CN102775052B - Device and method for deep processing of glass - Google Patents

Device and method for deep processing of glass Download PDF

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Publication number
CN102775052B
CN102775052B CN201210245764.8A CN201210245764A CN102775052B CN 102775052 B CN102775052 B CN 102775052B CN 201210245764 A CN201210245764 A CN 201210245764A CN 102775052 B CN102775052 B CN 102775052B
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CN
China
Prior art keywords
transmission
sheet glass
transmission platform
stocker
platform
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CN201210245764.8A
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Chinese (zh)
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CN102775052A (en
Inventor
白振中
韩全寿
梁忠
左养利
谢仕武
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中国南玻集团股份有限公司
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Priority to CN201210245764.8A priority Critical patent/CN102775052B/en
Publication of CN102775052A publication Critical patent/CN102775052A/en
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Publication of CN102775052B publication Critical patent/CN102775052B/en

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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/50Glass production, e.g. reusing waste heat during processing or shaping
    • Y02P40/57Improving the yield, e-g- reduction of reject rates

Abstract

The invention discloses a device and a method for deep processing of glass. The device comprises a slicing machine, an edging device, a washing machine, a tempering device and a first transmitting device, wherein the slicing machine is used for cutting a glass substrate into a panel glass workpiece with determined size; the edging device is used for carrying out edging treatment on the cut panel glass workpiece; the washing machine is used for washing the edged panel glass workpiece; the tempering device is used for carrying out tempering treatment on the washed panel glass workpiece; the first transmitting device is arranged between the slicing machine and the edging device so as to transmit the cut panel glass workpiece to the edging device and a second transmitting device, then the panel glass workpiece is arranged between the washing machine and the tempering device, and thus the washed panel glass workpiece is transmitted to the tempering device. With the adoption of the device and the method for deep processing of glass, the production efficiency is improved, and the production cost is reduced.

Description

Glass deep processing equipment and method
[technical field]
The present invention relates to a kind of glass deep processing equipment and method, particularly relate to a kind of can automatization, glass deep processing equipment and the method for continous way.
[background technology]
Along with the continuous development of modern science and technology, glass deep processing has progressively realized from manual operation to automatically working, the introducing of automatically processing device improved glass deep processing efficiency, reduced processing units, also improved the security of processing simultaneously.But, traditional glass deep processing equipment can only be realized separately the various process segments of glass/glass workpiece, for example, glass fluctuating plate, edging, cleaning, tempering etc. can only be realized stage by stage in corresponding processing units, are difficult to continuous operation, thereby make on the one hand glass deep processing operation become complicated, in each stage of glass, still must introduce on the one hand in addition a large amount of work bodies, thereby reduce production efficiency, improve production cost.
[summary of the invention]
In view of above-mentioned condition, be necessary to provide higher, the lower-cost glass deep processing equipment of a kind of production efficiency and method.
A kind of glass deep processing equipment, comprising:
Slicing machine, for cutting into glass baseplate the sheet glass workpiece of predetermined size;
Edging device, for carrying out edging processing to the sheet glass workpiece after cutting;
Cleaning machine, for cleaning the sheet glass workpiece after edging;
Reinforcing device, for carrying out tempering processing to the sheet glass workpiece after cleaning;
The first transport unit, between described slicing machine and described edging device, with by the sheet glass work piece delivery after cutting to described edging device; And
The second transport unit, between described cleaning machine and described reinforcing device, with by the sheet glass work piece delivery after cleaning to described reinforcing device;
Wherein, described sheet glass workpiece cuts into predetermined size through described slicing machine, be sent to described edging device through described the first transport unit again and carry out edging processing, then pass through described cleaning machine and clean, be sent to described reinforcing device finally by described the second transport unit of mistake and carry out tempering processing.
In an embodiment, described the first transport unit comprises the band universal wheel lifting transmission platform, band stocker frame transmission platform and the common transmission platform that are arranged in order therein;
Wherein, after the sheet glass workpiece after cutting is raise by described band universal wheel lifting transmission platform and be sent on described band stocker frame transmission platform, described with stocker frame transmission platform, the sheet glass workpiece after to cutting carries out selectivity storage; If the sheet glass workpiece after described cutting, without storage, is sent to described edging device through described common transmission platform.
In an embodiment, described common transmission platform is identical with the structure of basic transmission platform therein, and described basic transmission platform comprises:
Transmission platform support, comprises transmission platform and is located at the reference wheel of the relative dual-side of described transmission platform;
Multiple live rolls, compartment of terrain is arranged on described transmission platform, is arranged with multiple power wheels on each live roll; And
Driving motor, is fixed on described transmission platform support, and described driving motor is used for driving described multiple live roll synchronously to rotate;
Wherein, described sheet glass workpiece is placed on described multiple power wheel, and described driving motor drives described multiple live roll to rotate, thereby makes described multiple power wheel drive described sheet glass workpiece movable.
Therein in an embodiment, described driving motor drives described multiple live rolls synchronously to rotate by main transmission Timing Belt and multiple auxiliary driving Timing Belt, described main transmission Timing Belt and multiple auxiliary driving Timing Belt are positioned at a side of described transmission platform, wherein said driving motor drives described main transmission Timing Belt, described main transmission Timing Belt drives described multiple auxiliary driving Timing Belts, and described multiple auxiliary driving Timing Belts drive described multiple live rolls synchronously to rotate.
