CN106396353A - Highly efficient automatic glass forming device - Google Patents
Highly efficient automatic glass forming device Download PDFInfo
- Publication number
- CN106396353A CN106396353A CN201611058568.4A CN201611058568A CN106396353A CN 106396353 A CN106396353 A CN 106396353A CN 201611058568 A CN201611058568 A CN 201611058568A CN 106396353 A CN106396353 A CN 106396353A
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- China
- Prior art keywords
- motor
- furnace body
- roller
- glass
- cylinder
- Prior art date
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Classifications
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03B—MANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
- C03B23/00—Re-forming shaped glass
- C03B23/02—Re-forming glass sheets
- C03B23/023—Re-forming glass sheets by bending
- C03B23/03—Re-forming glass sheets by bending by press-bending between shaping moulds
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03B—MANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
- C03B27/00—Tempering or quenching glass products
- C03B27/04—Tempering or quenching glass products using gas
-
- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03B—MANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
- C03B35/00—Transporting of glass products during their manufacture, e.g. hot glass lenses, prisms
- C03B35/14—Transporting hot glass sheets or ribbons, e.g. by heat-resistant conveyor belts or bands
- C03B35/16—Transporting hot glass sheets or ribbons, e.g. by heat-resistant conveyor belts or bands by roller conveyors
- C03B35/163—Drive means, clutches, gearing or drive speed control means
Abstract
The invention provides a highly efficient automatic glass forming device which comprises a heating furnace, a forming rack, a conveying rack and a cooling rack. The heating furnace comprises a upper furnace body, a lower furnace body and a screw bar. The upper furnace body is provided with a lifting motor, a lifting bar and a decelerating motor. The lower furnace body is provided with a glass plate feeding table, a first motor, a second motor, an accelerating motor, a transmission bar and a positioning plate. The forming rack is provided with a connection rack, a model cylinder, a model, a pressing head, a pressing head cylinder and a positioning cylinder. The conveying rack is provided with a third motor, a bracket, a machine rack, a guiding rod, a guiding rack, a guiding rail, a rack, a stepping motor and the lifting cylinder. The cooling rack is provided with an extreme cooling wedge, a slow cooling bellow, a cooling fan , a fourth motor and a glass plate acceptance table; the device has the advantages of the capability of fast tempering, fast forming and fast cooling. These advantages grant conveniences to the manufacturer in the production, processing and maintenance and prevent the non-flatness in the edge of the heated and formed glass.
Description
Technical field
The present invention relates 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, form compression in glass surface
Layer, be internally formed tension layer;When glass is subject to external force to act on, part tension can be offset by compressive stress layer, it is to avoid glass
Broken, reach the purpose improving strength of glass.
In glass tempering furnace in conventional art, the temperature of furnace interior easily comes out, and 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, simultaneously conventional
Glass tempering furnace be also inconvenient for operating personnel and carry out maintenance process, and double mold or processing, glass cannot be carried out to glass
The low production efficiency of glass tempering, also easily occur glass edge occur 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, flatten area, air-cooled area and discharging area, but wherein not
Have and electric annealing furnace is carried out energy consumption problem is solved with maintenance;Although shaping area also describes the forming process to glass and becomes
Type mode, also illustrate that the glass to different model, required dip mold of different sizes, can by left and right side ceramic roller and
Middle ceramic roller is set to axially adjustable ceramic roller, and that is, left and right ceramic roller and middle ceramic roller are axially movable along it, to adjust
Save the size forming room between left and right ceramic roller and middle ceramic roller or in the middle of two between ceramic roller, but in supporting paper
In not to how adjusting left and right side ceramic roller and middle ceramic roller illustrates, the also not fixed form to ceramic roller
Illustrate it is impossible to allow user to carry out implementing to manufacture;Flattening area and then being pushed glass by pressing mechanism is that glass edge is neat
Flat, but be easy to make formed glass that deformation, the quality after impact glass shaping, and single air-cooled area to occur during pushing
Setting be also unfavorable for the quick cooling of glass, the production efficiency of impact glass, be unfavorable for the producer's quick production to glass
Processing.
