Preferably, the slow cooling mechanism include there are two slow cooling standing plate disposed in parallel, a slow cooling station driving mechanism and The lower end of slow cooling module on one, two slow cooling standing plates is fixedly connected in the top of molding chamber, slow cooling station driving machine Structure is fixed on the top of two slow cooling standing plates, lifting slider is equipped between two slow cooling standing plates, and driven by the slow cooling station Motivation structure drives lifting slider to rise or decline, and the bottom of the lifting slider is fixed with vertical connecting rod, and the lifting is slided The side of block is fixedly connected with vertical pipe sleeve and vertical cable tube, the vertical connecting rod, vertical cable tube and vertical pipe sleeve point It Chuan Guo be molded the top of chamber, and the vertical connecting rod, vertical cable tube and vertical pipe sleeve opposite can be molded on chamber Lower slider, the upper slow cooling module include the slow cooling connecting plate from top to bottom set gradually, upper cooled plate and upper heating board, institute The top for stating slow cooling connecting plate is fixedly connected with the vertical connecting rod, and upper electrothermal tube is equipped in the upper heating board, described The cable being electrically connected with the upper electrothermal tube is equipped in vertical cable tube, offered in the upper cooled plate first leak water it is logical Road is equipped with two first water pipes in the vertical pipe sleeve, and the lower end of two first water pipes is respectively communicated with walks aquaporin in first Both ends, the upper end of first water pipe is communicated with water supply mechanism, drives water to walk in aquaporin to follow first by water supply mechanism Circulation is dynamic.

Preferably, it is fixedly connected by slow cooling connecting pole between the slow cooling connecting plate and upper heating board, the slow cooling connects It connects column and passes through upper cooled plate, and be equipped with gap between the slow cooling connecting plate and upper cooled plate.

The mold for carrying glass pieces is delivered to molding by glass heat bender disclosed by the invention using feed mechanism The inlet of chamber, rear mold thrust gear multiple molds and glass pieces are pushed in turn in forming cavity room, utilize mold Heating mechanism preheats the indoor mold of forming cavity and glass pieces, recycles workpiece shaping mechanism to the glass after preheating Workpiece carries out hot pressing processing, and the glass pieces and mold after being used to process hot pressing by the slow cooling mechanism later cool down, finally Glass pieces after cooling and mold are exported by discharging mechanism.Compared to existing technologies, the present invention has simple in structure, saving Cost, failure rate are low, equipment can be improved service life can reduce the features such as nitrogen consumption, high precision machining, good stability, Therefore it is suitble to promote and apply in glass pieces manufacture field, and there is preferable application prospect.

Description of the drawings

Fig. 1 is the stereogram of glass heat bender of the present invention.

Fig. 2 is the vertical view of glass heat bender of the present invention.

Fig. 3 is the internal structure chart for being molded chamber.

Fig. 4 is the structure chart one of mold thrust gear.

Fig. 5 is the structure chart two of mold thrust gear.

Fig. 6 is the exploded view one of mold thrust gear.

Fig. 7 is the exploded view two of mold thrust gear.

Fig. 8 is the stereogram of mold heating mechanism.

Fig. 9 is the structure chart for heating elevating mechanism.

Figure 10 is the exploded view for heating elevating mechanism.

Figure 11 is the exploded view of mold heating mechanism.

Figure 12 is the enlarged drawing of mold heating mechanism inlet.

Figure 13 is the local structural graph one of mold heating mechanism.

Figure 14 is the exploded view of Figure 13.

Figure 15 is the local structural graph two of mold heating mechanism.

Figure 16 is the exploded view of Figure 15.

Figure 17 is the local structural graph of workpiece shaping mechanism.

Figure 18 is the stereogram of elevating mechanism.

Figure 19 is the structure chart of supporting mechanism.

Figure 20 is the structure chart of Re Xi mechanisms.

Figure 21 is the structure chart of the present embodiment slow cooling mechanism.

Figure 22 is the partial exploded view of slow cooling mechanism.

Specific implementation mode

The present invention is described in more detail with reference to the accompanying drawings and examples.

The invention discloses a kind of glass heat benders, in conjunction with shown in Fig. 1 to Fig. 3 comprising organic frame 1, in the rack 1 Equipped with feed mechanism 10, discharging mechanism 11 and molding chamber 300, it is equipped with successively between the feed mechanism 10 and discharging mechanism 11 Mold thrust gear 12, mold heating mechanism 13, workpiece shaping mechanism 14 ease up cold structure 15, the mold heating mechanism 13, Workpiece shaping mechanism 14 eases up cold structure 15 on the molding chamber 300, wherein：

It is filled with nitrogen in the molding chamber 300；

The feed mechanism 10 is used to the mold 310 for carrying glass pieces being delivered to the inlet of molding chamber 300；

The mold thrust gear 12 is used to multiple molds 310 and glass pieces being pushed in turn in molding chamber 300；

The mold heating mechanism 13 be used for molding chamber 300 in mold 310 and glass pieces preheat；

The workpiece shaping mechanism 14 is used to carry out hot pressing processing to the glass pieces after preheating；

The slow cooling mechanism 15 be used for hot pressing process after glass pieces and mold 310 cool down；

The discharging mechanism 11 is for exporting glass pieces after cooling and mold 310.