In an embodiment, described band universal wheel lifting transmission platform is made up of a described basic transmission platform and a band universal wheel lifting table therein, and described band universal wheel lifting table comprises:
Universal wheel lifting support, is positioned at described transmission platform below, and the bearing surface of described universal wheel lifting support is provided with multiple universal wheels;
Lift cylinder, is fixed on described transmission platform support, for driving the lifting of described universal wheel lifting support;
Wherein, described lift cylinder promotes described universal wheel lifting support and raises, until the bus of described universal wheel is higher than the summit of described power wheel, thereby described sheet glass workpiece is held on described universal wheel.
Therein in an embodiment, also comprise the angle drive platform between described basic transmission platform and described edging device, described sheet glass workpiece is sent to described angle drive platform through described basic transmission platform, then is sent to described edging device after changing delivery direction by described angle drive platform.
In an embodiment, described angle drive platform is made up of a described basic transmission platform and a liftable horizontal transmission platform therein, and described horizontal transmission platform comprises:
Lifting support, is positioned at the below of described transmission platform;
Laterally transmission lift cylinder, is fixed on described transmission platform support, for driving described lifting support lifting;
Laterally transmission bracket, is arranged on described lifting support;
Laterally transmission belt, is arranged in described horizontal transmission bracket;
Laterally initiatively band of transmission, is in transmission connection with described horizontal transmission belt;
Laterally driving motor, for driving initiatively band rotation of described horizontal transmission, described horizontal transmission initiatively band drives described horizontal transmission belt;
Wherein, the transmission direction of described horizontal transmission belt and the transmission direction of described power wheel have angle, and described horizontal transmission lift cylinder drives described lifting support to raise, and makes described horizontal transmission belt hold described sheet glass workpiece.
In an embodiment, described band stocker frame transmission platform is made up of described basic transmission platform and stocker rack device therein, and described stocker rack device comprises:
Stocker frame frame;
Stocker frame support, is arranged in described stocker frame frame;
Multiple lifting speed reducers, are connected with described stocker frame support, for driving the lifting of described stocker frame support;
Promote drive-motor, be located in described stocker frame frame, described lifting drive-motor drives described multiple lifting speed reducers to be synchronized with the movement by T-shaped step-down gear;
Stocker grid, is connected with described stocker frame support, and with one lifting of described stocker frame support;
Wherein, described lifting drive-motor drives described multiple lifting speed reducers, and described multiple lifting speed reducers order about described stocker frame support and rise, and make described stocker grid hold described sheet glass workpiece and leave described power wheel and store.
In an embodiment, described the second transport unit comprises the cleaning transmission rounding table, transition bench, tempering stocker transmission platform, tempering buffer table and the tempering transition bench that are arranged in order therein;
Wherein, sheet glass workpiece after cleaning is sent to described cleaning rounding table by described cleaning machine, be sent on described tempering stocker transmission platform through described transition bench, the sheet glass workpiece of described tempering stocker transmission platform after to described cleaning carries out selectivity storage again; If the sheet glass workpiece after described cleaning, without storage, is sent to described reinforcing device via described tempering buffer table and tempering transition bench.
A kind of glass deep processing method, comprises the steps:
Above-mentioned glass deep processing equipment is provided;
Described slicing machine cuts into glass baseplate the sheet glass workpiece of plurality of specifications;
The sheet glass work piece delivery of a kind of specification wherein to described edging device is carried out edging by described the first transport unit, the sheet glass workpiece of all the other specifications being stored with stocker frame transmission platform of described the first transport unit;
If the sheet glass workpiece of the first specification is handled via described edging device edging, described the first transport unit discharge successively the sheet glass workpiece of all the other specifications with stocker frame transmission platform;
The sheet glass workpiece of described cleaning machine after to edging cleans; And
Sheet glass work piece delivery to the described reinforcing device after cleaning is carried out tempering processing by described the second transport unit.
Above-mentioned glass deep processing equipment connects into a continous way machining production line by the first transport unit and the second transport unit by slicing machine, edging device, cleaning machine and reinforcing device, thereby enhances productivity, and reduces production costs.
If the first transport unit contains band stocker frame transmission platform, above-mentioned glass deep processing equipment is by stocker and release function with stocker frame transmission platform, thereby can process the sheet glass workpiece of different size simultaneously.
If the second transport unit contains tempering stocker transmission platform, above-mentioned glass deep processing equipment, by stocker and the release function of tempering stocker transmission platform, can solve the emergency condition that reinforcing device occurs.