Content of the invention
Present invention mainly solves the technical problem existing for prior art, thus one kind is provided can effectively to reduce energy wave
Take, and be easy to operator and carry out maintenance process, effectively improve glass edge flatness, increase glass production quality and production efficiency
High-performance glass device for automatically molding.
The present invention is a kind of high-performance glass device for automatically molding, including heating furnace, forming supporter, carriage and cooling frame,
Described heating furnace includes upper furnace body, lower furnace body and screw mandrel, and described upper furnace body is provided with lifting motor, elevating lever and reducing motor,
Described lower furnace body is provided with into piece platform, the first motor, the second motor, accelerates motor, conveying lever and place plate, and described shaping sets up
It is equipped with link, die-cylinder, mould, pressure head, pressure head cylinder and positioning cylinder, described carriage is provided with the 3rd motor, support
Frame, frame, guide pillar, saddle, guide rail, tooth bar, stepper motor and lift cylinder, described cooling frame is provided with pole cold wind bucket, slow cooling
Bellows, cooling blower, the 4th motor and the platform that takes up.
Capstan roll and drive shaft are placed with described carriage, are provided with tooth bar outside carriage, carriage is connected with
Guide rail, guide rail is connected with saddle, and the top of saddle is provided with bracket, is provided with guide pillar and machine between saddle and bracket
Frame, saddle is connected with frame, is connected with lift cylinder between frame and bracket, and the outside of frame is provided with stepper motor, and walks
Connect with teeth piece in stepper motor, engage each other between tooth block and tooth bar and be connected so that the startup rotation of stepper motor can be passed through
Rack drives bracket carries out transverse shifting, and the setting of saddle and guide rail is then easy to bracket and is carried out steady transverse shifting, and lifting air
The setting of cylinder then can drive bracket to carry out lifting activity, and the setting of guide pillar then allows bracket can smoothly be lifted operation.
The bottom of described bracket is provided with axial trough, and the lower surface of bracket is provided with backing, backing surface be provided with two with
On colored 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 drive shaft can not only be located at the top of backing it is also possible to be located at the lower section of backing,
The setting of guide hole is easy to bracket and can be lifted.
Preferably, being connected with screw mandrel between upper furnace body in described heating furnace and lower furnace body, screw mandrel be provided with four with
On, and screw mandrel is evenly distributed on around heating furnace, and the top of every screw mandrel is both provided with reductor, screw mandrel, elevating lever with subtract
Connection is engaged each other so that the rotation of elevating lever can drive upper furnace body to be lifted by reductor and screw mandrel between fast machine.
Preferably, being respectively arranged with drive shaft and roller bearing on described cooling frame, cooling frame is disposed with pole cold wind
Bucket and slow cooling bellows, described pole cold wind bucket is provided with two, be located at respectively above cooling frame with lower section, in described slow cooling bellows
Centre is connected with cooling blower, allows pole cold wind bucket quickly the glass on cooling frame can be carried out cooling treatment, then passes through cold
But extension set and slow cooling bellows cool down to glass, effectively reduce glass surface temperature.
Preferably, the lower section of described forming supporter is provided with pressure head cylinder and positioning cylinder, the top of forming supporter is provided with
Link, forming supporter upper face center is provided with middleboxes, and forming supporter upper surface both sides are provided with side box, described pressure head cylinder
Top be connected with pressure head, the top of positioning cylinder is connected with railing, and described link is connected with die-cylinder, die-cylinder
Lower section be connected with mould, allow die-cylinder can driven mold be lifted, pressure head cylinder can carry dynamic head to be lifted,
Thus allowing mould, with pressure head, glass is carried out forming processes, and the setting of middleboxes and side box is then easy to user to guide reel
It is attached with regulating roller, thus facilitating the glass transportation after processing and forming on forming supporter.
Preferably, described middleboxes be internally provided with a side pole and plural female connector, the inside of side box
It is provided with plural core retainer plate, and the central authorities of side pole, female connector and core retainer plate are both provided with gear and fixing hole, in described side pole
Gear is connected by chain engagement with the gear in female connector, and is connected with guide reel in side pole, is provided with and connects roller in female connector, described
Gear between core retainer plate and core retainer plate engages each other also by chain and is connected, and core retainer plate is internally provided with regulating roller so that connecing roller even
It is connected in female connector, guide reel can be connected with side pole by core retainer plate, and regulating roller can be connected with core retainer plate, allow 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 can carry out rotary moveable.
