CN104227569A - Tempered glass plate processing system and tempered glass plate processing method using the same - Google Patents

Tempered glass plate processing system and tempered glass plate processing method using the same Download PDF

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Publication number
CN104227569A
CN104227569A CN201410260544.1A CN201410260544A CN104227569A CN 104227569 A CN104227569 A CN 104227569A CN 201410260544 A CN201410260544 A CN 201410260544A CN 104227569 A CN104227569 A CN 104227569A
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CN
China
Prior art keywords
mentioned
armorplate glass
backboard
glass
sandblasting
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Pending
Application number
CN201410260544.1A
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Chinese (zh)
Inventor
郑孝才
李一宰
黄明秀
朴范虎
李康得
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
DAISUNG GIKEN Co Ltd
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DAISUNG GIKEN Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to KR20130069244 priority Critical
Priority to KR10-2013-0069244 priority
Priority to KR10-2013-0104157 priority
Priority to KR20130104157 priority
Priority to KR10-2013-0143192 priority
Priority to KR1020130143192A priority patent/KR101639640B1/en
Application filed by DAISUNG GIKEN Co Ltd filed Critical DAISUNG GIKEN Co Ltd
Publication of CN104227569A publication Critical patent/CN104227569A/en
Pending legal-status Critical Current

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Abstract

The invention relates to a single tempered glass plate processing system for forming a unit G2-mode touch sensor, and a tempered glass plate processing method using the same. The tempered glass plate processing system is characterized in that: a first sandblast part which forms a first extended worktable and a second extended worktable is arranged behind a transfer conveyor which transfers tempered glass plates; a first elevating device is arranged above the first extended worktable and operates in a lifting manner; a second elevating device is arranged above the second extended worktable and performs elevating and front-and-back movement; a second sandblast part which forms a third extended worktable and a fourth extended worktable is arranged behind the first sandblast part; an overturning device is arranged above the third extended worktable and performs elevating movement and rotation, and overturns the tempered glass plate in the vertical direction; and the second sandblast part is arranged behind the third extended worktable and cuts the lower surface of the tempered glass plate which is overturned in the vertical direction. Through the tempered glass plate of the invention, a plurality of unit touch screens formed by the G2-mode touch sensor can be obtained.

Description

Safety glass board processing system and utilize its armorplate glass processing method
Technical field
The present invention relates to the processing of the single armorplate glass of the G2 mode touch sensor of forming unit unit, particularly relate to the single armorplate glass that a kind of zoning cuts the formation of multiple G2 mode touch sensor, manufacture the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the touch-screen of the unit of cells that G2 mode touch sensor is formed and utilize its armorplate glass processing method.
Background technology
Generally, at smart mobile phone, panel computer, the TV of touch-sensitive display uses touch sensor, and whether this touch-screen uses glass plate and film, the titles such as general G1F1, GF2, G2 according to the touch sensor formed.
At this, preferably, G2 mode touch-screen does not use film completely, in single safety glass, directly make touch sensor.
Arrange the smart mobile phone of this G2 mode touch-screen, panel computer, the TV of touch-sensitive display etc. achieve ultrathin, the vividness of lightweight and color.
Above-mentioned this existing G2 mode touch-screen manufacture method is as follows.
First, glass plate (10) is cut into the unit of cells (S10) of the corresponding size of specification of the product that will use touch-screen.
In this case, above-mentioned glass plate (10) is non-tempering.
Now, above-mentioned glass plate (10) utilizes indentation, and water jet or laser beam mode are cut.
The glass plate (10) utilizing aforesaid way to cut preferably is investigated and is cut the need of aft-loaded airfoil again.
Then, according to fixing specification, multiple unit of cells glass plates (10a) that the cutting by above-mentioned glass plate (10) is formed are reprocessed.Under this state, in said units unit glass plate (10a), processing is circular, hole etc. (S20).
Afterwards, in unit unit glass plate (10a) obtained by above-mentioned engineering, carry out the engineering (S30) forming touch sensor (20), obtain unit of cells G2 mode touch-screen (S40).
But, with the method for single unit of cells making touch-screen, there are the following problems: cutting glass plate, on the multiple unit of cells glass plates obtained, individually form touch sensor, manufacturing G2 mode touch-screen needs to take a long time, in multiple engineering process, unit of cells glass plate occurs scrape scrape along particulate debris (chipping), crack etc., thus, because G2 mode touch-screen disqualification rate increases, there is the problem that production efficiency reduces and earning rate reduces.
Therefore, recently mainly utilize zoning to cut the single armorplate glass of G2 mode touch sensor formation, make the method for multiple unit of cells touch-screen.
With reference to Fig. 3, sandblasting, line, water jet or laser beam mode is utilized to carry out zoning cutting to above the single armorplate glass (600) of formation G2 mode touch sensor (601).
Then, operator reverses the upper and lower of above-mentioned armorplate glass (600), for above-mentioned identical method, cuts below above-mentioned armorplate glass (600), obtains multiple unit of cells touch-screen.
Now, above-mentioned armorplate glass (600) is made up of small-sized armorplate glass or large-scale armorplate glass, and according to the difference of its size, the earning rate of unit of cells touch-screen is also different.
At this, preferably, when carrying out cutting operation to small-sized armorplate glass (600), independent operator holds above-mentioned armorplate glass (600), to reversing up and down.
On the contrary, along with the increase of large-scale armorplate glass (600) area, during above-mentioned armorplate glass (600) reversion, the operator of more than at least 2 should be needed to hold a side of above-mentioned armorplate glass (600) respectively, rotate.
That is, with reference to Fig. 4, operators utilize both hands, hold above-mentioned armorplate glass (600) side, make 2 operators simultaneously both hands mutually intersect, rotate, make the upper of above-mentioned armorplate glass (600), overturn below.
Also have, overturning the upper of above-mentioned armorplate glass (600), under state below, 2 operators are simultaneously towards below, mobile above-mentioned armorplate glass (600), on operation post or workbench, put down above-mentioned armorplate glass (600), reverse above-mentioned armorplate glass (600).