[brief description of the drawings]
Fig. 1 is the structural representation of the glass deep processing equipment of embodiment of the present invention;
Fig. 2 is bead cutter, first transport unit of the glass deep processing equipment shown in Fig. 1, the structural representation of edging device;
Fig. 3 is the structural representation of the basic transmission platform of the glass deep processing equipment shown in Fig. 1;
Fig. 4 is the structural representation at another visual angle of basic transmission platform of the glass deep processing equipment shown in Fig. 1;
Fig. 5 is the structural representation with universal wheel lifting transmission platform of the glass deep processing equipment shown in Fig. 1;
Fig. 6 is the structural representation with another visual angle of universal wheel lifting transmission platform of the glass deep processing equipment shown in Fig. 1;
Fig. 7 is the structural representation with stocker frame transmission platform of the glass deep processing equipment shown in Fig. 1;
Fig. 8 is the structural representation with another visual angle of stocker frame transmission platform of the glass deep processing equipment shown in Fig. 1;
Fig. 9 is the structural representation of the angle drive platform of the glass deep processing equipment shown in Fig. 1;
Figure 10 is cleaning machine, second transport unit of the glass deep processing equipment shown in Fig. 1, the structural representation of reinforcing device;
Figure 11 is the schema of the glass deep processing method of embodiment of the present invention;
[embodiment]
For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.In accompanying drawing, provide preferred embodiment of the present invention.But the present invention can realize in many different forms, be not limited to embodiment described herein.On the contrary, providing the object of these embodiment is to make to the understanding of disclosure of the present invention more thoroughly comprehensively.
It should be noted that, when element is called as " being fixed on " another element, it can be directly on another element or also can have an element placed in the middle.When an element is considered to " connection " another element, it can be directly connected to another element or may have centering elements simultaneously.Term as used herein " vertical ", " level ", " left side ", " right side " and similar statement are just for illustrative purposes.
Unless otherwise defined, all technology that use are herein identical with the implication that belongs to the common understanding of those skilled in the art of the present invention with scientific terminology.The term using in specification sheets of the present invention herein, just in order to describe the object of specific embodiment, is not intended to be restriction the present invention.Term as used herein " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.
Refer to Fig. 1, the glass deep processing equipment 100 of one embodiment of the present invention, comprises slicing machine 110, edging device 120, cleaning machine 130, reinforcing device 140, the first transport unit 150 and the second transport unit 160.Slicing machine 110 is for cutting into glass baseplate the sheet glass workpiece 101 of predetermined size.Edging device 120 is for carrying out edging processing to the sheet glass workpiece 101 after cutting.Cleaning machine 130 is for cleaning the sheet glass workpiece 101 after edging.Reinforcing device 140 is for carrying out tempering processing to the sheet glass workpiece 101 after cleaning.The first transport unit 150 is between slicing machine 110 and edging device 120, so that the sheet glass workpiece 101 after cutting is sent to edging device 120.The second transport unit 160 is between cleaning machine 130 and reinforcing device 140, so that the sheet glass workpiece 101 after cleaning is sent to reinforcing device 140.
Specifically in the present embodiment, cleaning machine 130 is directly connected with edging device 120, and the sheet glass workpiece 101 after edging directly enters cleaning machine 130.At other embodiments, cleaning machine 130 is connected by other transport units with edging device 120, and the sheet glass workpiece 101 after edging enters cleaning machine 130 by transport unit.
Wherein, sheet glass workpiece 101 cuts into predetermined size through slicing machine 110, be sent to edging device 120 through the first transport unit 150 again and carry out edging processing, then pass through cleaning machine 130 and clean, be sent to reinforcing device 140 finally by mistake the second transport unit 160 and carry out tempering processing.
Slicing machine 110, edging device 120, cleaning machine 130, reinforcing device 140 can adopt existing glass slicing machine, glass edge polishing device, glass cleaning machine, glass tempering device, and in this not go into detail for its concrete structure.
Refer to Fig. 2, the first transport unit 150 comprises the band universal wheel lifting transmission platform 151, band stocker frame transmission platform 153, common transmission platform 155 and the angle drive platform 157 that are arranged in order.Wherein, after the sheet glass workpiece 101 after cutting is raise by band universal wheel lifting transmission platform 151 and be sent on band stocker frame transmission platform 153, the sheet glass workpiece 101 with stocker frame transmission platform 153 after to cutting carries out selectivity storage; If the sheet glass workpiece 101 after cutting, without storage, is sent to angle drive platform 157 through common transmission platform 155, then is sent to edging device 120 after changing delivery direction by angle drive platform 157.
If as required, band stocker frame transmission platform 153 can arrange multiple, for storing the sheet glass workpiece 101 of different size.In the illustrated embodiment, band stocker frame transmission platform 153 is two.
If edging device 120 is linear pattern, angle drive platform 157 can omit, now, after sheet glass workpiece 101 after cutting is raise by band universal wheel lifting transmission platform 151 and be sent on band stocker frame transmission platform 153, the sheet glass workpiece 101 with stocker frame transmission platform 153 after to cutting carries out selectivity storage; If the sheet glass workpiece 101 after cutting, without storage, is directly sent to edging device 120 through common transmission platform 155.
Owing to having increased angle drive platform 157, make whole glass deep processing equipment 100 without according to the setting of linear pattern streamline, take up room thereby saved.
Common transmission platform 155 can be existing transmission platform structure, also can be the basic transmission platform structure of present embodiment.Specifically, in present embodiment, common transmission platform 155 is basic transmission platform 170.