Glass heat bender disclosed by the invention is conveyed the mold 310 for carrying glass pieces using feed mechanism 10 To molding chamber 300 inlet, rear mold thrust gear 12 forming cavity is pushed in turn in multiple molds 310 and glass pieces In room 300, the mold 310 and glass pieces that are molded in chamber 300 are preheated using mold heating mechanism 13, recycle work Part shaping mechanism 14 carries out hot pressing processing to the glass pieces after preheating, is used to process hot pressing by the slow cooling mechanism 15 later Glass pieces and mold 310 afterwards cool down, and finally export glass pieces after cooling and mold 310 by discharging mechanism 11.It compares For the prior art, the present invention has the service life that simple in structure, saving cost, failure rate is low, equipment can be improved, can reduce The features such as nitrogen consumption, high precision machining, good stability.

The molding chamber 300 is encircled into strip chamber, the metal by polylith metallic plate as a preferred method, The inside of plate is equipped with chamber thermal insulation board 390.

Above-mentioned mold thrust gear 12, mold heating mechanism 13, workpiece shaping mechanism 14 ease up the specific knot of cold structure 15 Structure can be found in following examples：

Embodiment one

In the present embodiment, in conjunction with shown in Fig. 1, Fig. 4 to Fig. 7, the mold thrust gear 12 includes passage driving mechanism 305, the rear and front end of the molding chamber 300 is respectively formed with front side board 301 and back side panel 302, is opened on the front side board 301 Equipped with die entrance 303, mould outlet 304, the die entrance 301 and mould outlet 304 are offered on the back side panel 302 Alignment, and the passage channel passed through for mold 310 is formed between the die entrance 301 and mould outlet 304, it is described to push away The outside that driving mechanism 305 is set to front side board 301 is moved, the passage driving mechanism 305 includes a push rod 306, the push rod 306 is concordant with the passage channel, and the end of the push rod 306 is equipped with pushing block 307, and the pushing block 307 enters towards the mold Mouth 301, and a material position that enters for housing mold 310 is formed between the pushing block 307 and the die entrance 301, it is described Passage driving mechanism 305 will enter the mold of material position by the pushing block 307 for driving 307 anterior-posterior translation of push rod 306 and pushing block The 310 push-in passage channels, and multiple molds 310 in the passage channel are pushed successively.

In above-mentioned mold thrust gear, it is molded and is provided with multiple be used for the workpiece progress on mold 310 in advance in chamber 300 Heat, heating, hot-forming work station (not indicating), the processing stations of multiple work stations (not indicating) are arranged in order and are formed and pushed away Mobile Communication road (does not indicate), in passage driving mechanism 305 under the driving effect of push rod 306, the pushing block 307 pushes multiple molds 310, along one station of passage channel advance, elapse driving mechanism 305 and retract, when pan feeding is shifted into new mold 310 later When, the passage driving mechanism 305 repeats the above process so that the mold 310 is carried out by multiple work stations successively Processing.Compared to existing technologies, the present embodiment is in such a way that multiple molds 310 push successively, without complicated defeated Sending component enormously simplifies device structure, saves equipment cost, reduces rate of breakdown, meanwhile, elapse driving mechanism 305 are set to except molding chamber 300, avoid harmful effect of the hot environment to part in molding chamber 300, and then improve and set Standby accuracy and reliability, further, since it is not necessary that shifting formwork pawl is arranged in molding chamber 300, so adjacent work station can be with Closely be arranged in order so that passage channel more seals, mold 310 is heated under stable hot environment, transmitted, at Type substantially increases the processing quality of equipment.

About the concrete structure of passage driving mechanism 305, in the present embodiment, the passage driving mechanism 305 includes to prop up Seat 311 is fixed with passage driving motor 312, sliding rail 313 and screw rodb base 314 on the bearing 311, is set on the screw rodb base 314 There is lead screw 315 and the two is rotatablely connected, the sliding rail 313 is equipped with sliding block 316 and the two is slidably connected, and the lead screw 315 is worn It crosses the sliding block 316 and the two is screwed, the push rod 306 is fixed on the sliding block 316, the passage driving motor 312 For driving lead screw 315 to rotate, to enable the sliding block 316 forward or slide backward.Advantage using lead screw type of drive exists In stable structure, the thrust of output are steadily reliable.

In order to limit the driving trip of passage driving mechanism 305, in the present embodiment, the bearing 311 is equipped at least two A inductor 317, the sliding block 316 are equipped with contact 318, and the inductor 317 is worked as incuding the contact 318 When the contact 318 is close to the inductor 317, the inductor 317 exports an electric signal.Preferably, former and later two incude The distance between device 317 should be slightly larger than the width into material position, in order to which mold 310 is moved into material position.

The inductor 317 is infrared tube sensor as a preferred method, and the contact 318 touches for Z-shaped Piece, and when the contact 318 is across the transmitting tube of the inductor 317 and reception pipe, the inductor 317 exports One electric signal.