After, in above-mentioned touch-screen, carry out various processing operation, obtain the touch-screen of multiple unit of cells.
But by above-mentioned this method, when carrying out zoning cutting to the single large-scale armorplate glass of G2 mode touch sensor formation, there are the following problems.
First, there is operator should the difficulty of direct carrying large armorplate glass, and in carrying way, the error due to operator may occur, and armorplate glass is impacted or armorplate glass falls, and causes the problem of armorplate glass breakage.
Second, after the cutting above of armorplate glass, half that the thickness of armorplate glass is almost thin, in order to cut below armorplate glass, when operator mentions armorplate glass, the problem that the possibility that there is armorplate glass breakage increases.
3rd, when mentioning large-scale armorplate glass, compared with small-sized armorplate glass, armorplate glass central portion sinks, and armorplate glass may damaged or modification.According to the difference of armorplate glass area and weight, the personnel carrying it increase, and thus, add unnecessary operating personnel, meanwhile, there is the problem that labour cost rises.
4th, there is operator should directly to reverse the trouble of armorplate glass top and bottom, the Working position of the armorplate glass of reversion should be reset, in reversion way, armorplate glass conflicts with external device (ED), may breakage be there is, there is the trouble that operator should check armorplate glass process engineering comprehensively meticulously.
Summary of the invention
The invention provides the single safety glass board processing system that a kind of G2 mode touch sensor is formed, it is characterized in that: at the transfer conveyer rear of transfer armorplate glass, possess the 1st sandblasting portion, it forms the 1st, the 2nd and extends workbench; Extend above workbench the 1st and arrange the 1st lowering or hoisting gear, it is elevated running; Extend above workbench the 2nd and arrange the 2nd lowering or hoisting gear, it is elevated and moves forward and backward; Possess the 2nd sandblasting portion at the 1st rear, sandblasting portion, it forms the 3rd, the 4th and extends workbench; Extend above workbench the 3rd and possess inversion set, its lifting moving and rotation running, the upper of armorplate glass of reversing, under; Extend workbench rear the 3rd and possess the 2nd sandblasting portion, on it cuts, below the armorplate glass of lower reversion.By successively armorplate glass being passed through transfer conveyer, 1st sandblasting portion and the 2nd sandblasting portion, 1st lowering or hoisting gear makes attachment magnets on armorplate glass, 1st sandblasting portion cuts above armorplate glass, and the armorplate glass by the 1st sandblasting portion reverses by inversion set up and down, and the 2nd lowering or hoisting gear moves armorplate glass, magnet comes off, attachment, the 2nd sandblasting portion cuts below armorplate glass, obtains multiple touch-screens of the unit of cells that G2 mode touch sensor is formed.
[technical solution]
The present invention is in order to solve the problem, its objective is the single safety glass board processing system of the G2 mode touch sensor that a kind of forming unit unit is provided for user, it is characterized in that, comprise: transfer conveyer, it makes the armorplate glass forming multiple G2 mode touch sensor above enter; 1st backboard, it is arranged on the rear of above-mentioned transfer conveyer, at the armorplate glass of the above-mentioned transfer conveyer transfer of supported underneath; 1st sandblasting portion, it is arranged on above-mentioned transfer conveyer rear, before, rear end forms the 1st respectively, 2nd extends workbench, and it places above-mentioned 1st backboard of above-mentioned armorplate glass, on above-mentioned 1st backboard in supported underneath, accommodate the above-mentioned armorplate glass sling, cut above above-mentioned armorplate glass; 1st lowering or hoisting gear, it is arranged on the above-mentioned 1st and extends above workbench, possesses magnet in bottom surface, and magnet attachment is positioned over above the above-mentioned armorplate glass on above-mentioned 1st backboard by lifting running; Inversion set portion, it is arranged on above-mentioned 1st rear, sandblasting portion, and lifting moving and rotation running, to make the top and bottom of the above-mentioned armorplate glass of reversion; 2nd backboard, it is arranged on below above-mentioned inversion set portion, in supported underneath, the above-mentioned armorplate glass reversed below; 2nd lowering or hoisting gear, it is arranged on the above-mentioned 2nd and extends above workbench, lifting moving and front, rear movement, depart to make the magnet above the above-mentioned armorplate glass on above-mentioned 1st backboard, make by top and bottom, above-mentioned inversion set portion reversion above-mentioned armorplate glass be positioned on above-mentioned 2nd backboard, and on above-mentioned armorplate glass attachment magnets; And the 2nd sandblasting portion, it is arranged on above-mentioned 1st rear, sandblasting portion, front and back end forms the 3rd respectively, 4th extends workbench, it places above-mentioned 2nd backboard of above-mentioned armorplate glass in supported underneath, hold the above-mentioned armorplate glass be positioned on above-mentioned 2nd backboard, cut below above-mentioned armorplate glass.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, comprising: transfer conveyer, and it makes the armorplate glass forming multiple G2 mode touch sensor above enter; 1st backboard, it is arranged on the rear of above-mentioned transfer conveyer, adheres to the armorplate glass of above-mentioned transfer conveyer transfer in below; 1st sandblasting portion, it is arranged on above-mentioned transfer conveyer rear, front and back end forms the 1st, the 2nd respectively and extends workbench, it places above-mentioned 1st backboard of above-mentioned armorplate glass in supported underneath, hold the above-mentioned armorplate glass be positioned on above-mentioned 1st backboard, cut above above-mentioned armorplate glass; Inversion set portion, it is arranged on above-mentioned 1st rear, sandblasting portion, lifting moving and rotation running, to make the upper of the above-mentioned armorplate glass of reversion, below; 2nd backboard, it is arranged on below above-mentioned inversion set portion, in supported underneath, the above-mentioned armorplate glass reversed below; 2nd lowering or hoisting gear, it is arranged on the above-mentioned 2nd and extends above workbench, lifting moving and movable, is positioned on above-mentioned 2nd backboard by the above-mentioned armorplate glass reversed by top and bottom, above-mentioned inversion set portion; And the 2nd sandblasting portion, it is arranged on above-mentioned 1st rear, sandblasting portion, before, rear end forms the 3rd, the 4th respectively and extends workbench, it is placed in supported underneath the 2nd backboard that above-mentioned armorplate glass slings, hold the above-mentioned armorplate glass be positioned on above-mentioned 2nd backboard, cut below above-mentioned armorplate glass.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, comprising: the 1st backboard, and it forms the armorplate glass of multiple G2 mode touch sensor on supported underneath; 1st sandblasting portion, before it, rear end forms the 1st respectively, and the 2nd extends workbench, and it places above-mentioned 1st backboard of above-mentioned armorplate glass in supported underneath, holds the above-mentioned armorplate glass be positioned on above-mentioned 1st backboard, cuts above above-mentioned armorplate glass; 1st lowering or hoisting gear, it is arranged on the above-mentioned 1st and extends above workbench, possesses magnet in bottom surface, lifting running by described magnet attachment being positioned over above the above-mentioned armorplate glass on above-mentioned 1st backboard.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, above-mentioned transfer conveyer comprises: operation post; Running portion, it is a pair, is oppositely arranged on both sides above above-mentioned operation post; Multiple rotating rod, it is along the length direction of above-mentioned operation post, separates predetermined distance, is arranged between above-mentioned running portion; And multiple rotation roller, it is along the length direction of above-mentioned rotating rod, separates predetermined distance and arranges, at the above-mentioned armorplate glass of supported underneath.
