CN206328303U - A kind of high-performance glass device for automatically molding - Google Patents

Abstract

The utility model is a kind of high-performance glass device for automatically molding, including heating furnace, forming supporter, carriage and cooling frame, the heating furnace includes upper furnace body, lower furnace body and screw mandrel, the upper furnace body is provided with lifting motor, elevating lever and reducing motor, the lower furnace body is provided with into piece platform, first motor, second motor, accelerate motor, conveying lever is with placing plate, the forming supporter is provided with link, die-cylinder, mould, pressure head, pressure head cylinder and positioning cylinder, the carriage is provided with the 3rd motor, bracket, frame, guide pillar, saddle, guide rail, tooth bar, stepper motor and lift cylinder, the cooling frame is provided with pole cold wind bucket, slow cooling bellows, cooling blower, 4th motor and the platform that takes up；Glass can be rapidly performed by tempering, shaping and cooling by the high-performance glass device for automatically molding, be easy to the producer to be processed production and maintenance, and avoid the uneven defect in the edge occurred after glass hot briquetting.

Description

A kind of high-performance glass device for automatically molding

Technical field

The utility model is related to a kind of high-performance glass device for automatically molding.

Background technology

Glass tempering furnace also known as glass fibre reinforced plastic equipment, are using either physically or chemically, in glass surface formation compression Layer, be internally formed tension layer；When glass is acted on by external force, compressive stress layer can offset part tension, it is to avoid glass It is broken, reach the purpose for improving strength of glass.

The temperature of furnace interior easily comes out in glass tempering furnace in conventional art, not only increases the wave of energy consumption Take, also greatly improve the temperature of operating personnel's working environment so that the working environment of operating personnel and its bad luck, while conventional Glass tempering furnace be also inconvenient for operating personnel and carry out maintenance process, and double mold or processing, glass can not be carried out to glass The low production efficiency of glass tempering, also easily occur glass edge occur it is uneven, glass production is of poor quality, production cost is high Produce defect.

And Patent Application Publication number " 201610398757.X ", patent name " a kind of multimode formed glass tempering apparatus ", Including the stock shelf being from left to right arranged in order, electric annealing furnace, shaping area, pressing area, air-cooled area and discharging area, but wherein not To have carry out electric annealing furnace and energy consumption problem is solved with maintenance；Although shaping area also describe to the forming process of glass with into Type mode, also illustrate that the glass to different model, required dip mold it is of different sizes, can by left and right side ceramic roller and Middle ceramic roller is set to axially adjustable ceramic roller, i.e., left and right ceramic roller and middle ceramic roller are axially movable along its, to adjust The size for forming room between left and right ceramic roller and middle ceramic roller or in the middle of two between ceramic roller is saved, but in supporting paper In do not illustrated to how to adjust left and right side ceramic roller and middle ceramic roller, also fixed form not to ceramic roller Illustrate, it is impossible to allow user to carry out implementation manufacture；It is then that glass edge is neat by flattening mechanism and pushing glass to flatten area It is flat, but be easy to during pushing to deform formed glass, the quality after influence glass shaping, and single air-cooled area Setting be also unfavorable for the quick cooling of glass, influence the production efficiency of glass, be unfavorable for the producer to the quick production of glass Processing.

Utility model content

The utility model mainly solves the technical problem present in prior art, so that energy can effectively be reduced by providing one kind Source is wasted, and is easy to operator to carry out maintenance process, effectively improves glass edge flatness, increase glass production quality and production The high-performance glass device for automatically molding of efficiency.

The utility model is a kind of high-performance glass device for automatically molding, including heating furnace, forming supporter, carriage and cooling Frame, the heating furnace includes upper furnace body, lower furnace body and screw mandrel, and the upper furnace body is provided with lifting motor, elevating lever and the electricity that slows down Machine, the lower furnace body is provided with into piece platform, the first motor, the second motor, acceleration motor, conveying lever with placing plate, the shaping Erection is equipped with link, die-cylinder, mould, pressure head, pressure head cylinder and positioning cylinder, and the carriage is provided with the 3rd electricity Machine, bracket, frame, guide pillar, saddle, guide rail, tooth bar, stepper motor and lift cylinder, the cooling frame be provided with pole cold wind bucket, Slow cooling bellows, cooling blower, the 4th motor and the platform that takes up.