The mold thrust gear for glass heat bender that the present embodiment proposes, beneficial effect compared to existing technologies Fruit is：First, the present embodiment is simple in structure, and the shifting formwork time is short, and speed of production is fast, efficient.The present embodiment is simple in structure, dynamic Make single, shifting formwork is fast, it is efficient, small, occupy little space, while reduce board volume make board overall structure become more It is compact, reasonable.Due to simple in structure, parts are few, when board assembles, reduce the set-up time, improve installation effectiveness.Together When, the present embodiment board size is small, and station is more, and the quantity for accommodating mold is more.In the board of equal length, what the present embodiment accommodated Number of molds is much more than the prior art, therefore further accelerates productive temp, reduces production cost.Secondly, failure Rate is low, facilitates repair.The prior art it is complicated, mechanism is more, action it is cumbersome, the probability of failure is big.The present embodiment profit The mode that mold and mold push mold to advance is pushed with mold thrust gear, not complicated mechanism and cumbersome action, Greatly reduce failure rate.When needing repairing, the present embodiment is simple in structure, and parts are few, and board inner space is big, assembly and disassembly spirit It is living, it is time saving and energy saving, it is efficient.Again, the present embodiment cost is lower.The present embodiment is due to simple in structure, the probability of failure Substantially reducing reduces maintenance frequency.When needing repairing, also reduced because simple in structure, assembly and disassembly are flexible, replacement parts are few Maintenance cost.In addition, the present embodiment good airproof performance.Since board poor sealing, inner space are big so that the clear consumption of nitrogen occupies high Under not.In the present embodiment, since board leakproofness is preferable, inner space is smaller than the prior art, compared with the prior art, nitrogen consumption Amount declines to a great extent.Finally, the present embodiment effectively reduces energy consumption.The present embodiment pushes the shifting formwork side that mold advances using mold Formula need not cool down, and thermal energy need not be taken away from main cavity and greatly reduces energy consumption compared with prior art.

Embodiment two

In the present embodiment, in conjunction with shown in Fig. 8 to Figure 12, the mold heating mechanism 13 includes at least two strips The cross section of upper thermal insulator 100, the upper thermal insulator 100 is in inverted " u "-shaped, and the inside of the upper thermal insulator 100 is fixed with electricity The lower section of heater, the upper thermal insulator 100 is equipped with lower thermal insulator, and the outside of the upper thermal insulator 100 is fixed with metal casing 110, the top of the molding chamber 300 is fixed with heating elevating mechanism 400, there are two the heating elevating mechanism 400 includes Parallel arrangement of riser 401, the lower end of the riser 401 are fixedly connected with the top of the molding chamber 300, two risers 401 top is fixedly connected by a crossbeam 402, and cylinder 403, the piston rod of the cylinder 403 are fixed on the crossbeam 402 404 extend downwardly across the crossbeam 402, and an intermediate beam 405, the inside of two risers 401 are equipped between two risers 401 Wall is respectively fixed with guide rail 406, is respectively equipped with intermediate slider 407 on two guide rails 406, and the intermediate slider 407 with it is described Guide rail 406 is slidably connected, and two intermediate sliders 407 are individually fixed in the both sides of intermediate beam 405, the lower end of the piston rod 404 It is connected to the intermediate beam 405, the top of the molding chamber 300 is fixed with polished rod bearing 408, in the polished rod bearing 408 It is equipped with polished rod 409 and the two is slidably connected, the upper end of the polished rod 409 is fixedly connected with the intermediate beam 405, the polished rod 409 lower end is fixedly connected on metal casing 110 across the top of the molding chamber 300, is driven by the cylinder 403 Metal casing 110 and upper thermal insulator 100 rise or decline.

In above-mentioned mold heating mechanism, when the cylinder 403 moves, is driven by piston rod 404 and glided on intermediate beam 405 It is dynamic, then drive the upper thermal insulator 100 of metal casing 110 and its inside to rise or decline by polished rod 409, by being protected in setting The length of warm body 100 can make thermal insulator 100 constitute strip, to replace the upper heating mechanism of multiple discrete settings, work In the process, it only needs a heating elevating mechanism 400 that thermal insulator 100 can be driven to rise or decline, not only simplifies equipment Structure, and equipment cost is greatly saved, in addition, multiple heating work stations are improved to a heating mechanism by the present embodiment, The mold of bearing glass workpiece thermal insulator 100 in inverted " u "-shaped, which is formed by with lower thermal insulator in heating channel, to be transmitted, due to adding Air-tightness in the passage of heat is more preferable, is distributed so reducing heat, and saves nitrogen loss, preferably meets glass bending The application demand of machine.

In order to realize that stablizing for power is conducted, in the present embodiment, the quantity of the polished rod 409 is two.The electric heater Preferably electric heating wire.Further, in order to which multiple upper thermal insulators 100 are fixed simultaneously, the present embodiment includes load bearing beam 410, the load bearing beam 410 is fixedly connected on the top of two neighboring metal casing 110, and the lower end of the polished rod 409 and institute Load bearing beam 410 is stated to be fixedly connected.

It is sealed to be better achieved, and reduces nitrogen and be lost in, in the present embodiment, the top of the molding chamber 300 It is fixed with the first sealed briquette 411, silk is folded between first sealed briquette 411 and the top of the molding chamber 300 Bar sealing ring 412, the polished rod 409 pass through first sealed briquette 411 and lead screw sealing ring 412.