The single safety glass board processing system that the G2 mode touch sensor of invention unit unit is formed is characterized in that, the above-mentioned 1st, and the 2nd sandblasting portion comprises: shell; Valve, it is arranged on above-mentioned enclosure, lifting moving and forwards, backwards, moves left and right, cuts above-mentioned armorplate glass; And transfer guide, it is relatively arranged on two ends, above-mentioned enclosure bottom surface mutually, and to above-mentioned shell, inside and outside portion moves, and above-mentioned 1st backboard and the 2nd backboard are moved.
The single safety glass board processing system that the G2 mode touch sensor of invention unit unit is formed is characterized in that, the front of above-mentioned transfer conveyer also comprises: cylinder, and it carries out lifting moving; Pressure rod, it is arranged on above-mentioned cylinder rear, while movable, pressurizes to above-mentioned armorplate glass side.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, the above-mentioned 1st, and the 2nd backboard is with hollow shape, form multiple through hole above, connect vacuum hose in bottom surface, by above-mentioned through hole, suck air, adsorb above-mentioned armorplate glass.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, above-mentioned inversion set portion comprises: framework, its lifting moving and front, rear movement; And swivel plate, it is arranged on below said frame, at the above-mentioned armorplate glass that absorption is positioned over above above-mentioned 1st backboard, and, carry out rotating running and reversed in the top and bottom of above-mentioned armorplate glass.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, above-mentioned inversion set portion above-mentioned swivel plate above or below on any one face, form multiple 1st inlet holes sucking air.
The single safety glass board processing system that the G2 mode touch sensor of invention unit unit is formed is characterized in that, the above-mentioned 1st, and above-mentioned magnet, by electromagnet mode, departs from from above-mentioned armorplate glass, adheres to by the 2nd lowering or hoisting gear.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention is characterized in that, is formed and suck air to adsorb multiple air adsorption holes of above-mentioned armorplate glass below above-mentioned 2nd lowering or hoisting gear is formed in.
The single armorplate glass processing method of the G2 mode touch sensor formation of invention unit unit, it is characterized in that, comprise: the 1st process, formed the armorplate glass of multiple G2 mode touch sensor by the transfer of transfer conveyer, be placed on the 1st backboard; 2nd process, running the 1st lowering or hoisting gear, by magnet attachment being positioned over above the above-mentioned armorplate glass on above-mentioned 1st backboard; 3rd process, moves to the 1st sandblasting portion by the above-mentioned armorplate glass be positioned on above-mentioned 1st backboard, cuts above above-mentioned armorplate glass; 4th process, after above-mentioned 3rd process, the above-mentioned magnet that the above-mentioned armorplate glass of discharging from above-mentioned 1st sandblasting portion adheres to departs from the 2nd lowering or hoisting gear; 5th process, adsorbs the armorplate glass of above-mentioned disengaging magnet by the swivel plate in inversion set portion, reversed in the top and bottom of above-mentioned armorplate glass; 6th process, is adsorbed by above-mentioned 2nd lowering or hoisting gear and moves the above-mentioned armorplate glass by the reversion of above-mentioned swivel plate top and bottom; 7th process, is placed on the 2nd backboard top by the above-mentioned armorplate glass being adsorbed in above-mentioned 2nd lowering or hoisting gear, adheres to described magnet; 8th process, moves to the 2nd sandblasting portion by the above-mentioned armorplate glass be positioned on above-mentioned 2nd backboard, cuts below above-mentioned armorplate glass.
The single armorplate glass processing method of the G2 mode touch sensor of forming unit unit of the present invention, it is characterized in that, comprise: the 1st process, formed the armorplate glass of multiple G2 mode touch sensor by the transfer of transfer conveyer, be placed on the 1st backboard; 2nd process, is adsorbed by above-mentioned 1st backboard and is moved above-mentioned armorplate glass; 3rd process, moves the above-mentioned armorplate glass adsorbed on above-mentioned 1st backboard to the 1st sandblasting portion, cuts above above-mentioned armorplate glass; 4th process, after above-mentioned 3rd process, removes the adsorbed state of the above-mentioned armorplate glass of discharging from above-mentioned 1st sandblasting portion; 5th process, is adsorbed on the above-mentioned armorplate glass above-mentioned 1st backboard being removed absorption by the swivel plate in inversion set portion, above-mentioned armorplate glass top and bottom of reversing; 6th process, is adsorbed by above-mentioned 2nd lowering or hoisting gear and moves the above-mentioned armorplate glass utilizing above-mentioned swivel plate top and bottom to reverse; 7th process, is placed on the 2nd backboard top by the above-mentioned armorplate glass being adsorbed in above-mentioned 2nd lowering or hoisting gear absorption; 8th process, is adsorbed by above-mentioned 2nd backboard and is moved above-mentioned armorplate glass; 9th process, moves to the 2nd sandblasting portion (1320) by the above-mentioned armorplate glass be positioned on above-mentioned 2nd backboard, cuts below above-mentioned armorplate glass.