It is placed with to be provided with tooth bar, carriage on the outside of capstan roll and drive shaft, carriage on the carriage and is connected with It is connected with guide rail, guide rail above saddle, saddle and is provided with bracket, guide pillar and machine is provided between saddle and bracket Frame, saddle is connected with frame, is connected between frame and bracket on the outside of lift cylinder, frame and is provided with stepper motor, and step With teeth piece is connected in stepper motor, connection is intermeshed between tooth block and tooth bar so that the startup rotation of stepper motor can pass through Rack drives bracket carries out transverse shifting, and the setting of saddle and guide rail is then easy to bracket to carry out steady transverse shifting, and lifting air The setting of cylinder can then drive bracket to carry out lifting activity, and the setting of guide pillar then allows bracket to carry out smoothly lifting and run.

The bottom of the bracket is provided with axial trough, and the lower surface of bracket is provided with backing, backing surface be provided with two with On flower hole, the both sides of bracket are provided with guide hole, and guide pillar is located inside guide hole, and the setting in flower hole allows the glass being placed on bracket Glass can be cooled down, and the setting of axial trough allows the drive shaft can not only to be located at the top of backing, can also be located at the lower section of backing, The setting of guide hole is easy to the bracket can be lifted.

Preferably, be connected with screw mandrel between upper furnace body and lower furnace body in the heating furnace, screw mandrel be provided with four with On, and screw mandrel is evenly distributed on around heating furnace, the top of every screw mandrel is both provided with reductor, and screw mandrel, elevating lever are with subtracting Connection is intermeshed between fast machine so that the rotation of elevating lever can drive upper furnace body to be lifted by reductor and screw mandrel.

Pole cold wind is disposed with preferably, being respectively arranged with the cooling frame on drive shaft and roller bearing, cooling frame Bucket and slow cooling bellows, the pole cold wind bucket are provided with two, respectively in cooling frame top and lower section, the slow cooling bellows Centre is connected with cooling blower, allows pole cold wind bucket the glass on cooling frame quickly can be carried out into cooling treatment, then by cold But extension set is cooled down with slow cooling bellows to glass, effectively reduces glass surface temperature.

It is provided with preferably, being provided with below the forming supporter above pressure head cylinder and positioning cylinder, forming supporter Link, forming supporter upper face center is provided with middleboxes, and forming supporter upper surface both sides are provided with side box, the pressure head cylinder Top be connected with above pressure head, positioning cylinder and be connected with railing, die-cylinder, die-cylinder are connected with the link Lower section be connected with mould, allow die-cylinder can driven mold lifted, pressure head cylinder can be lifted with dynamic head, So as to allow mould that glass is carried out into forming processes with pressure head, and middleboxes and the setting of side box are then easy to user to guide reel It is attached with regulating roller, so as to facilitate the glass transportation on forming supporter after processing and forming.

Preferably, the middleboxes are internally provided with a side pole and more than two female connectors, the inside of side box More than two core retainer plates are provided with, and the center of side pole, female connector and core retainer plate is both provided with gear and fixing hole, the side pole Gear and the gear in female connector are connected by chain engagement, and are connected with to be provided with guide reel, female connector in side pole and are connect roller, described Gear between core retainer plate and core retainer plate is intermeshed also by chain to be connected, and core retainer plate is internally provided with regulating roller so that meet roller company It is connected in female connector, guide reel can be connected by core retainer plate with side pole, regulating roller can be connected with core retainer plate, allows the rotational energy of guide reel Enough drive side pole, female connector and core retainer plate to be rotated, thus allow guide reel, connect roller and regulating roller and can carry out rotary moveable.