For the ease of placing cable, the top of the molding chamber 300 is equipped with away spool 413, the molding chamber 300 Top be fixed with the second sealed briquette 414, pressed from both sides between second sealed briquette 414 and the top of the molding chamber 300 Equipped with spool sealing ring 415, it is described walk spool 413 pass through second sealed briquette 414 and spool sealing ring 415.

Link block 416 is fixed on the intermediate beam 405 as a preferred method, the bottom of the link block 416 is opened Equipped with recess 417, the extending direction of the recess 417 and the length direction of the intermediate beam 405 are perpendicular, the link block 416 top offers through-hole 418, and the through-hole 418 is communicated in the recess 417, adjusting slider is equipped in the recess 417 419 and the two be slidably connected, the lower end of the piston rod 404 is fixedly connected on the adjusting slider across the through-hole 418 419, and gap is equipped between the piston rod 404 and the inner wall of the through-hole 418.Further, the through-hole 418 is rectangular Or strip.

In above structure, due to being equipped with gap between piston rod 404 and the inner wall of through-hole 418 so that piston rod 404 with it is logical Empty avoiding is formed between hole 418, it, can be by adjusting if generating stress between each sliding equipment when piston rod 404 moves up and down The sliding of sliding block 419 and link block 416 acts on so that piston rod 404 is slightly slanted, and is preferably avoided and is born between each component Rigid stress, and then improve the reliability and stability of equipment.

In the present embodiment, the upper thermal insulator 100 is in inverted " u "-shaped, and mold loading plate is fixed in the lower thermal insulator 101 109, the upper thermal insulator 100 covers at 101 top of lower thermal insulator, and the upper thermal insulator 100 and the mold loading plate 109 Between form the heating channel 120 that is passed through for mold.Wherein, it is driven in upper thermal insulator 100 by the heating elevating mechanism 121 It rises or declines so that mold heating mechanism is opened or closed, since upper thermal insulator 100 is in inverted " u "-shaped so that upper thermal insulator Heating channel 120 between 100 and mold loading plate 109 is in tunnel type, and mold when heating, can have in the heating channel 120 Effect avoids the loss of heat, substantially increases the efficiency of heating surface, saves energy consumption, can reduce nitrogen loss, in addition, the present embodiment knot Structure is simple, is easily achieved, and is suitably applied in glass bending machine equipment.

In traditional equipment, the mold of glass heat bender is usually graphite jig, and this mold is entering mold loading plate When, it has some powdered graphites and falls off, if powdered graphite falls into electric heater, it is bad to be easy to cause electric heater short circuit etc. It happens, existing solution, is that smaller step is set in the front end of mold loading plate, mold is first collected using step The powder to fall off, to avoid bringing powder at mold loading plate into, but this step will be scratched with mold, be caused After mold is damaged, and mold enters mold loading plate, shed powder is still suffered from.

To solve this technical problem, in the present embodiment, the front end of the mold loading plate 109 is formed with stage portion 122, Die transition plate 123 is fixed in the forming cavity room, one end of the die transition plate 123 is located at the heating channel 120 Except, the other end of the die transition plate 123 is located at 122 top of the stage portion, the top surface of the die transition plate 123 with The either flush of the mold loading plate 109, and gap is equipped between the die transition plate 123 and the stage portion 122.

Wherein, since die transition plate 123 is concordant with mold loading plate 109, so in the effect of die transition plate 123 Under, transitional function can be played to mold, avoid mold and stage portion 122 occur it is larger scratch, meanwhile, in die transition plate Setting has the gap between 123 and stage portion 122, can be collected the powder that mold is fallen using the gap, to avoid powder It brings into heating channel 120, substantially increases the stability and reliability of equipment.

The advantageous effect of the present embodiment is：First, the present embodiment is simple in structure, and amount of parts is few, whole in structure Body is more succinct.Simultaneously as simple in structure, parts are few, when board assembles, reduce the set-up time, improve installation Efficiency.Secondly, the present embodiment failure rate is low, maintains easily.Again, the present embodiment cost is lower, due to simple in structure, appearance event The probability of barrier substantially reduces, when needing to safeguard, also because it is simple in structure, assembly and disassembly flexibly, replace parts it is few due to reduce maintenance at This.

In the present embodiment, about the concrete structure of heating partial, in conjunction with shown in Figure 11 to Figure 16, the upper thermal insulator Multiple cross tubes 103, length direction of the multiple cross tubes 103 along the upper thermal insulator 100 are equipped between 100 two side plates It is sequentially distributed, heating wire 104 is wound on the cross tube 103, the both sides of the lower thermal insulator 101 are respectively formed with upwards The shoulder 105 of protrusion is equipped with multiple sheer poles 106 between two shoulders 105, and multiple sheer poles 106 are along the lower thermal insulator 101 Length direction be sequentially distributed, lower heating wire 107 is wound on the sheer pole 106, is fixed in the lower thermal insulator 101 more A support column 108 being vertically arranged, the top of the support column 108 extend to the top of the lower heating wire 107, the lower electricity The top of heated filament 107 is equipped with mold loading plate 109, and company is fixed on the mold loading plate 109 and the top of the support column 108 It connects, and is formed with gap between the mold loading plate 109 and the lower heating wire 107, the upper thermal insulator 100 covers at down 101 top of thermal insulator is added with enabling being formed between the upper thermal insulator 100 and the mold loading plate 109 for what mold passed through The passage of heat.