The single armorplate glass processing method of the G2 mode touch sensor of forming unit unit of the present invention, is characterized in that, in above-mentioned 2nd process, the 4th process and the 7th process, makes electric current by above-mentioned 1st, the 2nd backboard, magnet is come off, adheres to.
The single armorplate glass processing method of the G2 mode touch sensor of forming unit unit of the present invention, it is characterized in that, in above-mentioned 6th process, before above-mentioned 2nd lowering or hoisting gear lifting moving adsorbs above-mentioned armorplate glass, above-mentioned swivel plate is removed the adsorbed state of above-mentioned armorplate glass.
The single armorplate glass processing method of the G2 mode touch sensor of forming unit unit of the present invention, it is characterized in that, in above-mentioned 3rd process, 50% of the whole thickness of above-mentioned armorplate glass is cut into by above above-mentioned armorplate glass by above-mentioned 1st sandblasting portion, in above-mentioned 8th process, 60% of the whole thickness of above-mentioned armorplate glass will be cut into below above-mentioned armorplate glass by above-mentioned 2nd sandblasting portion.
The single armorplate glass processing method of the G2 mode touch sensor of forming unit unit of the present invention, it is characterized in that, in above-mentioned 3rd process, 50% of the whole thickness of above-mentioned armorplate glass is cut into by above above-mentioned armorplate glass by above-mentioned 1st sandblasting portion, in above-mentioned 9th process, 60% of above-mentioned armorplate glass (600) whole thickness will be cut into below above-mentioned armorplate glass by above-mentioned 2nd sandblasting portion.
[invention effect]
The single armorplate glass processing method of the G2 mode touch sensor of forming unit unit of the present invention and the feature of manufacture method thereof are, the transfer of armorplate glass realizes automation, promote operating efficiency, armorplate glass is fixed on backboard, in transfer way, the danger of not dropping, armorplate glass is transferred by transferred unit, does not fall, the automation transferred by armorplate glass, while minimizing operating personnel, also there is the advantage saving labour cost.
And, by utilizing inversion set portion, auto-reverse, the armorplate glass Working position of reversion determines automatically again, having can the advantage of machining large safety glass, and also having can without any the breakage ground advantage of the large-scale armorplate glass processed above that reverses.
[reference numeral explanation]
100: film laminator 200: cutting and drawing apparatus
201: cutter 300: sandblasting
301: valve 400: etching tank
401: chemicals 402: brush
500: tank 600: glass plate
600a: unit of cells glass substrate 601:G2 mode touch sensor
601a: cutting part 700: protective film
700a: boundary 701: diaphragm
1100: transfer conveyer 1101: operation post
1102: running portion 1103: rotating rod
1104: rotate roller 1210, the 1210 ': the 1 backboard
1211: the 1 through holes 1212,1222: vacuum hose
1220,1220 ': the 2 backboard 1211,1221: through hole
1310: the 1 sandblasting portions 1311: the 1 extend workbench
1312: the 2 extend workbench 1313,1323: shell
1314,1324: valve 1315,1325: transfer guide
1320: the 2 sandblasting portions 1321: the 3 extend workbench
1322: the 4 extend workbench 1410: the 1 lowering or hoisting gear
1411: magnet 1420, the 1420 ': the 2 lowering or hoisting gear
1421: air adsorption hole 1500: inversion set portion
1501: framework 1502: swivel plate
1502a: the 1 inlet hole 1610: framework
1620: swivel plate 1621: the 1 inlet hole
1630: lifter plate 1631: the 2 inlet hole
1701: cylinder 1702: pressure rod
Accompanying drawing explanation
Fig. 1 is the accompanying drawing of the engineering process manufacturing existing G2 mode touch-screen.
Fig. 2 is the precedence diagram of the method manufacturing existing G2 mode touch-screen.
Fig. 3 is the accompanying drawing of existing armorplate glass process engineering.
Fig. 4 is the outline accompanying drawing of the state rotating existing armorplate glass.
Fig. 5 is the outline accompanying drawing of the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the 1st embodiment of the present invention.
Fig. 6 is the outline accompanying drawing seeing Fig. 1 in plane.
Fig. 7 is the 1st lowering or hoisting gear of the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit utilizing the 1st embodiment of the present invention, the outline accompanying drawing of the state of attachment magnets on armorplate glass.
Fig. 8 a to Fig. 8 b is the inversion set portion of the single safety glass board processing system of the G2 mode touch sensor of forming unit unit by the 1st embodiment of the present invention, the brief strabismus map of the state of reversion armorplate glass.
Fig. 9 is the 2nd lowering or hoisting gear of the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit utilizing the 1st embodiment of the present invention, mobile armorplate glass, the outline accompanying drawing of the state of attachment magnets.
Figure 10 is the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit utilizing the 1st embodiment of the present invention, the precedence diagram of the method for processing armorplate glass.
Figure 11 is the outline accompanying drawing of the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the 2nd embodiment of the present invention.
Figure 12 is the 2nd lowering or hoisting gear of the single safety glass board processing system of the G2 mode touch sensor of forming unit unit by the 2nd embodiment of the present invention, and the 2nd backboard is installed the outline accompanying drawing of the state of armorplate glass.
Figure 13 is the brief strabismus map of the 1st, the 2nd backboard of the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the 2nd embodiment of the present invention.
Figure 14 is the precedence diagram of the method for the single safety glass board processing system machined steel glass plate of the G2 mode touch sensor of forming unit unit by the 2nd embodiment of the present invention.