Preferably, the left side of described lower furnace body is connected with into piece platform, enters and be provided with into piece roller and location-plate on piece platform, make
Obtain glass to can be placed at on piece platform, and entered in heating furnace by entering piece roller, by location-plate, the position of glass is entered
Row positioning action.
Preferably, the right side of described lower furnace body is provided with slice roller, 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 central authorities of upper furnace body and lower furnace body, thus ceramic roller can be transported glass
Defeated process.
Preferably, engaged each other by chain between described capstan roll, guide reel and drive shaft being connected, roller bearing and roller bearing
Between also by chain engage each other connection so that the rotation of capstan roll can drive guide reel to be rotated with drive shaft,
Allow the rotation of the 4th motor that the whole roller bearings on cooling frame can be driven to be rotated.
Preferably, engage between described lifting motor and elevating lever being connected with chain so that lifting motor can drive
Elevating lever is rotated, 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, between the 3rd motor and capstan roll, be all connected with belt between the 4th motor and roller bearing,
First motor can be driven rotated into piece roller, the second motor can drive conveying lever to be rotated, and can pass through defeated
Send bar to drive ceramic roller to be rotated, accelerate the rotation of motor that slice roller can be driven 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 invention has the beneficial effects as follows:Because heating furnace includes upper furnace body, lower furnace body and screw mandrel, and it is provided with upper furnace body
Lifting motor and elevating lever, engage each other between elevating lever, reductor and screw mandrel and are connected so that the startup of lifting motor can carry
Dynamic elevating lever is rotated, and allows elevating lever drive upper furnace body to carry out lifting activity by reductor and screw mandrel such that it is able to allow behaviour
Author by required processing glass situation the height of upper furnace body in heating furnace is reasonably adjusted, it is to avoid upper furnace body with
The energy waste that body of heater is crossed out and caused, also allows for operator and raises upper furnace body thus carrying out to the electric elements of inside heating furnace
Maintenance process, not only effectively reduces glass processing production cost, also greatly improves the maintenance convenience of operator;And convey
The setting of frame bracket, frame, saddle, guide rail, tooth bar, stepper motor and lift cylinder then can allow the glass that shaping completes exist
It is transported on bracket, thus allowing shaping complete the top that glassware can be stably placed at bracket, and by bracket by glass
Glass is transported in the cold wind bucket of pole and is quickly cooled down fixation, is prevented effectively from glass and conveys on roller bearing and cause because fluctuating is rocked
The uneven problem of glass edge, effectively improves and improves the quality after glass processing produces, and pole cold wind bucket is with slow cooling bellows successively
Glass after the mode being arranged side by side enables to be molded is rapidly performed by reducing cooling, improves the working (machining) efficiency of glass production,
Change that glass cooling effectiveness when conventional produces is too low and the slow defect of speed of production that occurs, and also reduce cooling
Occupation of land space during frame discharge, effectively improves the space availability ratio of this device.
Brief description
In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
Have technology description in required use accompanying drawing be briefly described it should be apparent that, drawings in the following description be only this
Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, acceptable
Other accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is a kind of overall structure diagram of present invention high-performance glass device for automatically molding;
Fig. 2 is the structure chart entering piece platform in a kind of present invention high-performance glass device for automatically molding;
Fig. 3 is the arrangement figure of side box and middleboxes in a kind of present invention high-performance glass device for automatically molding;
Fig. 4 is the partial enlargement structure chart of A in a kind of present invention high-performance glass device for automatically molding;
Fig. 5 is the close-up plan view of A in a kind of present invention high-performance glass device for automatically molding;
Fig. 6 is a kind of partial enlargement structure chart of present invention high-performance glass device for automatically molding B;
Fig. 7 is the structure chart of bracket in a kind of present invention high-performance glass device for automatically molding;
Fig. 8 is a kind of middleboxes structure chart of present invention high-performance glass device for automatically molding;
Fig. 9 is a kind of middleboxes internal plane of present invention high-performance glass device for automatically molding;
Figure 10 is a kind of side box structure chart of present invention high-performance glass device for automatically molding;
Figure 11 is a kind of side box internal plane of present invention high-performance glass device for automatically molding;
Figure 12 is the structure chart connecing roller in a kind of present invention high-performance glass device for automatically molding;
Figure 13 is the structure chart of guide reel in a kind of present invention high-performance glass device for automatically molding;
Figure 14 is the structure chart of regulating roller in a kind of present invention high-performance glass device for automatically molding.