In above-mentioned mold heating mechanism, since upper thermal insulator 100 is set as inverted " u "-shaped so that upper thermal insulator 100 and mold Loading plate 109 forms the heating channel passed through for mold, and in the heating channel, the inside of upper thermal insulator 100 is provided with upper Heating wire 104, the lower section of mold loading plate 109 are provided with lower heating wire 107, when work, upper heating wire 104 and lower heating wire 107 heats sent out are directly radiated to heating channel, and compared to existing technologies, the present embodiment conducts heat without heating board, To greatly improve heat transference efficiency, meanwhile, the structure of the present embodiment is simpler, is not only easy to process, and produces week Phase is short, in addition, compared to for electrothermal tube, the present embodiment directly uses heating wire radiations heat energy, is not only easy to safeguard, and failure Rate is low, is more suitably applied in the mold heating mechanism of glass heat bender.

Another advantage of above structure is, need to only take out cross tube 103 or sheer pole 106, heating wire, that is, tear-away, To be convenient to replace heating wire, maintenance, repair efficiency is helped to improve.

In order to protect thermal insulator, the outside of the upper thermal insulator 100 is coated with metal casing 110.

Further, the metal casing 110 be in inverted " u "-shaped, and the metal casing 110 include the first side plate 111, Second side plate 112 and top plate 113.

In the present embodiment, the both sides of the lower thermal insulator 101 have been covered each by third side plate 114 and the 4th side plate 115.

Multiple cross tubes 103 are arranged side by side as a preferred method, and multiple sheer poles 106 are arranged side by side.

Embodiment three

In the present embodiment, in conjunction with shown in Figure 17 to Figure 20, the workpiece shaping mechanism 14 includes 200 He of upper tamping mechanism Supporting mechanism 201, the molding chamber are fixedly arranged above elevating mechanism 202, and the elevating lever 203 of the elevating mechanism 202 is worn The top of the molding chamber is crossed, and the elevating lever 203 is fixedly connected with the upper tamping mechanism 200, the upper forming press The lower section of structure is equipped with Re Xi mechanisms 204, and the Re Xi mechanisms 204 include vaccum suction pipe 205, are opened on the supporting mechanism 201 Equipped with stomata 206, the vaccum suction pipe 205 passes through the bottom of molding chamber, and the top of the vaccum suction pipe 205 is inserted in institute It states in stomata 206, the graphite jig for bearing glass workpiece, and the graphite jig is placed on the supporting mechanism 201 It is covered in the vaccum suction pipe 205, the Re Xi mechanisms 204 are used for by 205 air-breathing of vaccum suction pipe, to enable glass pieces adsorb In on graphite jig, the elevating mechanism 202 applies for driving tamping mechanism 200 to push by the Re Xi mechanisms 204 Suction and upper tamping mechanism 200 apply pressure and enable glass pieces thermoforming.

In above-mentioned workpiece shaping mechanism, when graphite jig is moved at supporting mechanism 201, the Re Xi mechanisms 204 are logical It crosses vaccum suction pipe 205 and suction is applied for graphite jig, since graphite jig has gas permeability, so under suction, glass Glass workpiece adsorbed close is on graphite jig, because molding chamber is thermoforming environment so that the lower surface of glass pieces formed with The consistent shape of graphite jig, meanwhile, pressure is applied to glass pieces using upper tamping mechanism 200, in matching for pressure and suction Under cooperation is used so that the upper and lower surface of glass pieces is molded simultaneously, and compared to existing technologies, the present embodiment can effectively avoid glass The lower surface of glass workpiece generates cloudy surface, and then improves the forming quality of glass pieces, while the present embodiment is cleared off without adding Machine and relevant technique, not only shaping speed faster, but also reduces equipment cost, and then meets technological requirement.

In practical application, for different types of workpiece, corresponding processing method, such as some workpiece need to be used to be only suitable for Hot pressing is only suitable for hot suction, and the present embodiment can not only utilize the mating reaction of pressure and suction by glass pieces machine-shaping, Also independent hot pressing can be carried out to workpiece or individually heat inhales processing, and only need simple electric signal control that can enter individually heat Pressure or individually hot suction state, preferably meet a variety of process requirements.It should be noted that the present invention is to above-mentioned each processing side Formula is not construed as limiting, i.e., no matter independent hot pressing, individually heat inhale or by the two combine application mode, be in the technology of the present invention side It realizes, therefore should all be included within protection scope of the present invention on the architecture basics of case.

The suction of the Re Xi mechanisms 204 can be provided by vaccum-pumping equipments such as compressors as a preferred method, be Avoid sucking high-temperature gas, in the present embodiment, the Re Xi mechanisms 204 include cooling device 207, the vaccum suction pipe 205 pass through the cooling device 207, enable vaccum suction pipe 205 cool down by the cooling device 207.Further, which fills It can be the devices such as water cooler to set 207.

In the present embodiment, the vaccum suction pipe 205 be equipped with the first link block 208, first link block 208 be located at The bottom of the lower section of cavity room, the molding chamber is fixed with the second link block 209, and first link block 208 and second connects It connects and is fixed with tension spring 210 between block 209.Can be that vaccum suction pipe 205 provide becoming of upwardly extending under the action of tension spring 210 Force so that vaccum suction pipe 205 is maintained in the stomata 206, prevents high-temperature expansion, vacuum leak, and then improve equipment Reliability.