Detailed description of the invention
Below, with reference to the accompanying drawings the structure of example of the present invention and effect are illustrated, the structure of the present invention illustrated according to accompanying drawing and effect are described as just an embodiment, and above-mentioned technological thought of the present invention and core are formed and effect is not limited thereto..
[the 1st embodiment]
Being described as follows of the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the 1st embodiment.
As shown in Fig. 5 to Figure 10, transfer conveyer (1100), above, the armorplate glass (600) that multiple G2 mode touch sensor (601) is formed enters, and is moved in the direction of above-mentioned armorplate glass (600) to above-mentioned 1st sandblasting portion (1310).
Above-mentioned transfer conveyer (1100) comprising: operation post (1101); Running portion (1102), totally a pair, it is oppositely arranged on above-mentioned operation post (1101) both sides above; Multiple rotating rod (1103), it is along the length direction of above-mentioned operation post (1101), apart from certain interval, is arranged between above-mentioned running portion (120); And multiple rotation roller (1104), it is along the length direction of above-mentioned rotating rod (1103), arranges, at the above-mentioned armorplate glass of supported underneath (600) apart from certain interval.
Above-mentioned running portion (1102) rotates above-mentioned multiple rotating rod (1103), makes above-mentioned rotation roller (1104) transfer above-mentioned armorplate glass (600).
1st backboard (1210) preferably iron material material, is arranged on above-mentioned transfer conveyer (1100) rear, at the armorplate glass (600) that the above-mentioned transfer conveyer (1100) of supported underneath is transferred.
1st sandblasting portion (1310), be arranged on above-mentioned transfer conveyer (1100) rear, before, rear end forms the 1st respectively, 2nd extends workbench (1311,1312), above-mentioned 1st backboard (1210) that he slings at the above-mentioned armorplate glass of supported underneath (600), on above-mentioned 1st backboard (1210), accommodate the above-mentioned armorplate glass (600) sling, cut above above-mentioned armorplate glass (600).
Above-mentioned 1st sandblasting portion (1310) comprising: shell (1313); Valve (1314), it is inner that it is arranged on above-mentioned shell (1313), lifting moving and forwards, backwards, moves left and right, cut above-mentioned armorplate glass (600); And transfer guide (1315), it is oppositely arranged on above-mentioned shell (1313) inner bottom surface two ends mutually, to in above-mentioned shell (1313), outside mobile, above-mentioned 1st backboard (1210) and the 2nd backboard (1220) are moved.
Above-mentioned valve (1314) jet grinding agent, cuts above above-mentioned armorplate glass (600), arranges multiple in above-mentioned shell (1313) inside.
Above-mentioned transfer guide (1315) in above-mentioned shell (1313) inner space to the above-mentioned 1st, 2nd extends workbench (1311,1312) front, rear movement, above-mentioned 1st backboard (1210) enters into above-mentioned shell (1313) inside or guides and discharges to above-mentioned shell (1313) outside.
Above-mentioned 1st sandblasting portion (1310) utilizes above-mentioned valve (1314) to jet grinding agent above above-mentioned armorplate glass (600), preferably cuts the degree of depth of 50% correspondence of the whole thickness of above-mentioned armorplate glass (600).
1st lowering or hoisting gear (1410) is arranged on the above-mentioned 1st and extends workbench (1311) top, magnet (1411) is possessed in bottom surface, lifting running, adheres to above-mentioned magnet (1411) above the above-mentioned armorplate glass (600) that above-mentioned 1st backboard (1210) is sling.
Above-mentioned 1st lowering or hoisting gear (1410) utilizes electromagnet mode, above-mentioned multiple magnet (1411) is attached on above-mentioned armorplate glass (600).
Inversion set portion (1500) is arranged on above-mentioned 1st sandblasting portion (1300) rear, lifting moving and rotation running, the upper of above-mentioned armorplate glass (600) of reversing, below.
Above-mentioned inversion set portion (1500) comprising: framework (1501), its lifting moving and front, rear movement; Swivel plate (1502), it is arranged on said frame (1501) below, be adsorbed on above-mentioned 1st backboard (1210,1210 ') on the above-mentioned armorplate glass (600) sling above, rotate running, to reverse the upper of above-mentioned armorplate glass (600), below.
Above-mentioned inversion set portion (1500) above-mentioned swivel plate (1502) above or below on any one face, form multiple 1st inlet holes (1502a) sucking air
Above-mentioned swivel plate (1500) is connected with outside vacuum hose (not shown), sucks air by above-mentioned 1st inlet hole (1502a).
The area that above-mentioned swivel plate (1502) cans be compared to above-mentioned armorplate glass (600) is most relatively larger.
2nd backboard (1220) preferably iron material material, is arranged on above-mentioned inversion set portion (1500) below, in supported underneath, and the above-mentioned armorplate glass (600) reversed below.
2nd lowering or hoisting gear (1420), it is arranged on the above-mentioned 2nd and extends workbench (1312) top, lifting moving and front, rear movement, on above-mentioned 1st backboard (1210), magnet (1411) above the above-mentioned armorplate glass (600) sling is departed from, make on above-mentioned inversion set portion (1500), the above-mentioned armorplate glass (600) of top and bottom reversion is sling on above-mentioned 2nd backboard (1220), attachment magnets (1411) on above-mentioned armorplate glass (600).
Above-mentioned 2nd lowering or hoisting gear (1420) utilizes electromagnet mode, and above-mentioned multiple magnet (1411) is come off from above-mentioned armorplate glass (600), attachment.
Above-mentioned 2nd lowering or hoisting gear (1420) is formed below and sucks air, adsorbs multiple air adsorption holes (1421) of above-mentioned armorplate glass (600).
2nd sandblasting portion (1320), it is arranged on above-mentioned 1st sandblasting portion (1310) rear, before, rear end forms the 3rd respectively, 4th extends workbench (1321,1322), above-mentioned 2nd backboard (1220 ') that it is sling at the above-mentioned armorplate glass of supported underneath (600), above accommodate the above-mentioned armorplate glass (600) sling at above-mentioned 2nd backboard (1220 '), cut below above-mentioned armorplate glass (600).