Specific embodiment
Below in conjunction with the accompanying drawings the preferred embodiments of the present invention are described in detail, so that advantages and features of the invention energy
It is easier to be readily appreciated by one skilled in the art, thus protection scope of the present invention is made apparent clearly defining.
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, described heating furnace 1 includes upper furnace body 11, lower furnace body 12 and screw mandrel(Do not mark), described upper furnace body 11 arranges
Have lifting motor 111, elevating lever 112 and reducing motor 113, described 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, described forming supporter 2
Cylinder 211, mould 212, pressure head 261, pressure head cylinder 26 and positioning cylinder 25, described carriage 3 is 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, described cooling frame 4 sets
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 described carriage 3, outside carriage 3, are provided with tooth bar 33, carriage
It is connected with guide rail 35 on 3, guide rail 35 is connected with saddle 34, the top of saddle 34 is provided with bracket 31, saddle 34 and support
It is provided with guide pillar 323 and frame 32, saddle 34 is connected with frame 32, is connected with lifting between frame 32 and bracket 31 between frame 31
Cylinder 322, the outside of frame 32 is provided with stepper motor 321, and connects with teeth piece on stepper motor 321(Do not mark), tooth block
Engage each other between tooth bar 33 and be connected so that the startup rotation of stepper motor 321 can drive 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 and is carried out steady transverse shifting, and the setting of lift cylinder 322
Put, bracket 31 can be driven to carry out lifting activity, the setting of guide pillar 323 then allows bracket 31 can smoothly be lifted operation.
The bottom of described bracket 31 is provided with axial trough 312, and the lower surface of bracket is provided with backing 311, and backing 311 surface sets
It is equipped with plural colored hole(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
Portion, the glass being placed on bracket 31 can be cooled down for 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 it is also possible to be located at the lower section of backing 311, the setting of guide hole 313 is then easy to bracket 31 and is risen
Fall.
It is connected with screw mandrel, screw mandrel is provided with more than four between upper furnace body 11 in described heating furnace 1 and lower furnace body 12, and
Screw mandrel is evenly distributed on heating furnace 1 around, and the top of every screw mandrel is both provided with reductor 113, screw mandrel, elevating lever 112 with
Connection is engaged each other so that the rotation of elevating lever 112 can drive upper stove by reductor 113 and screw mandrel between reductor 113
Body 11 is lifted.
Drive shaft 241 and roller bearing 43 are respectively arranged with described cooling frame 4, cooling frame 4 is disposed with pole cold wind bucket
41 are provided with two with slow cooling bellows 42, described pole cold wind bucket 41, are located at cooling frame 4 top and lower section, described slow cooling wind respectively
The central authorities of case 42 are 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 again to glass with slow cooling bellows 42 by cooling down extension set 421, is effectively reduced the temperature of glass surface
Degree.
The lower section of described 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, forming supporter 2 upper face center is provided with middleboxes 22, and forming supporter 2 upper surface both sides are provided with side box 23, described 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), described link 21 connects
It is connected to die-cylinder 211, the lower section of die-cylinder 211 is connected with mould 212, allow die-cylinder 211 can enter driven mold 212
Row lifting, pressure head cylinder 26 can carry dynamic head 261 to be lifted, thus allowing mould 212 to be molded glass with pressure head 261
Process, and the setting of middleboxes 22 and side box 23 is then easy to user and is attached guide reel 28 and regulating roller 234, thus
Facilitate the glass transportation after processing and forming on forming supporter 2.