Preferably, being connected with the left of the lower furnace body into piece platform, enter and be provided with piece platform into piece roller and location-plate, made Obtain glass to can be placed at on piece platform, and entered by entering piece roller in heating furnace, the position of glass is entered by location-plate Row positioning action.

Preferably, being provided with slice roller on the right side of the lower furnace body, the both sides of lower furnace body are both provided with placing plate, place Ceramic roller is provided with plate, ceramic roller is located at the center of upper furnace body and lower furnace body, so that ceramic roller can be transported glass Defeated processing.

Connected preferably, being intermeshed between the capstan roll, guide reel and drive shaft by chain, roller bearing and roller bearing Between also by chain be intermeshed connect so that the rotation of capstan roll can drive guide reel to be rotated with drive shaft, Allow the rotation of the 4th motor whole roller bearings on cooling frame can be driven to be rotated.

Chain is connected with preferably, being engaged between the lifting motor and elevating lever so that lifting motor can drive Elevating lever is rotated, it is described enter between piece roller and the first motor, between ceramic roller and conveying lever, conveying lever and the second motor it Between, slice roller and accelerate between motor, be all connected with belt between the 3rd motor and capstan roll, between the 4th motor and roller bearing, First motor can be driven into piece roller to be rotated, the second motor can drive conveying lever to be rotated, and can be by defeated Bar is sent to drive ceramic roller to be rotated, accelerating the rotation of motor can drive slice roller to be rotated, the rotational energy of the 3rd motor Capstan roll is enough driven to be rotated, the rotation of the 4th motor can drive roller bearing to be rotated.

The beneficial effects of the utility model are：Because heating furnace includes upper furnace body, lower furnace body and screw mandrel, and set on upper furnace body Lifting motor and elevating lever are equipped with, connection is intermeshed between elevating lever, reductor and screw mandrel so that the startup energy of lifting motor Enough drive elevating lever to be rotated, allow elevating lever to drive upper furnace body to carry out lifting activity by reductor and screw mandrel, so as to Operator is allowed reasonably to be adjusted to the height of upper furnace body in heating furnace by the situation of required processing glass, it is to avoid upper furnace body The energy waste crossed out and caused with lower furnace body, also allows for operator's rise upper furnace body so as to the electric elements to inside heating furnace Maintenance process is carried out, glass processing production cost is not only effectively reduced, also greatly improves the maintenance convenience of operator；And Carriage bracket, frame, saddle, guide rail, tooth bar, the setting of stepper motor and lift cylinder can then allow the glass that shaping is completed Glass is being transported on bracket, so that the top of bracket can be stably placed at by allowing shaping to complete glassware, and passes through bracket Glass is transported in the cold wind bucket of pole and carries out quick cooling fixation, glass is prevented effectively from and is conveyed on roller bearing and rock and make because of fluctuating Into glass edge it is uneven the problem of, effectively improve the quality improved after glass processing production, and pole cold wind bucket and slow cooling bellows The mode being arranged side by side successively enables the glass after shaping to be rapidly performed by reduction cooling, improves the processing effect of glass production Rate, glass cooling effectiveness is too low when changing conventional production and the slow defect of speed of production that occurs, and also reduces Floor space when cooling frame is discharged, effectively improves the space availability ratio of the device.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing to be used needed for description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of overall structure diagram of high-performance glass device for automatically molding of the utility model；

Fig. 2 is to enter the structure chart of piece platform in a kind of high-performance glass device for automatically molding of the utility model；

Fig. 3 is side box and the arrangement of middleboxes in a kind of high-performance glass device for automatically molding of the utility model Figure；

The partial enlargement structure chart that Fig. 4 is A in a kind of high-performance glass device for automatically molding of the utility model；

The close-up plan view that Fig. 5 is A in a kind of high-performance glass device for automatically molding of the utility model；

Fig. 6 is a kind of high-performance glass device for automatically molding B partial enlargement structure chart of the utility model；