Refer to Fig. 3 and Fig. 4, basic transmission platform 170 comprises transmission platform support 171, multiple live roll 172 and driving motor 173.Transmission platform support 171 comprises transmission platform 171a and is located at the reference wheel 171b of the relative dual-side of transmission platform 171a.It is upper that multiple live rolls 172 compartment of terrains are arranged in transmission platform 171a, is arranged with multiple power wheels 174 on each live roll 172.Driving motor 173 is fixed on transmission platform support 171, and driving motor 173 is for driving multiple live rolls 172 synchronously to rotate.Driving motor 173 can be all kinds of motors such as servomotor, variable-frequency motor or three-phase reducing motor.
Wherein, sheet glass workpiece 101 is placed on multiple power wheels 174, and driving motor 173 drives multiple live rolls 172 to rotate, thereby makes multiple power wheels 174 drive sheet glass workpiece 101 to move.
Driving motor 173 can drive multiple live rolls 172 synchronously to rotate by transmission rigs such as Timing Belt, synchronous chain, gear pairs.Specifically in the present embodiment, driving motor 173 drives multiple live rolls 172 synchronously to rotate by main transmission Timing Belt 175 and multiple auxiliary driving Timing Belt 176, main transmission Timing Belt 175 and multiple auxiliary driving Timing Belt 176 are positioned at a side of transmission platform 171a, wherein driving motor 173 drives main transmission Timing Belt 175, main transmission Timing Belt 175 drives multiple auxiliary driving Timing Belts 176, and multiple auxiliary driving Timing Belts 176 drive multiple live rolls 172 synchronously to rotate.
Refer to Fig. 5 and Fig. 6, band universal wheel lifting transmission platform 151 can be existing lifting transmission platform structure, also can adopt the lifting transmission platform structure of present embodiment.Specifically in the present embodiment, band universal wheel lifting transmission platform 151 is made up of a basic transmission platform 170 and a band universal wheel lifting table (figure is mark not).Band universal wheel lifting table comprises universal wheel lifting support 151a and lift cylinder 151b.Universal wheel lifting support 151a is positioned at transmission platform 171a below, and the bearing surface of universal wheel lifting support 151a is provided with multiple universal wheel 151c.Lift cylinder 151b is fixed on transmission platform support 171, for driving universal wheel lifting support 151a lifting.Wherein, lift cylinder 151b promotes universal wheel lifting support 151a and raises, until the bus of universal wheel 151c is higher than the summit of power wheel 174, thereby sheet glass workpiece 101 is held on universal wheel 151c.
Refer to Fig. 7 and Fig. 8, band stocker frame transmission platform 153 is made up of basic transmission platform 170 and stocker rack device (figure is mark not), and stocker rack device comprises stocker frame frame 153a, stocker frame support 153b, multiple lifting speed reducer 153c, promotes drive-motor 153d and stocker grid 153e.Stocker frame support 153b is arranged on stocker frame frame 153a.Multiple lifting speed reducer 153c are connected with stocker frame support 153b, for driving stocker frame support 153b lifting.Promote drive-motor 153d and be located at stocker frame frame 153a above, promote drive-motor 153d and drive multiple lifting speed reducer 153c to be synchronized with the movement by T-shaped step-down gear 153f.Stocker grid 153e, 153b is connected with stocker frame support, and with stocker frame support 153b mono-lifting.Wherein, promote drive-motor 153d and drive multiple lifting speed reducer 153c, multiple lifting speed reducer 153c order about stocker frame support 153b and rise, and make stocker grid 153e hold sheet glass workpiece 101 and leave power wheel 174 and store.
Refer to Fig. 9, angle drive platform 157 can be the structure of existing angle drive platform, also can be the angle drive platform structure of present embodiment.Specifically in the present embodiment, angle drive platform 157 is right-angled corner transmission platform, certainly, also can be in the present invention the angle drive platform of other angles.Angle drive platform 157 is made up of a basic transmission platform 170 and a liftable horizontal transmission platform (figure is mark not).Horizontal transmission platform comprises lifting support 157a, laterally 157e and horizontal driving motor 157f are initiatively with in transmission lift cylinder 157b, horizontal transmission bracket 157c, horizontal transmission belt 157d, horizontal transmission.Lifting support 157a is positioned at the below of transmission platform 171a.Laterally transmission lift cylinder 157b is fixed on transmission platform support 171, for driving lifting support 157a lifting.Laterally transmission bracket 157c, is arranged on lifting support 157a.Laterally transmission belt 157d is arranged on horizontal transmission bracket 157c.Laterally transmission is initiatively with 157e and horizontal transmission belt 157d to be in transmission connection.Laterally driving motor 157f is used for driving horizontal transmission to be initiatively with 157e to rotate, and laterally transmission is initiatively with 157e to drive horizontal transmission belt 157d.Wherein, laterally the transmission direction of transmission belt 157d and the transmission direction of power wheel 174 have angle, and laterally transmission lift cylinder 157b drives lifting support 157a to raise, and makes horizontal transmission belt 157d hold sheet glass workpiece 101.
The process of the first transport unit 150 is roughly as follows:
Reference wheel with universal wheel lifting transmission platform 151 aligns with a limit of sheet glass workpiece 101, makes sheet glass workpiece 101 straight motion of energy on the basic transmission platform with universal wheel lifting transmission platform 151.