Described middleboxes 22 be internally provided with a side pole 221 and plural female connector 222, the inside of side box 23
It is provided with plural core retainer plate 231, and side pole 221, female connector 222 are both provided with gear 233 and fix with the central authorities of core retainer plate 231
Hole 232, the gear 233 in described side pole 221 passes through chain with the gear 233 in female connector 222(Do not mark)Engagement connects, and holds
Guide reel 28 is connected with bar 221, is provided with female connector 222 and connects roller 223, the gear between described core retainer plate 231 and core retainer plate 231
233 engage each other connection also by chain, and core retainer plate 231 is internally provided with regulating roller 234 so that connecing roller 223 to be connected to female connector
On 222, guide reel 28 can be connected with side pole 221 by core retainer plate 231, and regulating roller 234 can be connected with core retainer plate 231, allows guiding
The rotation of roller 28 can drive side pole 221, female connector 222 and core retainer plate 231 to be rotated, thus allow guide reel 28, connect roller 223 and adjust
Section roller 234 can carry out rotary moveable.
The left side of described lower furnace body 12 is connected with into piece platform 13, enters and is provided with into piece roller 131 and location-plate on piece platform 13
133 so that glass can be placed at on piece platform 13, and enters in heating furnace 1 by entering piece roller 131, by location-plate 133
Positioning action is carried out to the position of glass.
The right side of described 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 central authorities of upper furnace body 11 and lower furnace body 12, thus allowing ceramic roller
Glass can be carried out transport processing by 124.
Engaged each other by chain between described capstan roll 27, guide reel 28 and drive shaft 241 and be connected, roller bearing 43 and roller bearing
Connection is engaged each other so that the rotation of capstan roll 27 can drive guide reel 28 to enter with drive shaft 241 also by chain between 43
Row rotation, also allows the rotation of the 4th motor 44 that the whole roller bearings 43 on cooling frame 4 can be driven to be rotated.
Engage between described lifting motor 111 and elevating lever 112 and be connected with chain so that lifting motor 111 can drive
Elevating lever 112 is rotated, described enter between piece roller 131 and the first motor 132, between ceramic roller 124 and conveying lever 122, defeated
Send between bar 122 and the second motor 121, slice roller 126 and accelerate between motor 125, between the 3rd motor 24 and capstan roll 27,
All it is connected with belt between 4th motor 44 and roller bearing 43(Do not mark), the first motor 132 can be driven and carry out into piece roller 131
Rotation, the second motor 121 can drive conveying lever 122 to be rotated, and ceramic roller 124 can be driven to enter by conveying lever 122
Row rotation, accelerates the rotation of motor 125 that slice roller 126 can be driven to be rotated, 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 this high-performance glass device for automatically molding, start lifting first
Motor 111 so that lifting motor 111 drives upper furnace body 11 to carry out lifting activity by elevating lever 112, thus 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 motor the 125, the 3rd electricity
Machine 24 and the 4th motor 44, allow the first motor 132 to drive and are rotated into piece roller 131, and the second motor 121 passes through conveying lever 122
Drive the ceramic roller 124 within 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 with 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 connection can be engaged each other by chain, and ceramic roller 124 is then connected by belt all between conveying lever 122, thus
Allow and can carry 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, by location-plate 133, glass is positioned, allow glass pass through into
Piece roller 131 and ceramic roller 124 enter into and carry out tempering working process in heating furnace 1;And the glass after heating then is transported to
The top of forming supporter 2, is carried out spacing, then pressure head cylinder 26 starts by positioning cylinder 25 to glass, and is incited somebody to action by pressure head 261
Glass lifts, and die-cylinder 211 driven mold 212 is pushed, and by mould 212 and pressure head 261, glass is carried out at shaping
Reason, after the completion of glass shaping, die-cylinder 211, positioning cylinder 25 are with pressure head cylinder 26 rollback so that being molded glass on pressure head 261
The edge of glass is placed just at and is conveyed in regulating roller 234, and glass is transported in drive shaft 231;Then on carriage 3