In the present embodiment, in order to reduce heat losses, there are four upper pillar stands for the top fixation of the upper tamping mechanism 200 211, the top of the upper pillar stand 211 is fixed with connecting plate 212, and the elevating lever 203 is fixedly connected with the connecting plate 212. Similarly, the bottom of the supporting mechanism 201 is fixed with lower pillar stand 213, the lower end of the lower pillar stand 213 and the molding chamber Bottom be fixedly connected.

About heating part, multiple electric heaters 214 are equipped on the upper tamping mechanism 200 and supporting mechanism 201.

The advantageous effect of the present embodiment is：First, the present embodiment molding time is short.The prior art is inhaled using heat to be molded When, need vacuum suction longer time, glass that can just be molded.Secondly, glass product sizes are more stable, what the present embodiment used The mode that hot pressing is combined with heat suction, first hot pressing make glass reach the suction of predetermined shape reheating, and glass product is further molded, hot pressing Heat, which is inhaled, to complement each other, and ensure that the stability of glass product sizes.In addition, the present embodiment requires low, mold to make mould and die accuracy With long lifespan, at low cost.The present embodiment using hot pressing with heat suction be combined by the way of, first hot pressing makes glass reach predetermined shape Reheating is inhaled, and glass product is further molded, and hot-pressing thermal suction is complemented each other, and the requirement to mold precision is lower than the prior art.Heat Pressure and heat suction are combined, and the time that heat is inhaled greatly shortens compared with prior art, is substantially reduced to the damage of mold, and mold uses the longevity Life length, further saves die cost.

Example IV

In the present embodiment, in conjunction with shown in Figure 21 and Figure 22, the slow cooling mechanism 15 includes that there are two slow cooling disposed in parallel The lower end of slow cooling module 604 on standing plate 600, a slow cooling station driving mechanism 601 and one, two slow cooling standing plates 600 is fixed It is connected to the top of molding chamber, slow cooling station driving mechanism 601 is fixed on the top of two slow cooling standing plates 600, two It is equipped with lifting slider 602 between slow cooling standing plate 600, and drives lifting slider 602 to rise by slow cooling station driving mechanism 601 Or decline, the bottom of the lifting slider 602 is fixed with vertical connecting rod 603, and the side of the lifting slider 602, which is fixed, to be connected It is connected to vertical pipe sleeve 605 and vertical cable tube 611, the vertical connecting rod 603, vertical cable tube 611 and vertical pipe sleeve 605 divide Chuan Guo not be molded the top of chamber, and the vertical connecting rod 603, vertical cable tube 611 and vertical pipe sleeve 605 can relative at Cavity room slides up and down, and the upper slow cooling module 604 includes the slow cooling connecting plate 606 from top to bottom set gradually, upper water cooling Plate 607 and upper heating board 608, the top of the slow cooling connecting plate 606 are fixedly connected with the vertical connecting rod 603, it is described on It is equipped with upper electrothermal tube 612 in heating board 608, is equipped in the vertical cable tube 611 and is electrically connected with the upper electrothermal tube 612 Cable, offer first in the upper cooled plate 607 and walk aquaporin, two first water are equipped in the vertical pipe sleeve 605 The lower end of pipe 613, two first water pipes 613 is respectively communicated with the both ends for walking aquaporin in first, the upper end of first water pipe 613 It is communicated with water supply mechanism, drives water to walk aquaporin internal circulation flow first by water supply mechanism.

In above-mentioned slow cooling mechanism, due to being provided with upper cooled plate 607 on upper heating board 608, by upper cooled plate 607 Water cooling acts on, and helps to realize the temperature adjusting to upper heating board 608 so that the temperature at slow cooling station is more stablized, and ensure that mould Tool and glass product are reasonably cooled down, and to improve the quality of glass pieces, while the present embodiment utilizes lifting slider 602 drive vertical cable tube 611 and vertical pipe sleeve 605 to rise or fall, and to protect water pipe and cable against damages, avoid Hot environment causes harmful effect to pipeline, and then improves the stability and reliability of equipment.

In order to reduce the heat conducted outward, connected by slow cooling between the slow cooling connecting plate 606 and upper heating board 608 Column 609 is fixedly connected, and the slow cooling connecting pole 609 passes through upper cooled plate 607, and the slow cooling connecting plate 606 and upper cooled plate Gap is equipped between 607.

In order to preferably support, fix vertical cable tube 611 and vertical pipe sleeve 605, in the present embodiment, the lifting slider 602 both sides are outward extended with sliding block journal stirrup 614 respectively, and the vertical cable tube 611 and vertical pipe sleeve 605 are respectively fixedly connected with In two sliding block journal stirrups 614.

In the present embodiment, the lower section of the upper slow cooling module 604 is equipped with lower slow cooling module 615, the lower slow cooling module 615 Include lower heating board 616 and lower cooled plate 617, the lower heating board 616 is oppositely arranged with the upper heating board 608, described Lower cooled plate 617 is fixedly connected on the bottom of lower heating board 616, and lower electrothermal tube 618, institute are equipped in the lower heating board 616 It states and offers second in lower cooled plate 617 and walk aquaporin, the described second both ends for walking aquaporin have been respectively communicated with two second water Pipe 619, second water pipe 619 are communicated in water supply mechanism, drive water to walk aquaporin inner recirculation flow second by water supply mechanism It is dynamic.