Fig. 7 is the structure chart of bracket in a kind of high-performance glass device for automatically molding of the utility model；

Fig. 8 is a kind of middleboxes structure chart of high-performance glass device for automatically molding of the utility model；

Fig. 9 is a kind of middleboxes internal plane of high-performance glass device for automatically molding of the utility model；

Figure 10 is a kind of side box structure chart of high-performance glass device for automatically molding of the utility model；

Figure 11 is a kind of side box internal plane of high-performance glass device for automatically molding of the utility model；

Figure 12 is to connect the structure chart of roller in a kind of high-performance glass device for automatically molding of the utility model；

Figure 13 is the structure chart of guide reel in a kind of high-performance glass device for automatically molding of the utility model；

Figure 14 is the structure chart of regulating roller in a kind of high-performance glass device for automatically molding of the utility model.

Embodiment

Preferred embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings, so that advantage of the present utility model It can be easier to be readily appreciated by one skilled in the art with feature, so as to make protection domain of the present utility model apparent clear and definite Define.

A kind of high-performance glass device for automatically molding as shown in Fig. 1 to Figure 14, including heating furnace 1, forming supporter 2, conveying Frame 3 and cooling frame 4, the heating furnace 1 include upper furnace body 11, lower furnace body 12 and screw mandrel（Do not mark）, the upper furnace body 11 sets Have lifting motor 111, an elevating lever 112 and reducing motor 113, the lower furnace body 12 be provided with into piece platform 13, the first motor 132, Second motor 121, acceleration motor 125, conveying lever 122 are provided with link 21, mould gas with placing plate 123, the forming supporter 2 Cylinder 211, mould 212, pressure head 261, pressure head cylinder 26 and positioning cylinder 25, the carriage 3 are provided with the 3rd motor 24, bracket 31st, frame 32, guide pillar 323, saddle 34, guide rail 35, tooth bar 33, stepper motor 321 and lift cylinder 322, the cooling frame 4 are set It is equipped with pole cold wind bucket 41, slow cooling bellows 42, cooling blower 421, the 4th motor 44 and the platform 45 that takes up.

Capstan roll 27 and drive shaft 241 are placed with the carriage 3, the outside of carriage 3 is provided with tooth bar 33, carriage It is connected with 3 on guide rail 35, guide rail 35 and is connected with saddle 34, the top of saddle 34 is provided with bracket 31, saddle 34 and support Guide pillar 323 and frame 32 are provided between frame 31, saddle 34 is connected with frame 32, and lifting is connected between frame 32 and bracket 31 Cylinder 322, the outside of frame 32, which is provided with stepper motor 321, and stepper motor 321, connects with teeth piece（Do not mark）, tooth block It is intermeshed and is connected between tooth bar 33 so that the startup rotation of stepper motor 321 can drives bracket 31 to enter by tooth bar 33 Row transverse shifting, the setting of saddle 34 and guide rail 35 is then easy to bracket 31 to carry out steady transverse shifting, and lift cylinder 322 is set Put, bracket 31 can be driven to carry out lifting activity, the setting of guide pillar 323 then allows bracket 31 to carry out smoothly lifting and run.

The bottom of the bracket 31 is provided with axial trough 312, and the lower surface of bracket is provided with backing 311, and the surface of backing 311 is set It is equipped with more than two colored holes（Do not mark）, the both sides of bracket 31 are provided with guide hole 313, and guide pillar 323 is located in guide hole 313 The glass being placed on bracket 31 can be cooled down for portion, the setting in flower hole, and the setting of axial trough 312 allows drive shaft 241 not only The top of backing 311 can be located at, can also be located at the lower section of backing 311, the setting of guide hole 313 is then easy to bracket 31 to be risen Drop.