Lift cylinder 322 starts drive bracket 31 and rises so that glass can be lifted by the backing 311 of bracket 31;Then stepper motor
24 startups, the tooth block on stepper motor 24 is connected with tooth bar 33 engagement, and the frame 32 on stepper motor 24 is connected with saddle 34, leads
Frame 34 is connected with guide rail 35, is connected with guide pillar 323, lift cylinder 322 upper end and bracket 31 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, thus the glass on backing 311 is transported in pole cold wind bucket 41 quickly being cooled and solidified, right
Avoid glass edge that up-and-down situation occurs when glass is transported, then lift cylinder 322 declines, and allows drive shaft 241
It is located just in bracket 31 axial trough 312, the backing 311 of bracket 31 is located at the lower section of drive shaft 241, thus passing through drive shaft 241
Glass is conveyed;Then lift cylinder 322 drives bracket 31 to rise, and stepper motor 321 drives bracket 31 again to return back to
Position originally;And the glass after extremely cold is then transported on roller bearing 43 by drive shaft 241, by slow cooling bellows 42
Glass surface is carried out again cooling down so that glass surface temperature reduces completely;Then glass is transported to and takes up on platform 45
Allow operating personnel that glass is collected packing.Wherein upper furnace body 11 and the inside of lower furnace body 12 are both provided with electrical heating wire
(Do not mark)Such that it is able to carry out to glass heating tempering process;Screw mandrel is provided with more than four, and screw mandrel is erected at heating furnace
1 around, and the upper end of screw mandrel is both provided with reductor 113, and reductor 113 is connected with upper furnace body 11, reductor 113 respectively with liter
Fall bar 112, screw mandrel engage each other connection;It is provided with regulating tank on location-plate 133(Do not mark), allow screw(Do not mark)Can lead to
Cross the regulating tank on location-plate 133 to be connected with entering piece platform 13, the position of location-plate 13 can be adjusted for user;Conveying
Frame 3 both sides are connected with tooth bar 33, and the two ends of tooth bar 33 are provided with travel switch(Do not mark), stepping electricity is controlled by travel switch
Machine 321 carries out rational positive and negative rotation.
The invention has the beneficial effects as follows:Because heating furnace includes upper furnace body, lower furnace body and screw mandrel, and it is provided with upper furnace body
Lifting motor and elevating lever, engage each other between elevating lever, reductor and screw mandrel and are connected so that the startup of lifting motor can carry
Dynamic elevating lever is rotated, and allows elevating lever drive upper furnace body to carry out lifting activity by reductor and screw mandrel such that it is able to allow behaviour
Author by required processing glass situation the height of upper furnace body in heating furnace is reasonably adjusted, it is to avoid upper furnace body with
The energy waste that body of heater is crossed out and caused, also allows for operator and raises upper furnace body thus carrying out to the electric elements of inside heating furnace
Maintenance process, not only effectively reduces glass processing production cost, also greatly improves the maintenance convenience of operator;And convey
The setting of frame bracket, frame, saddle, guide rail, tooth bar, stepper motor and lift cylinder then can allow the glass that shaping completes exist
It is transported on bracket, thus allowing shaping complete the top that glassware can be stably placed at bracket, and by bracket by glass
Glass is transported in the cold wind bucket of pole and is quickly cooled down fixation, is prevented effectively from glass and conveys on roller bearing and cause because fluctuating is rocked
The uneven problem of glass edge, effectively improves and improves the quality after glass processing produces, and pole cold wind bucket is with slow cooling bellows successively
Glass after the mode being arranged side by side enables to be molded is rapidly performed by reducing cooling, improves the working (machining) efficiency of glass production,
Change that glass cooling effectiveness when conventional produces is too low and the slow defect of speed of production that occurs, and also reduce cooling
Occupation of land space during frame discharge, effectively improves the space availability ratio of this device.
The above, the only specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, and any
The change or replacement expected without creative work, all should be included within the scope of the present invention.Therefore, the present invention
Protection domain should be defined by the protection domain that claims are limited.