Above-mentioned 2nd sandblasting portion (1320) comprising: shell (1323); Valve (1324), it is inner that it is arranged on above-mentioned shell (1323), lifting moving and forwards, backwards, moves left and right, cut above-mentioned armorplate glass (600); And transfer guide (1325), it is oppositely arranged on above-mentioned shell (1323) inner bottom surface two ends mutually, to in above-mentioned shell (1323), outside mobile, above-mentioned 1st backboard (1210) and the 2nd backboard (1220) are moved.
Above-mentioned valve (1324) jet grinding agent, cuts below above-mentioned armorplate glass (600), arranges multiple in above-mentioned shell (1323) inside.
Above-mentioned transfer guide (1325) in above-mentioned shell (1323) inner space to the above-mentioned 3rd, 4th extends workbench (1321,1322) front, rear movement, above-mentioned 1st backboard (1210) enters into above-mentioned shell (1323) inside or guides and discharges to above-mentioned shell (1323) outside.
Above-mentioned 2nd sandblasting portion (1320) utilizes above-mentioned valve (1324) to jet grinding agent below above-mentioned armorplate glass (600), preferably cuts the degree of depth of 60% correspondence of the whole thickness of above-mentioned armorplate glass (600).
In the front of above-mentioned transfer conveyer (1100), cylinder (1701) is set, its lifting moving; Arrange pressure rod (1702) at above-mentioned cylinder (1701) rear, it is front, while rear movement, pressurizes to above-mentioned armorplate glass (600) side.
Above-mentioned cylinder (1701) makes above-mentioned pressure rod (1702) move forward and backward with the state of lifting moving, the above-mentioned armorplate glass (600) be parked on above-mentioned transfer conveyer (1100) is extended above-mentioned 1st backboard (1210) the direction pressurization that workbench (1311) top possesses to the 1st of above-mentioned 1st sandblasting portion (1310).
The single safety glass board processing system that the G2 mode touch sensor of the unit of cells of the 1st embodiment of the present invention formed according to said structure is formed operates according to following process.
First, the armorplate glass (600) that transfer conveyer (1100) makes multiple G2 mode touch sensor (601) be formed enters, and makes above-mentioned armorplate glass (600) sling (S1000) on above-mentioned 1st backboard (1210).
Now, above-mentioned armorplate glass (600) is not positioned on above-mentioned 1st backboard (1210), if rest on above-mentioned transfer conveyer (1100), the state of the above-mentioned cylinder (1701) in above-mentioned transfer conveyer (1100) front is arranged on by lifting moving, before, the above-mentioned pressure rod of rear movement (1702), the above-mentioned armorplate glass (600) rested on above-mentioned transfer conveyer (1100) is moved to above-mentioned 1st backboard (1210), pressurizes.
At this, preferably, above-mentioned transfer conveyer (1100) receives external power source, above-mentioned running portion (1102) is operated, be arranged on multiple rotating rods (1103) between above-mentioned running portion (1102) while utilizing above-mentioned running portion (1102) to operate, above-mentioned rotation roller (1104) is rotated, therefore, above-mentioned armorplate glass (600) is rearward moved the above-mentioned rotation roller (1104) of the above-mentioned armorplate glass of supported underneath (600) bottom surface.
So, above-mentioned 1st lowering or hoisting gear (1410) running, above-mentioned multiple magnet (1411) is close on above-mentioned armorplate glass (600), in this condition, cut off the electric current of supply in above-mentioned 1st lowering or hoisting gear (1410), above-mentioned multiple magnet (1411) departs from from above-mentioned 1st lowering or hoisting gear (1410), meanwhile, is attached to above-mentioned armorplate glass (600) upper (S2000).
At this, preferably, the utilization of above-mentioned multiple magnet (1411) is attached to by the magnetic force on above-mentioned 1st backboard (1210) that iron material material is formed, and is fixed on by above-mentioned armorplate glass (600) on above-mentioned 1st backboard (1210).
After, guide the transfer guide (3115) in above-mentioned 1st sandblasting portion (1310) at above-mentioned 1st backboard (1210) of the above-mentioned armorplate glass of supported underneath (600), the shell (1313) entering into above-mentioned 1st sandblasting portion (1310) is inner.
Also have, on the above-mentioned armorplate glass (600) that the shell (1313) entering into above-mentioned 1st sandblasting portion (1310) is inner, while above-mentioned valve (1314) jet grinding agent, by transferring above-mentioned valve (1314) to fixing passage, utilize the grinding agent that above-mentioned valve (1314) sprays, zoning above above-mentioned armorplate glass (600) is cut into the unit of cells (S3000) of the size that the specification of the product of touch-screen will be used corresponding.
At this, preferably, above-mentioned armorplate glass (600) is cut into the degree of depth of 50% correspondence of above-mentioned armorplate glass (600) whole thickness above by above-mentioned 1st sandblasting portion (1310).
The above-mentioned armorplate glass (600) processed above completing in above-mentioned 1st sandblasting portion (1310) is by utilizing above-mentioned 1st backboard (1210) of above-mentioned transfer guide (1315) movement, discharge to above-mentioned shell (1313) outside, extend workbench (1312) to the above-mentioned 2nd mobile.
Now, above-mentioned transfer guide (1315) makes above-mentioned 1st backboard (1210) of discharging from above-mentioned 1st sandblasting portion (1310) be positioned at above-mentioned 2nd prolongation workbench (1312).
Also have, above-mentioned 2nd lowering or hoisting gear (1420) lifting running, be close on the magnet above above-mentioned armorplate glass (600) that above-mentioned 1st backboard (1210) is sling, under this state, received current, above-mentioned multiple magnet (1411) departs from (S4000) from above-mentioned armorplate glass (600).
So, the framework (1610) of above-mentioned inversion set portion (1500) is front, rear and lifting moving, be positioned at above-mentioned armorplate glass (600) top, under this state, while above-mentioned swivel plate (1502) adsorbs above-mentioned armorplate glass (600), said frame (1501) lifting moving, above-mentioned armorplate glass (600) is elevated to the state be adsorbed onto on above-mentioned swivel plate (1502).