It is connected with screw mandrel between upper furnace body 11 and lower furnace body 12 in the heating furnace 1, screw mandrel is provided with more than four, and Screw mandrel is evenly distributed on around heating furnace 1, and the top of every screw mandrel is both provided with reductor 113, screw mandrel, elevating lever 112 with Connection is intermeshed between reductor 113 so that the rotation of elevating lever 112 can drive upper stove by reductor 113 and screw mandrel Body 11 is lifted.

It is respectively arranged with the cooling frame 4 on drive shaft 241 and roller bearing 43, cooling frame 4 and is disposed with pole cold wind bucket 41 are provided with two with slow cooling bellows 42, the pole cold wind bucket 41, respectively positioned at the top of cooling frame 4 and lower section, the slow cooling wind The center of case 42 is connected with cooling blower 421, and pole cold wind bucket 41 quickly can be carried out the glass on cooling frame 4 at cooling Reason, is then cooled down, effectively reduces the temperature of glass surface again by cooling down extension set 421 with slow cooling bellows 42 to glass Degree.

The lower section of the forming supporter 2 is provided with pressure head cylinder 26 and positioning cylinder 25, and the top of forming supporter 2 is provided with connection Frame 21, the upper face center of forming supporter 2 is provided with middleboxes 22, and the upper surface both sides of forming supporter 2 are provided with side box 23, the pressure head The top of cylinder 26 is connected with pressure head 261, and the top of positioning cylinder 25 is connected with railing（Do not mark）, connect on the link 21 Be connected to die-cylinder 211, the lower section of die-cylinder 211 is connected with mould 212, allow die-cylinder 211 can driven mold 212 enter Row lifting, pressure head cylinder 26 can be lifted with dynamic head 261, so as to allow mould 212 to be molded glass with pressure head 261 Processing, and middleboxes 22 are then easy to user to be attached guide reel 28 and regulating roller 234 with the setting of side box 23, so that Facilitate the glass transportation after processing and forming on forming supporter 2.

The middleboxes 22 are internally provided with a side pole 221 and more than two female connectors 222, the inside of side box 23 More than two core retainer plates 231 are provided with, and side pole 221, female connector 222 are both provided with gear 233 with fixing with the center of core retainer plate 231 Gear 233 in hole 232, the side pole 221 passes through chain with the gear 233 in female connector 222（Do not mark）Engagement connection, and end It is connected with to be provided with guide reel 28, female connector 222 on bar 221 and connects roller 223, the gear between the core retainer plate 231 and core retainer plate 231 233 are intermeshed connection also by chain, and core retainer plate 231 is internally provided with regulating roller 234 so that connect roller 223 and be connected to female connector On 222, guide reel 28 can be connected by core retainer plate 231 with side pole 221, and regulating roller 234 can be connected with core retainer plate 231, allow guiding The rotation of roller 28 can drive side pole 221, female connector 222 to be rotated with core retainer plate 231, thus allow guide reel 28, connect roller 223 with tune Section roller 234 can carry out rotary moveable.

The left side of the lower furnace body 12 is connected with into piece platform 13, is entered and is provided with piece platform 13 into piece roller 131 and location-plate 133 so that glass can be placed at on piece platform 13, and entered by entering piece roller 131 in heating furnace 1, pass through location-plate 133 Positioning action is carried out to the position of glass.

The right side of the lower furnace body 12 is provided with slice roller 126, and the both sides of lower furnace body 12 are both provided with placing plate 123, put Put and ceramic roller 124 is provided with plate 123, ceramic roller 124 is located at the center of upper furnace body 11 and lower furnace body 12, so as to allow ceramic roller Glass can be carried out transport processing by 124.

It is intermeshed and is connected by chain between the capstan roll 27, guide reel 28 and drive shaft 241, roller bearing 43 and roller bearing It is intermeshed and connects also by chain between 43 so that the rotation of capstan roll 27 can drives guide reel 28 to enter with drive shaft 241 Row rotation, also allows the rotation of the 4th motor 44 that whole roller bearings 43 on cooling frame 4 can be driven to be rotated.