On band universal wheel lifting transmission platform 151, there is a cuff universal wheel lifting table, when band universal wheel lifting table raises, can easily sheet glass workpiece 101 be transferred to the basic transmission platform with universal wheel lifting transmission platform 151 and with benchmark roller and be alignd from slicing machine 110.After band universal wheel lifting table reduces, sheet glass workpiece 101 is automatic along diagram direction of arrow quick travel on the basic transmission platform 170 with universal wheel lifting transmission platform 151.
Basic transmission platform 170 with stocker frame transmission platform 153 and stocker rack device intersect installation in the vertical direction, on stocker rack device, there are multiple stocker framves, realize the transfer of sheet glass workpiece 101 between basic transmission platform 170 and stocker rack device by controlling the lifting of stocker frame.
155 ligations of common transmission platform, are delivered to the sheet glass workpiece sending with the basic transmission platform 170 of stocker frame transmission platform 153 101 in corner transfer station fast along the diagram direction of arrow.
Angle drive platform 157 can be realized 101 90 ° of transmission direction conversions of sheet glass workpiece and sheet glass workpiece 101 is sent to edging device 120.
Angle drive platform 157 is provided with contraposition wheel 157g (as shown in Figure 2), and contraposition wheel 157g is adjustable reference wheel 171b, aligns with the benchmark of edging device 120.Controlling System is alignd a limit of sheet glass workpiece 101 on angle drive platform 157 with the contraposition wheel 157g of edging device 120.
In the present embodiment, between slicing machine 110 and edging device 120, being with stocker frame transmission platform 153 quantity is 2, and the sheet glass workpiece 101 that can carry out 3 kinds of specifications is optimized cutting and following process, is set as A, B, C, below sketches its stocker process:
Slicing machine 110 cuts out A, B, tri-kinds of specification sheet glass workpiece of C, by the sequencing of artificial selection edging working flat plate glass pieces specification.As operator selects first working flat plate glass pieces A on control panel, Controlling System is adjusted the edging width of edging device 120 automatically according to the dimensions of sheet glass workpiece A.Sheet glass workpiece is along arrow direction on band universal wheel lifting transmission platform 151, and sheet glass workpiece enters the 153 rear continuation of band stocker frame transmission platform and advances along direction shown in arrow.When sheet glass workpiece departs from after band universal wheel lifting transmission platform 151,151 stop motions of band universal wheel lifting transmission platform, can continue to place second sheet glass workpiece 101.
Sheet glass workpiece A does not store on band stocker frame transmission platform 153, continue to be transferred to angle drive platform 157 by band universal wheel lifting transmission platform 151, common transmission platform 155 successively along direction shown in arrow, on angle drive platform 157, complete after edging contraposition is taken turns bit motion and enter edging device 120 with the synchronous speed transmission of edging device 120, thereby complete the edging processing of sheet glass workpiece A.
If second still specification A of sheet glass workpiece, enters edging device 120 according to above-mentioned steps and carries out edging processing.If the glass size of placing is B, on control interface, select stocker, sheet glass workpiece B enters after band stocker frame transmission platform 153, sheet glass workpiece B stops behind location, with the stocker rack device work of universal wheel lifting transmission platform 151, sheet glass workpiece B is stored on stocker frame, and Controlling System records stored number.In the time that the stocker quantity of stocker rack device reaches set(ting)value, Controlling System shows the warning of buying securities with all one's capital of stocker rack device.On edging device 120 and band stocker frame transmission platform 153 front end transmission platforms during without other sheet glass workpiece, on controller, select the film releasing of stocker rack device, system control edging device 120 is adjusted to the edging dimensions of sheet glass workpiece B, and stocker rack device is released into transmission platform by the sheet glass workpiece B that stores up on stocker platform successively and is uploaded to edging device 120.On stocker rack device, without switching to again stocker function after sheet glass workpiece, carry out the stocker action of the selected sheet glass specification of workpieces of next round.
With should follow-up sheet glass specification of workpieces be C, by Controlling System by sheet glass workpiece storage on second stocker rack device with stocker frame transmission platform 153, stocker is consistent with first stocker rack device with stocker frame transmission platform 153 with film releasing step.
Refer to Figure 10, the second transport unit 160 comprises the cleaning transmission rounding table 161, transition bench 163, tempering stocker transmission platform 165, tempering buffer table 166 and the tempering transition bench 167 that are arranged in order.Wherein, the sheet glass workpiece 101 after cleaning is sent to cleaning rounding table by cleaning machine 130, then is sent on tempering stocker transmission platform 165 through transition bench 163, and tempering stocker transmission platform 165 carries out selectivity storage to the sheet glass workpiece 101 after cleaning; If the sheet glass workpiece 101 after cleaning, without storage, is sent to reinforcing device 140 via tempering buffer table 166 and tempering transition bench 167.
Specifically in the present embodiment, clean transmission rounding table 161, transition bench 163, tempering buffer table 166 and tempering transition bench 167 and be basic transmission platform 170, just its transmission speed difference.Tempering stocker transmission platform 165 is identical with the structure with stocker frame transmission platform 153 of the first transport unit 150.Certainly, in other embodiments, tempering stocker transmission platform 165 also can be different from the structure with stocker frame transmission platform 153 of the first transport unit 150.