Further, slow cooling station driving mechanism 601 is cylinder.Divide in the upper heating board 608 and lower heating board 616 Thermocouple is not equipped with it.In the present embodiment, to make upper and lower heating board reach preset constant temperature, control system passes through thermocouple Feedback, can real-time control heat-generating pipe by parameter preset heating.So that mold presses preset time beat in each slow cooling work station It is cooled down.

Multiple slow cooling mechanisms are as slow cooling work station side by side in use, the upper and lower heating board of each slow cooling work station is default One temperature value, each station is different for this temperature value, usually successively decreases by certain gradient difference value, such as：1st slow cooling station is set 700 DEG C, the 2nd slow cooling station sets 650 DEG C, and the 3rd slow cooling station sets 600 DEG C, and so on.When mold is moved to current slow cooling station, drive The dynamic upper hot plate of device driving touch mold by preset pressure, the upper and lower heating board temperature value at current slow cooling station than mold always than want It is low so that the heat transfer of mold is taken away to upper and lower heating board, then by upper and lower cold water plate, to enable mold temperature be reduced.

The advantageous effect of the present embodiment is, balances the temperature of heating board close to upper and lower heating board using upper and lower cold water plate Degree, makes the temperature of heating board remain preset temperature, has achieved the purpose that constant temperature, specific implementation can be：Temperature Electrothermal tube carries out heating compensation temperature when low, and water cooling reduces temperature when temperature is low.Further, since the temperature at each slow cooling station is stablized, The falling temperature gradient of mold and glass successively decreases rationally, glass product surfacing, dimensionally stable, and qualification is up to 99.8%, Jin Erti High glass product quality, improves product yield.

The above is preferred embodiments of the present invention, is not intended to restrict the invention, all technology models in the present invention Interior done modification, equivalent replacement or improvement etc. are enclosed, should be included in the range of of the invention protect.

Claims (10)

1. a kind of glass heat bender, which is characterized in that including organic frame (1), the rack (1) be equipped with feed mechanism (10), Discharging mechanism (11) and molding chamber (300), push away equipped with mold successively between the feed mechanism (10) and discharging mechanism (11) The gentle cold structure (15) of telephone-moving structure (12), mold heating mechanism (13), workpiece shaping mechanism (14), the mold heating mechanism (13), workpiece shaping mechanism (14) eases up cold structure (15) on the molding chamber (300), wherein：

It is filled with nitrogen in the molding chamber (300)；

The feed mechanism (10) is used to the mold (310) for carrying glass pieces being delivered to the entrance of molding chamber (300) Place；

The mold thrust gear (12) is used to multiple molds (310) and glass pieces being pushed in turn in molding chamber (300)；

The mold heating mechanism (13) be used for in molding chamber (300) mold (310) and glass pieces preheat；

The workpiece shaping mechanism (14) is used to carry out hot pressing processing to the glass pieces after preheating；

The slow cooling mechanism (15) be used for hot pressing process after glass pieces and mold (310) cool down；

The discharging mechanism (11) is for exporting glass pieces after cooling and mold (310).

2. glass heat bender as described in claim 1, which is characterized in that the molding chamber (300) is closed by polylith metallic plate Strip chamber is surrounded, the inside of the metallic plate is equipped with chamber thermal insulation board (390).

3. glass heat bender as described in claim 1, which is characterized in that the mold thrust gear (12) includes that passage is driven The rear and front end of motivation structure (305), the molding chamber (300) is respectively formed with front side board (301) and back side panel (302), institute It states and offers die entrance (303) on front side board (301), mould outlet (304) is offered on the back side panel (302), it is described Die entrance (301) and mould outlet (304) alignment, and be formed between the die entrance (301) and mould outlet (304) For the passage channel that mold (310) passes through, the passage driving mechanism (305) is set to the outside of front side board (301), described to push away It includes a push rod (306) to move driving mechanism (305), and the push rod (306) is concordant with the passage channel, the push rod (306) end is equipped with pushing block (307), the pushing block (307) towards the die entrance (301), and the pushing block (307) with A material position that enters for housing mold (310), the passage driving mechanism (305) are formed between the die entrance (301) For driving push rod (306) and pushing block (307) anterior-posterior translation, the mold (310) for entering material position is pushed by the pushing block (307) The passage channel, and multiple molds (310) in the passage channel are pushed successively.