Engaged between the lifting motor 111 and elevating lever 112 and be connected with chain so that lifting motor 111 can drive Elevating lever 112 is rotated, it is described enter the motor 132 of piece roller 131 and first between, between ceramic roller 124 and conveying lever 122, it is defeated Send between the motor 121 of bar 122 and second, slice roller 126 and accelerate between motor 125, between the 3rd motor 24 and capstan roll 27, Belt is all connected between 4th motor 44 and roller bearing 43（Do not mark）, the first motor 132 can be driven into piece roller 131 and carries out Rotation, the second motor 121 can drive conveying lever 122 to be rotated, and by conveying lever 122 ceramic roller 124 can be driven to enter Row rotation, accelerating the rotation of motor 125 can drive slice roller 126 to be rotated, and the rotation of the 3rd motor 24 can drive master Deflector roll 27 is rotated, and the rotation of the 4th motor 44 can drive roller bearing 43 to be rotated.

Glass can be carried out tempering shaping, working process by the high-performance glass device for automatically molding, start lifting first Motor 111 so that lifting motor 111 by elevating lever 112 drive upper furnace body 11 carry out lifting activity so as to upper furnace body 11 with Height between lower furnace body 12 is adjusted；Then start the first motor 132, the second motor 121, accelerate the electricity of motor the 125, the 3rd The motor 44 of machine 24 and the 4th, allows the first motor 132 to drive into piece roller 131 and is rotated, the second motor 121 passes through conveying lever 122 Drive the ceramic roller 124 inside heating furnace 1 to be rotated, accelerate motor 125 to drive slice roller 126 to be rotated, the 3rd motor 24 drive capstan rolls 27 are rotated, and the 4th motor 44 drives roller bearing 43 to be rotated, and enters piece roller 131, slice roller 126, master Be both provided with gear 233 on deflector roll 27, guide reel 28, drive shaft 241 and roller bearing 43, allow into piece roller 131 and enter piece roller 131 it Between, between slice roller 126 and slice roller 126, between capstan roll 27 and guide reel 28, drive shaft 241, roller bearing 43 and roller bearing 43 it Between can be intermeshed and connect by chain, and ceramic roller 124 is then connected all between conveying lever 122 by belt so that Allowing can be carried out into piece roller 131, ceramic roller 124, slice roller 126, capstan roll 27, guide reel 28, drive shaft 241 and roller bearing 43 Rotating operation；Then glass is placed on on piece platform 13, glass positioned by location-plate 133, glass is allowed by entering Piece roller 131 enters with ceramic roller 124 and tempering working process is carried out in heating furnace 1；And the glass after heating then is transported to The top of forming supporter 2, spacing to glass progress by positioning cylinder 25, then pressure head cylinder 26 starts, and will by pressure head 261 Glass is lifted, and the driven mold 212 of die-cylinder 211 is pushed, and glass is carried out at shaping by mould 212 and pressure head 261 Reason, after the completion of glass shaping, die-cylinder 211, positioning cylinder 25 retract with pressure head cylinder 26 so that be molded glass on pressure head 261 The edge of glass is placed just in regulating roller 234 and conveyed, and glass is transported in drive shaft 231；Then on carriage 3 Lift cylinder 322, which starts, drives bracket 31 to rise so that the backing 311 of bracket 31 can lift glass；Then stepper motor 24 start, and the tooth block on stepper motor 24 is connected with the engagement of tooth bar 33, and the frame 32 on stepper motor 24 is connected with saddle 34, leads Frame 34 is connected with guide rail 35, and guide pillar 323, the upper end of lift cylinder 322 and bracket 31 are connected between saddle 34 and bracket 31 It is connected, lower end is connected with frame 32 so that the rotation of stepper motor 24 can drive saddle 34 and support by tooth block and tooth bar 33 Frame 31 carries out transverse shifting, is quickly cooled and solidified so that the glass on backing 311 is transported in pole cold wind bucket 41, right Avoid glass edge up-and-down situation occur when glass is transported, then lift cylinder 322 declines, allow drive shaft 241 It is located just in the axial trough 312 of bracket 31, the backing 311 of bracket 31 is located at the lower section of drive shaft 241, so as to pass through drive shaft 241 Glass is conveyed；Then lift cylinder 322 drives bracket 31 to rise, and stepper motor 321 drives bracket 31 to return back to again Position originally；And the glass after extremely cold is then transported on roller bearing 43 by drive shaft 241, passes through slow cooling bellows 42 Cooling down again is carried out to glass surface so that glass surface temperature reduction is complete；Then glass, which is transported to, takes up on platform 45 Operating personnel are allowed to be collected packaging to glass.Wherein upper furnace body 11 is both provided with electric add with the inside of lower furnace body 12 Heated filament（Do not mark）, so as to carry out heating tempering processing to glass；Screw mandrel is provided with more than four, and screw mandrel is erected at and added Around hot stove 1, the upper end of screw mandrel is both provided with reductor 113, and reductor 113 is connected with upper furnace body 11, and reductor 113 is distinguished It is connected with elevating lever 112, screw mandrel intermeshing；Regulating tank is provided with location-plate 133（Do not mark）, allow screw（Do not mark）Energy Enough it is connected by the regulating tank on location-plate 133 with entering piece platform 13, the position of location-plate 13 can be adjusted by user； The both sides of carriage 3 are connected with tooth bar 33, and the two ends of tooth bar 33 are provided with travel switch（Do not mark）, control to walk by travel switch Stepper motor 321 carries out rational positive and negative rotation.