Below sketch the working process of the second transport unit 160:
Sheet glass workpiece 101 is sent to and is cleaned transmission rounding table 161 by cleaning machine 130 with cleaning speed, when sheet glass workpiece 101 leaves after cleaning machine 130, transmits fast transition bench 163 by cleaning transmission rounding table 161.Sheet glass workpiece 101 leaves and cleans after transmission rounding table 161, cleans transmission rounding table 161 speed and is down to and cleaning machine 130 synchronous speeds.
Sheet glass workpiece 101 is transmission fast on transition bench 163, stocker transmission platform, tempering buffer table 166, and when approaching after tempering transition bench 167, tempering buffer table 166 is adjusted to and reinforcing device 140 synchronous speeds.Tempering transition bench 167 transmission speeds are synchronizeed with reinforcing device 140 transmission speeds all the time, and sheet glass workpiece 101 is sent in reinforcing device 140.
In the time that emergency condition appears in reinforcing device 140, the stocker rack device of tempering stocker transmission platform 165 is started working, and the sheet glass workpiece 101 that cleaning machine 130 is sent out stores, and prevents sheet glass workpiece 101 laminations.Tempering buffer table 166,167 of tempering transition bench quit work.After emergent releasing, tempering stocker transmission platform 165 is implemented film releasing, and the sheet glass workpiece 101 of storage is sent into reinforcing device 140 continuously.
The whole manufacturing procedure of glass deep processing equipment 100 is roughly as follows:
Slicing machine 110 transmits edging device 120 by the first transport unit 150 by sheet glass workpiece 101, the first transport unit 150 can realize storage and the conversion of different size sheet glass workpiece 101 with stocker frame turntable, realize the on line of plurality of specifications sheet glass workpiece 101 between slicing machine 110 and edging device 120 and process continuously.Maximum specification that can working flat plate glass pieces 101 is according to the number change with stocker frame turntable, and structure formation is identical.
Sheet glass workpiece 101 is completed and is directly entered cleaning machine 130 after edging operation and complete matting by edging device 120.
The sheet glass workpiece 101 that completes cleaning cleans online tempering stocker transmission platform 165 between reinforcing device 140 and is passed to reinforcing device 140 by edging.Tempering stocker transmission platform 165 contains stocker rack device, can store the sheet glass workpiece 101 of some amount by stocker rack device, avoids sheet glass workpiece 101 laminations in the time of reinforcing device 140 emergent shutdown.
Refer to Figure 11, the present invention also provides a kind of glass deep processing method, and it comprises the steps S201 ~ S207:
Step S201, provides above-mentioned glass deep processing equipment 100.
Step S202, slicing machine 110 cuts into glass baseplate the sheet glass workpiece of plurality of specifications.
Step S203, a kind of sheet glass work piece delivery to edging device 120 of specification is wherein carried out edging by the first transport unit 150, the sheet glass workpiece of all the other specifications being stored with stocker frame transmission platform 153 of the first transport unit 150.
Step S204, if the sheet glass workpiece of the first specification handle via edging device 120 edgings, the first transport unit 150 discharge successively the sheet glass workpiece of all the other specifications with stocker frame transmission platform 153.
Step S205, cleaning machine 130 cleans the sheet glass workpiece after edging.
Step S206, sheet glass work piece delivery to the reinforcing device 140 after cleaning is carried out tempering processing by the second transport unit 160.
Step S207, if while there is emergency condition in reinforcing device 140, the starting working of the tempering stocker transmission platform 165 of the second transport unit 160, the sheet glass workpiece storage that cleaning machine 130 is sent out; After emergency situation is removed, tempering stocker transmission platform 165 is implemented film releasing, and the sheet glass workpiece of storage is sent into reinforcing device 140 continuously.
Below taking the sheet glass workpiece of three kinds of specifications as example describes glass deep processing method of the present invention.
Slicing machine 110 cuts out A, B, tri-kinds of specification sheet glass workpiece of C;
By the sequencing of artificial selection edging working flat plate glass pieces specification, as operator selects first to process A specification sheet glass workpiece on control panel, Controlling System is adjusted the edging width of edging device 120 automatically according to the dimensions of sheet glass workpiece A, sheet glass workpiece A does not store on band stocker frame transmission platform 153, continue along direction shown in arrow successively by band universal wheel lifting transmission platform 151, common transmission platform 155 is transferred to angle drive platform 157, on angle drive platform 157, complete after edging contraposition is taken turns bit motion and enter edging device 120 with the synchronous speed transmission of edging device 120, thereby complete the edging processing of sheet glass workpiece A, if the glass size of placing is B or C, on control interface, select stocker,
On edging device 120 and band stocker frame transmission platform 153 front end transmission platforms during without other sheet glass workpiece, on controller, select the film releasing of stocker rack device, system control edging device 120 is adjusted to the edging dimensions of sheet glass workpiece B, and stocker rack device is released into transmission platform by the sheet glass workpiece B that stores up on stocker platform successively and is uploaded to edging device 120.On stocker rack device, without switching to again stocker function after sheet glass workpiece, carry out the stocker action of the selected sheet glass specification of workpieces of next round; With should follow-up sheet glass specification of workpieces be C, by Controlling System by sheet glass workpiece storage on second stocker rack device with stocker frame transmission platform 153, stocker is consistent with first stocker rack device with stocker frame transmission platform 153 with film releasing step;
Cleaning machine 130 cleans the sheet glass workpiece after edging;
Sheet glass work piece delivery to the reinforcing device 140 after cleaning is carried out tempering processing by the second transport unit 160;
In the time there is emergency condition in reinforcing device 140, the stocker rack device of tempering stocker transmission platform 165 is started working, the sheet glass workpiece storage that cleaning machine 130 is sent out, prevents sheet glass workpiece lamination, and tempering buffer table 166,167 of tempering transition bench quit work; After emergent releasing, tempering stocker transmission platform 165 is implemented film releasing, and the sheet glass workpiece of storage is sent into reinforcing device 140 continuously.