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,
Described heating furnace includes upper furnace body, lower furnace body and screw mandrel, and described upper furnace body is provided with lifting motor, elevating lever and reducing motor,
Described lower furnace body is provided with into piece platform, the first motor, the second motor, accelerates motor, conveying lever and place plate, and described shaping sets up
It is equipped with link, die-cylinder, mould, pressure head, pressure head cylinder and positioning cylinder, described carriage is provided with the 3rd motor, support
Frame, frame, guide pillar, saddle, guide rail, tooth bar, stepper motor and lift cylinder, described cooling frame is provided with pole cold wind bucket, slow cooling
Bellows, cooling blower, the 4th motor and the platform that takes up;
Capstan roll and drive shaft are placed with described carriage, are provided with tooth bar outside carriage, carriage is connected with guide rail,
Saddle is connected with guide rail, the top of saddle is provided with bracket, is provided with guide pillar and frame, saddle between saddle and bracket
It is connected with frame, between frame and bracket, is connected with lift cylinder, the outside of frame is provided with stepper motor, and on stepper motor
Connect with teeth piece, engage each other between tooth block and tooth bar and be connected;
The bottom of described bracket is provided with axial trough, and the lower surface of bracket is provided with backing, and backing surface is provided with plural
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 described heating furnace
It is connected with screw mandrel 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, engages each other and be connected 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 described cooling frame
It is not provided with drive shaft and roller bearing, cooling frame is disposed with pole cold wind bucket and slow cooling bellows, described pole cold wind bucket is provided with
Two, it is located at respectively and is connected with cooling blower with lower section, the central authorities of described slow cooling bellows above cooling frame.
4. a kind of high-performance glass device for automatically molding according to claim 1 it is characterised in that:Under described forming supporter
Side is provided with pressure head cylinder and positioning cylinder, and the top of 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 side box, and the top of described pressure head cylinder is connected with pressure head, the top of positioning cylinder
It is connected with railing, described link is connected with die-cylinder, the lower section of die-cylinder is connected with mould.
5. a kind of high-performance glass device for automatically molding according to claim 4 it is characterised in that:Described middleboxes interior
Portion is provided with a side pole and plural female connector, side box be internally provided with plural core retainer plate, and side pole, female connector
It is both provided with gear and fixing hole with the central authorities of core retainer plate, the gear in described side pole is engaged even by chain with the gear in female connector
Connect, and guide reel is connected with side pole, be provided with female connector and connect roller, the gear between described core retainer plate and core retainer plate is also by chain phase
Mutually engagement connects, 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 described lower furnace body
Side is connected with into piece platform, enters and is provided with into piece roller and location-plate on piece platform.
7. a kind of high-performance glass device for automatically molding according to claim 1 it is characterised in that:The right side of described 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 be provided with ceramic roller on plate, and ceramic roller is located at upper stove
Body and the central authorities of lower furnace body.
8. a kind of high-performance glass device for automatically molding according to claim 3 it is characterised in that:Described capstan roll, draw
Engaged each other by chain between deflector roll and drive shaft and be connected, engage each other also by chain between roller bearing and roller bearing and be connected.
9. a kind of high-performance glass device for automatically molding according to claim 1-8 it is characterised in that:Described lifting motor
Engage between elevating lever and be connected with chain, described enter between piece roller and the first motor, between ceramic roller and conveying lever, conveying lever
And the second motor between, slice roller and accelerate between motor, between the 3rd motor and capstan roll, between the 4th motor and roller bearing all
It is connected with belt.
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CN201611058568.4A CN106396353A (en) | 2016-11-27 | 2016-11-27 | Highly efficient automatic glass forming device |
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CN201611058568.4A CN106396353A (en) | 2016-11-27 | 2016-11-27 | Highly efficient automatic glass forming device |
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CN106396353A true CN106396353A (en) | 2017-02-15 |
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CN201611058568.4A Pending CN106396353A (en) | 2016-11-27 | 2016-11-27 | Highly efficient automatic glass forming device |
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CN113213737A (en) * | 2021-05-26 | 2021-08-06 | 湖南金刚玻璃节能科技有限公司 | Gradually-formed curved toughened glass arc-changing equipment |
CN114853324A (en) * | 2022-07-06 | 2022-08-05 | 江苏福坤新材料科技有限公司 | Air quenching device for impact-resistant heat-insulation fireproof glass |
CN116239289A (en) * | 2023-02-21 | 2023-06-09 | 江苏景泰玻璃有限公司 | Hot bending device and hot bending method for glass processing |
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CN116239289A (en) * | 2023-02-21 | 2023-06-09 | 江苏景泰玻璃有限公司 | Hot bending device and hot bending method for glass processing |
CN116239289B (en) * | 2023-02-21 | 2023-11-03 | 江苏景泰玻璃有限公司 | Hot bending device and hot bending method for glass processing |
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Application publication date: 20170215 |