4. glass heat bender as described in claim 1, which is characterized in that the mold heating mechanism (13) includes at least two The upper thermal insulator (100) of a strip, the cross section of the upper thermal insulator (100) are in inverted " u "-shaped, and the upper thermal insulator (100) electric heater is fixed on the inside of, the lower section of the upper thermal insulator (100) is equipped with lower thermal insulator, the upper thermal insulator (100) it is fixed with metal casing (110) on the outside of, heating elevating mechanism is fixed at the top of the molding chamber (300) (400), the heating elevating mechanism (400) includes that there are two parallel arrangement of riser (401), the lower ends of the riser (401) It being fixedly connected at the top of the molding chamber (300), the top of two risers (401) is fixedly connected by a crossbeam (402), Be fixed with cylinder (403) on the crossbeam (402), the piston rod (404) of the cylinder (403) pass through the crossbeam (402) and It extends downwardly, an intermediate beam (405) is equipped between two risers (401), the madial wall of two risers (401), which is respectively fixed with, leads Rail (406) is respectively equipped with intermediate slider (407), and the intermediate slider (407) and the guide rail on two guide rails (406) (406) it is slidably connected, two intermediate sliders (407) are individually fixed in the both sides of intermediate beam (405), the piston rod (404) Lower end is connected to the intermediate beam (405), and polished rod bearing (408), the polished rod are fixed at the top of the molding chamber (300) It is equipped with polished rod (409) in bearing (408) and the two is slidably connected, upper end and the intermediate beam (405) of the polished rod (409) It is fixedly connected, the lower end of the polished rod (409) passes through the top of the molding chamber (300) and is fixedly connected on metal casing (110), metal casing (110) and upper thermal insulator (100) is driven to rise or decline by the cylinder (403).

5. glass heat bender as described in claim 1, which is characterized in that the workpiece shaping mechanism (14) includes upper die mould Mechanism (200) and supporting mechanism (201), the molding chamber are fixedly arranged above elevating mechanism (202), the elevating mechanism (202) elevating lever (203) passes through the top of the molding chamber, and the elevating lever (203) and the upper tamping mechanism (200) it is fixedly connected, the lower section of the upper tamping mechanism is equipped with Re Xi mechanisms (204), and the Re Xi mechanisms (204) include true Suction pipe (205), stomata (206) is offered on the supporting mechanism (201), and the vaccum suction pipe (205) passes through molding chamber Bottom, and the top of the vaccum suction pipe (205) is inserted in the stomata (206), is placed on the supporting mechanism (201) It is useful for the graphite jig of bearing glass workpiece, and the graphite jig is covered in the vaccum suction pipe (205), the hot suction machine Structure (204) is used for through vaccum suction pipe (205) air-breathing, to enable glass pieces be adsorbed on graphite jig, the elevating mechanism (202) it is used to that tamping mechanism (200) to be driven to push, the suction and upper tamping mechanism applied by the Re Xi mechanisms (204) (200) apply pressure and enable glass pieces thermoforming.

6. glass heat bender described in claim 1 as claimed in claim 5, which is characterized in that the Re Xi mechanisms (204) Include cooling device (207), the vaccum suction pipe (205) passes through the cooling device (207), by the cooling device (207) vaccum suction pipe (205) is enabled to cool down.

7. glass heat bender described in claim 1 as claimed in claim 5, which is characterized in that the upper tamping mechanism (200) there are four upper pillar stands (211) for top fixation, and the top of the upper pillar stand (211) is fixed with connecting plate (212), described Elevating lever (203) is fixedly connected with the connecting plate (212).

8. glass heat bender described in claim 1 as claimed in claim 5, which is characterized in that the supporting mechanism (201) Bottom be fixed with lower pillar stand (213), the lower end of the lower pillar stand (213) is fixedly connected with the bottom of the molding chamber.

9. glass heat bender as described in claim 1, which is characterized in that the slow cooling mechanism (15) includes being set there are two parallel Slow cooling module (604) on the slow cooling standing plate (600) set, a slow cooling station driving mechanism (601) and one, two slow cooling standing plates (600) lower end is fixedly connected in the top of molding chamber, and slow cooling station driving mechanism (601) is fixed on two slow cooling stations The top of riser (600) is equipped with lifting slider (602) between two slow cooling standing plates (600), and by slow cooling station driving machine Structure (601) drives lifting slider (602) to rise or decline, and the bottom of the lifting slider (602) is fixed with vertical connecting rod (603), the side of the lifting slider (602) is fixedly connected with vertical pipe sleeve (605) and vertical cable tube (611), described perpendicular Straight connecting rods (603), vertical cable tube (611) and vertical pipe sleeve (605) are each passed through the top of molding chamber, and described vertical Connecting rod (603), vertical cable tube (611) and vertical pipe sleeve (605) opposite can be molded chamber and slide up and down, the upper slow cooling Module (604) includes the slow cooling connecting plate (606) from top to bottom set gradually, upper cooled plate (607) and upper heating board (608), the top of the slow cooling connecting plate (606) is fixedly connected with the vertical connecting rod (603), the upper heating board (608) it is equipped with upper electrothermal tube (612) in, is equipped in the vertical cable tube (611) and electrically connects with the upper electrothermal tube (612) The cable connect offers first in the upper cooled plate (607) and walks aquaporin, two are equipped in the vertical pipe sleeve (605) The lower end of first water pipe (613), two first water pipes (613) is respectively communicated with the both ends for walking aquaporin in first, first water The upper end of pipe (613) is communicated with water supply mechanism, drives water to walk aquaporin internal circulation flow first by water supply mechanism.

10. glass heat bender as claimed in claim 9, which is characterized in that the slow cooling connecting plate (606) and upper heating board (608) it being fixedly connected by slow cooling connecting pole (609) between, the slow cooling connecting pole (609) passes through upper cooled plate (607), and Gap is equipped between the slow cooling connecting plate (606) and upper cooled plate (607).