The beneficial effects of the utility model are：Because heating furnace includes upper furnace body, lower furnace body and screw mandrel, and set on upper furnace body Lifting motor and elevating lever are equipped with, connection is intermeshed between elevating lever, reductor and screw mandrel so that the startup energy of lifting motor Enough drive elevating lever to be rotated, allow elevating lever to drive upper furnace body to carry out lifting activity by reductor and screw mandrel, so as to Operator is allowed reasonably to be adjusted to the height of upper furnace body in heating furnace by the situation of required processing glass, it is to avoid upper furnace body The energy waste crossed out and caused with lower furnace body, also allows for operator's rise upper furnace body so as to the electric elements to inside heating furnace Maintenance process is carried out, glass processing production cost is not only effectively reduced, also greatly improves the maintenance convenience of operator；And Carriage bracket, frame, saddle, guide rail, tooth bar, the setting of stepper motor and lift cylinder can then allow the glass that shaping is completed Glass is being transported on bracket, so that the top of bracket can be stably placed at by allowing shaping to complete glassware, and passes through bracket Glass is transported in the cold wind bucket of pole and carries out quick cooling fixation, glass is prevented effectively from and is conveyed on roller bearing and rock and make because of fluctuating Into glass edge it is uneven the problem of, effectively improve the quality improved after glass processing production, and pole cold wind bucket and slow cooling bellows The mode being arranged side by side successively enables the glass after shaping to be rapidly performed by reduction cooling, improves the processing effect of glass production Rate, glass cooling effectiveness is too low when changing conventional production and the slow defect of speed of production that occurs, and also reduces Floor space when cooling frame is discharged, effectively improves the space availability ratio of the device.

The above, embodiment only of the present utility model, but protection domain of the present utility model do not limit to In this, any change or replacement expected without creative work should all be covered within protection domain of the present utility model. Therefore, protection domain of the present utility model should be determined by the scope of protection defined in the claims.