After, above-mentioned swivel plate (1502) rotates running, make the upper of above-mentioned armorplate glass (600), reverse (S5000) below, above-mentioned 2nd lowering or hoisting gear (1420) lifting moving, on above-mentioned swivel plate (1502), in absorption, the above-mentioned armorplate glass (600) reversed below, mobile (S6000).
At this, preferably, above-mentioned swivel plate (1620) sucks air by the 1st inlet hole (1502a) formed above or below, adsorb above-mentioned armorplate glass (600), above-mentioned 2nd lowering or hoisting gear (1420) is by above-mentioned air suction inlet (1421), suck air, adsorb above-mentioned armorplate glass (600).
Now, above-mentioned 2nd lowering or hoisting gear (1420) lifting moving, adsorbed above-mentioned armorplate glass (600) in the past, and above-mentioned swivel plate (1502) removes the state of the above-mentioned armorplate glass of absorption (600).
Also have, above-mentioned 2nd lowering or hoisting gear (1420) forward, rear is to movement, under this state, move downwards, 3rd prolongation workbench (1321) in above-mentioned 2nd sandblasting portion (1320) above above-mentioned 2nd backboard (1220) sling, put down above-mentioned armorplate glass (600).
At this, preferably, during above-mentioned 2nd lowering or hoisting gear (1420) moves downwards, above-mentioned inversion set portion (1500) is preferably positioned at the above-mentioned 2nd and extends workbench (1312) top.
Now, above-mentioned armorplate glass (600) is placed on above-mentioned 2nd backboard (1220) top by above-mentioned 2nd lowering or hoisting gear (1420), in this condition, cut off electric current, above-mentioned magnet (1411) is attached to below above-mentioned armorplate glass (600) (S7000).
So, above-mentioned armorplate glass (600) is fixed on above-mentioned 2nd backboard (1220), above-mentioned 2nd backboard (1220) utilizes the transfer guide (1325) in above-mentioned 2nd sandblasting portion (1320) to guide, and extends workbench (1321) enter into above-mentioned shell (1323) inside from the above-mentioned 3rd.
At this, preferably, below the above-mentioned armorplate glass (600) that the shell (1323) entering into above-mentioned 2nd sandblasting portion (1320) is inner, while above-mentioned valve (1324) jet grinding agent, movable passageway above above-mentioned armorplate glass (600) is cut by above-mentioned valve (1324) being moved to zoning, utilize the grinding agent that above-mentioned valve (1324) sprays, zoning below above-mentioned armorplate glass (600) is cut into the unit of cells (S8000) of the size that the specification of the product of touch-screen will be used corresponding.
At this, preferably, above-mentioned armorplate glass (600) is cut into the degree of depth of 60% correspondence of above-mentioned armorplate glass (600) whole thickness above by above-mentioned 2nd sandblasting portion (1320).
Also have, the above-mentioned armorplate glass (600) machined on above-mentioned 2nd sandblasting portion (1320), by utilizing above-mentioned 2nd backboard (1220) of above-mentioned transfer guide (1325) movement, extends workbench (1322) to the 2nd of above-mentioned 2nd sandblasting portion (1320) and discharges.
At this, preferably, be positioned at the above-mentioned 2nd above-mentioned armorplate glass (600) extended on workbench (1322) to utilize and be arranged on the above-mentioned 2nd and extend the other mechanical arm of workbench (1322) top or growing apparatus moves.
[the 2nd embodiment]
The single safety glass board processing system of the G2 mode touch sensor shape of the unit of cells of the 2nd embodiment is described as follows.
Below, with reference to Figure 11 to Figure 14, according to the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the 3rd embodiment of the present invention by transferring conveyer (1100), 1st backboard (1210 '), 1st sandblasting portion (1310), inversion set portion (1500), the 2nd backboard (1220 ') and the 2nd sandblasting portion (1520) are formed.
In the following description, for the formation identical with the 1st embodiment, employ identical reference marks, the explanation of this content is omitted.
1st backboard (1210 '), it is arranged on the rear of above-mentioned transfer conveyer (1100), adsorbs the armorplate glass (600) that above-mentioned transfer conveyer (1100) is transferred in below;
Above-mentioned 1st backboard, with hollow shape, forms multiple through hole (1211) above, vacuum hose (1212) is connected in bottom surface, by above-mentioned through hole (1211), suck air, adsorb above-mentioned armorplate glass (600).
2nd backboard (1220 '), it is arranged on above-mentioned inversion set portion (1500) below, and in below, absorption is reversed and the above-mentioned armorplate glass (600) of movement downwards by inversion set (1500) top and bottom;
Above-mentioned 2nd backboard forms multiple through hole (1221) with hollow shape above, connects vacuum hose (1222) in bottom surface, sucks air, adsorb above-mentioned armorplate glass (600) by above-mentioned through hole (1221).
The single safety glass board processing system of the G2 mode touch sensor of the forming unit unit of the present invention the 2nd embodiment formed according to said structure operates in the following manner.
First, the armorplate glass (600) that transfer conveyer (1100) makes multiple G2 mode touch sensor (601) be formed enters, and makes above-mentioned armorplate glass (600) sling (S1000 ') on above-mentioned 1st backboard (1210 ').
Now, above-mentioned armorplate glass (600) is not positioned on above-mentioned 1st backboard (1210 '), if rest on above-mentioned transfer conveyer (1100), the above-mentioned cylinder (1701) in above-mentioned transfer conveyer (1100) front is arranged on by lifting moving, before, the above-mentioned pressure rod of rear movement (1702), the above-mentioned armorplate glass (600) rested on above-mentioned transfer conveyer (1100) is moved to above-mentioned 1st backboard (1210 '), pressurizes.
At this, preferably, above-mentioned transfer conveyer (1100) receives external power source, operate above-mentioned running portion (1102), be arranged on multiple rotating rods (1103) between above-mentioned running portion (1102) while the above-mentioned running portion (1102) of dependence carries out operating, by rotating above-mentioned rotation roller (1104), rearward move above-mentioned armorplate glass (600) the above-mentioned rotation roller (1104) of the above-mentioned armorplate glass of supported underneath (600) bottom surface.