Above-mentioned glass deep processing equipment 100 connects into a continous way machining production line by the first transport unit 150 and the second transport unit 160 by slicing machine 110, edging device 120, cleaning machine 130 and reinforcing device 140, thereby enhance productivity, reduce production costs.
If the first transport unit 150 contains band stocker frame transmission platform 153, above-mentioned glass deep processing equipment 100 is by stocker and release function with stocker frame transmission platform 153, thereby can process the sheet glass workpiece of different size simultaneously.
If the second transport unit 160 contains tempering stocker transmission platform 165, above-mentioned glass deep processing equipment 100, by stocker and the release function of tempering stocker transmission platform 165, can solve the emergency condition that reinforcing device 140 occurs.
The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (9)

1. a glass deep processing equipment, is characterized in that, comprising:
Slicing machine, for cutting into glass baseplate the sheet glass workpiece of predetermined size;
Edging device, for carrying out edging processing to the sheet glass workpiece after cutting;
Cleaning machine, for cleaning the sheet glass workpiece after edging;
Reinforcing device, for carrying out tempering processing to the sheet glass workpiece after cleaning;
The first transport unit, between described slicing machine and described edging device, with by the sheet glass work piece delivery after cutting to described edging device; And
The second transport unit, between described cleaning machine and described reinforcing device, with by the sheet glass work piece delivery after cleaning to described reinforcing device;
Wherein, described sheet glass workpiece cuts into predetermined size through described slicing machine, be sent to described edging device through described the first transport unit again and carry out edging processing, then pass through described cleaning machine and clean, be sent to described reinforcing device finally by described the second transport unit of mistake and carry out tempering processing;
Described the first transport unit comprises the band universal wheel lifting transmission platform and the band stocker frame transmission platform that are arranged in order; Wherein, after the sheet glass workpiece after cutting is raise by described band universal wheel lifting transmission platform and be sent on described band stocker frame transmission platform, described with stocker frame transmission platform, the sheet glass workpiece after to cutting carries out selectivity storage.
2. glass deep processing equipment as claimed in claim 1, is characterized in that, described the first transport unit also comprises common transmission platform, if the sheet glass workpiece after described cutting, without storage, is sent to described edging device through described common transmission platform; Described common transmission platform is basic transmission platform, and described basic transmission platform comprises:
Transmission platform support, comprises transmission platform and is located at the reference wheel of the relative dual-side of described transmission platform;
Multiple live rolls, compartment of terrain is arranged on described transmission platform, is arranged with multiple power wheels on each live roll; And
Driving motor, is fixed on described transmission platform support, and described driving motor is used for driving described multiple live roll synchronously to rotate;
Wherein, described sheet glass workpiece is placed on described multiple power wheel, and described driving motor drives described multiple live roll to rotate, thereby makes described multiple power wheel drive described sheet glass workpiece movable.
3. glass deep processing equipment as claimed in claim 2, it is characterized in that, described driving motor drives described multiple live rolls synchronously to rotate by main transmission Timing Belt and multiple auxiliary driving Timing Belt, described main transmission Timing Belt and multiple auxiliary driving Timing Belt are positioned at a side of described transmission platform, wherein said driving motor drives described main transmission Timing Belt, described main transmission Timing Belt drives described multiple auxiliary driving Timing Belts, and described multiple auxiliary driving Timing Belts drive described multiple live rolls synchronously to rotate.
4. glass deep processing equipment as claimed in claim 2 or claim 3, is characterized in that, described band universal wheel lifting transmission platform is made up of a described basic transmission platform and a band universal wheel lifting table, and described band universal wheel lifting table comprises:
Universal wheel lifting support, is positioned at described transmission platform below, and the bearing surface of described universal wheel lifting support is provided with multiple universal wheels;
Lift cylinder, is fixed on described transmission platform support, for driving the lifting of described universal wheel lifting support;
Wherein, described lift cylinder promotes described universal wheel lifting support and raises, until the bus of described universal wheel is higher than the summit of described power wheel, thereby described sheet glass workpiece is held on described universal wheel.
5. glass deep processing equipment as claimed in claim 2 or claim 3, it is characterized in that, also comprise the angle drive platform between described basic transmission platform and described edging device, described sheet glass workpiece is sent to described angle drive platform through described basic transmission platform, then is sent to described edging device after changing delivery direction by described angle drive platform.