Claims (9)

1. a kind of high-performance glass device for automatically molding, it is characterised in that：Including heating furnace, forming supporter, carriage and cooling frame, The heating furnace includes upper furnace body, lower furnace body and screw mandrel, and the upper furnace body is provided with lifting motor, elevating lever and reducing motor, The lower furnace body is provided with into piece platform, the first motor, the second motor, acceleration motor, conveying lever and set up with placing plate, the shaping Link, die-cylinder, mould, pressure head, pressure head cylinder and positioning cylinder are equipped with, the carriage is provided with the 3rd motor, support Frame, frame, guide pillar, saddle, guide rail, tooth bar, stepper motor and lift cylinder, the cooling frame are provided with pole cold wind bucket, slow cooling Bellows, cooling blower, the 4th motor and the platform that takes up；

It is placed with to be provided with tooth bar, carriage on the outside of capstan roll and drive shaft, carriage on the carriage and is connected with guide rail, It is connected with guide rail above saddle, saddle and is provided with bracket, guide pillar and frame, saddle is provided between saddle and bracket It is connected with frame, is connected with the outside of lift cylinder, frame and is provided with stepper motor, and stepper motor between frame and bracket With teeth piece of connection, is intermeshed connection between tooth block and tooth bar；

The bottom of the bracket is provided with axial trough, and the lower surface of bracket is provided with backing, and backing surface is provided with more than two Hua Kong, the both sides of bracket are provided with guide hole, and guide pillar is located inside guide hole.

2. a kind of high-performance glass device for automatically molding according to claim 1, it is characterised in that：In the heating furnace Screw mandrel is connected between upper furnace body and lower furnace body, screw mandrel is provided with more than four, and screw mandrel is evenly distributed on around heating furnace, The top of every screw mandrel is both provided with reductor, and connection is intermeshed between screw mandrel, elevating lever and reductor.

3. a kind of high-performance glass device for automatically molding according to claim 1, it is characterised in that：Divide on the cooling frame It is not provided with drive shaft and roller bearing, cooling frame and is disposed with pole cold wind bucket and slow cooling bellows, the pole cold wind bucket is provided with Two, respectively positioned at cooling frame top and lower section, the center of the slow cooling bellows is connected with cooling blower.

4. a kind of high-performance glass device for automatically molding according to claim 1, it is characterised in that：Under the forming supporter Side, which is provided with above pressure head cylinder and positioning cylinder, forming supporter, is provided with link, during forming supporter upper face center is provided with Between box, forming supporter upper surface both sides are provided with above side box, the pressure head cylinder and are connected with pressure head, the top of positioning cylinder It is connected with to be connected with below die-cylinder, die-cylinder on railing, the link and is connected with mould.

5. a kind of high-performance glass device for automatically molding according to claim 4, it is characterised in that：The middleboxes it is interior Portion is provided with a side pole and more than two female connectors, and side box is internally provided with more than two core retainer plates, and side pole, female connector The gear being both provided with the center of core retainer plate in gear and fixing hole, the side pole engages company with the gear in female connector by chain Connect, and be connected with to be provided with guide reel, female connector in side pole and connect roller, the gear between the core retainer plate and core retainer plate is also by chain phase Mutually engagement connection, and core retainer plate is internally provided with regulating roller.

6. a kind of high-performance glass device for automatically molding according to claim 1, it is characterised in that：A left side for the lower furnace body Side is connected with into piece platform, is entered and is provided with piece platform into piece roller and location-plate.

7. a kind of high-performance glass device for automatically molding according to claim 1, it is characterised in that：The right side of the lower furnace body Side is provided with slice roller, and the both sides of lower furnace body are both provided with placing plate, place and ceramic roller is provided with plate, and ceramic roller is located at upper stove The center of body and lower furnace body.

8. a kind of high-performance glass device for automatically molding according to claim 3, it is characterised in that：The capstan roll, draw It is intermeshed and is connected by chain between deflector roll and drive shaft, is intermeshed and connects also by chain between roller bearing and roller bearing.

9. a kind of high-performance glass device for automatically molding according to claim 1-8 any one, it is characterised in that：It is described Engaged between lifting motor and elevating lever and be connected with chain, it is described enter between piece roller and the first motor, ceramic roller and conveying lever it Between, between conveying lever and the second motor, slice roller and accelerate between motor, between the 3rd motor and capstan roll, the 4th motor with Belt is all connected between roller bearing.