6. glass deep processing equipment as claimed in claim 5, is characterized in that, described angle drive platform is made up of a described basic transmission platform and a liftable horizontal transmission platform, and described horizontal transmission platform comprises:
Lifting support, is positioned at the below of described transmission platform;
Laterally transmission lift cylinder, is fixed on described transmission platform support, for driving described lifting support lifting;
Laterally transmission bracket, is arranged on described lifting support;
Laterally transmission belt, is arranged in described horizontal transmission bracket;
Laterally initiatively band of transmission, is in transmission connection with described horizontal transmission belt;
Laterally driving motor, for driving initiatively band rotation of described horizontal transmission, described horizontal transmission initiatively band drives described horizontal transmission belt;
Wherein, the transmission direction of described horizontal transmission belt and the transmission direction of described power wheel have angle, and described horizontal transmission lift cylinder drives described lifting support to raise, and makes described horizontal transmission belt hold described sheet glass workpiece.
7. glass deep processing equipment as claimed in claim 2 or claim 3, is characterized in that, described band stocker frame transmission platform is made up of described basic transmission platform and stocker rack device, and described stocker rack device comprises:
Stocker frame frame;
Stocker frame support, is arranged in described stocker frame frame;
Multiple lifting speed reducers, are connected with described stocker frame support, for driving the lifting of described stocker frame support;
Promote drive-motor, be located in described stocker frame frame, described lifting drive-motor drives described multiple lifting speed reducers to be synchronized with the movement by T-shaped step-down gear;
Stocker grid, is connected with described stocker frame support, and with one lifting of described stocker frame support;
Wherein, described lifting drive-motor drives described multiple lifting speed reducers, and described multiple lifting speed reducers order about described stocker frame support and rise, and make described stocker grid hold described sheet glass workpiece and leave described power wheel and store.
8. glass deep processing equipment as claimed in claim 1, is characterized in that, described the second transport unit comprises the cleaning transmission rounding table, transition bench, tempering stocker transmission platform, tempering buffer table and the tempering transition bench that are arranged in order;
Wherein, sheet glass workpiece after cleaning is sent to described cleaning transmission rounding table by described cleaning machine, be sent on described tempering stocker transmission platform through described transition bench, the sheet glass workpiece of described tempering stocker transmission platform after to described cleaning carries out selectivity storage again; If the sheet glass workpiece after described cleaning, without storage, is sent to described reinforcing device via described tempering buffer table and tempering transition bench.
9. a glass deep processing method, is characterized in that, comprises the steps:
Glass deep processing equipment as described in claim 1~8 any one is provided;
Described slicing machine cuts into glass baseplate the sheet glass workpiece of plurality of specifications;
The sheet glass work piece delivery of a kind of specification wherein to described edging device is carried out edging by described the first transport unit, the sheet glass workpiece of all the other specifications being stored with stocker frame transmission platform of described the first transport unit;
If the sheet glass workpiece of the first specification is handled via described edging device edging, described the first transport unit discharge successively the sheet glass workpiece of all the other specifications with stocker frame transmission platform;
The sheet glass workpiece of described cleaning machine after to edging cleans; And
Sheet glass work piece delivery to the described reinforcing device after cleaning is carried out tempering processing by described the second transport unit.
CN201210245764.8A 2012-07-16 2012-07-16 Device and method for deep processing of glass CN102775052B (en)

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Publication number Priority date Publication date Assignee Title
CN103102066A (en) * 2013-01-28 2013-05-15 深圳市深新隆实业有限公司 Cleaning and tempering dual-purpose disc and cleaning and tempering switch-free method
CN103121793A (en) * 2013-02-05 2013-05-29 天津南玻节能玻璃有限公司 Toughening furnace for continuously producing half strengthened glass and production method of toughening furnace
CN104261133B (en) * 2014-09-10 2017-04-12 林嘉佑 Glass deep-processing automatic producing device and method thereof
CN105525487A (en) * 2014-09-30 2016-04-27 绥中明晖工业技术有限公司 Bending, tempering and printing method for washing machine operation display screens
CN105442258A (en) * 2014-09-30 2016-03-30 绥中明晖工业技术有限公司 Glass bending tempering printing production line apparatus for washing machine operation display screen
CN105049561B (en) * 2015-07-13 2018-06-12 周明舜 Mobile phone film production line
CN107179755B (en) * 2017-04-28 2018-11-13 中建材(宜兴)新能源有限公司 A kind of photovoltaic glass deep processing annealing furnace parallel connection production control system

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5004492A (en) * 1989-08-29 1991-04-02 Libbey-Owens-Ford Co. Glass sheet conveying and bending apparatus
CN101367622A (en) * 2008-09-26 2009-02-18 无锡海达安全玻璃有限公司 Improved deep processing method for glass
CN101671113A (en) * 2008-09-12 2010-03-17 佛山市顺德区高力威机械有限公司 Automatic linear conveying transfer station for glass
CN202705225U (en) * 2012-07-16 2013-01-30 中国南玻集团股份有限公司 Glass deep-processing equipment

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5004492A (en) * 1989-08-29 1991-04-02 Libbey-Owens-Ford Co. Glass sheet conveying and bending apparatus
CN101671113A (en) * 2008-09-12 2010-03-17 佛山市顺德区高力威机械有限公司 Automatic linear conveying transfer station for glass
CN101367622A (en) * 2008-09-26 2009-02-18 无锡海达安全玻璃有限公司 Improved deep processing method for glass
CN202705225U (en) * 2012-07-16 2013-01-30 中国南玻集团股份有限公司 Glass deep-processing equipment

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