So, by the vacuum hose (1212) of above-mentioned 1st backboard (1210 '), suck air, therefore, utilize the absorption affinity of the extraneous air sucked by above-mentioned 1st through hole (1211), adsorb above-mentioned armorplate glass (600).
After, above-mentioned 1st backboard (1210 ') adsorbing above-mentioned armorplate glass (600) in below guides the transfer guide (1315) in above-mentioned 1st sandblasting portion (1310), enters into the shell (1313) inner (S2000 ') in above-mentioned 1st sandblasting portion (1310).
Also have, on the above-mentioned armorplate glass (600) that the shell (1313) entering into above-mentioned 1st sandblasting portion (1310) is inner, while with above-mentioned valve (1314) jet grinding agent, by mobile above-mentioned valve (1314), utilize the grinding agent that above-mentioned valve (1314) sprays, by above-mentioned armorplate glass (600) above zoning cut into the unit of cells (S3000 ') of size corresponding to the specification of the touch-screen product that will use.
At this, preferably, above-mentioned 1st sandblasting portion (1310) above-mentioned armorplate glass (600) cuts into the degree of depth of 50% correspondence of above-mentioned armorplate glass (600) whole thickness above.
The above-mentioned armorplate glass (600) processed on above-mentioned 1st sandblasting portion (1310) completes utilizes above-mentioned 1st backboard (1210 ') of above-mentioned transfer guide (1315) movement, extends workbench (1312) transfer to the above-mentioned 2nd.
Now, above-mentioned 1st backboard (1210 ') that above-mentioned transfer guide (1315) makes above-mentioned 1st sandblasting portion (1310) discharge is positioned at the above-mentioned 2nd and extends on workbench (1312).
At this, preferably, being positioned at the above-mentioned 2nd at above-mentioned 1st backboard (1210 ') of the above-mentioned armorplate glass of supported underneath (600) extends on workbench (1322), (S4000 ') is removed in the absorption of above-mentioned 1st backboard (1210 '), and above-mentioned armorplate glass (600) is transportable state.
So, the framework (1501) of above-mentioned inversion set portion (1500) is front, rear and lifting moving, be positioned at above-mentioned armorplate glass (600) top, under this state, while above-mentioned swivel plate (1502) adsorbs above-mentioned armorplate glass (600), said frame (1501) lifting moving, above-mentioned armorplate glass (600) is elevated to the state be adsorbed on above-mentioned swivel plate (1502).
After, above-mentioned swivel plate (1502) rotates running, to reverse the upper of above-mentioned armorplate glass (600), below (S5000 '), above-mentioned 2nd lowering or hoisting gear (1420 ') lifting moving, on above-mentioned swivel plate (1502), the above-mentioned armorplate glass (600) that absorption is reversed below, mobile (S6000).
At this, preferably, 1st inlet hole (1502a) of above-mentioned swivel plate (1502) by being formed on above or below, suck air, adsorb above-mentioned armorplate glass (600), the above-mentioned air suction inlet (1421) of above-mentioned 2nd lowering or hoisting gear (1420 ') by being formed below, sucks air, adsorbs above-mentioned armorplate glass (600).
Now, above-mentioned 2nd lowering or hoisting gear (1420 ') lifting moving, in the above-mentioned armorplate glass of absorption (600) in the past, above-mentioned swivel plate (1502) removed the state of the above-mentioned armorplate glass of absorption (600).
Also have, above-mentioned 2nd lowering or hoisting gear (1420 ') forward, rear is to movement, under this state, move downwards, above above-mentioned 2nd backboard (1220 ') that 3rd prolongation workbench (1321) in above-mentioned 2nd sandblasting portion (1320) is sling, put down above-mentioned armorplate glass (600) (S7000 ').
At this, preferably, during above-mentioned 2nd lowering or hoisting gear (1420 ') moves downwards, above-mentioned inversion set portion (500) is preferably positioned at the above-mentioned 2nd and extends workbench (1312) top.
Now, if sling above-mentioned armorplate glass (600) on above-mentioned 2nd backboard (1220 '), by the vacuum hose (1222) of above-mentioned 2nd backboard (1220 '), suck air, therefore, utilize by above-mentioned 2nd through hole (1221), suck the absorption affinity of extraneous air, adsorb above-mentioned armorplate glass (600).
So, above-mentioned armorplate glass (600) is fixed on above-mentioned 2nd backboard (1220 '), above-mentioned 2nd backboard (1220 ') is guided by the transfer guide (1325) in above-mentioned 2nd sandblasting portion (1320), enters into the shell (1323) inner (S8000 ') in above-mentioned 2nd sandblasting portion (1320).
At this, preferably, below the above-mentioned armorplate glass (600) that the shell (1323) entering into above-mentioned 2nd sandblasting portion (1320) is inner, while above-mentioned valve (1324) jet grinding agent, moved by the movable passageway that above-mentioned valve (1324) is cut to the zoning above above-mentioned armorplate glass (600), utilize the grinding agent that above-mentioned valve (1324) sprays, zoning below above-mentioned armorplate glass (600) is cut into the unit of cells (S9000 ') of the size that the specification of the product of touch-screen will be used corresponding.
At this, preferably, above-mentioned armorplate glass (600) is cut into the degree of depth of 60% correspondence of above-mentioned armorplate glass (600) whole thickness below by above-mentioned 2nd sandblasting portion (1320).
Also have, above-mentioned 2nd sandblasting portion (1320) completes above-mentioned 2nd backboard (1220 ') that the above-mentioned armorplate glass (600) processed utilizes the movement of above-mentioned transfer guide (1325) below, extends workbench (1322) discharge to the 4th of above-mentioned 2nd sandblasting portion (1320).
As mentioned above, after the single armorplate glass that multiple G2 mode touch sensor is formed forms protective film, zoning is cut, the method characteristic manufacturing G2 mode touch-screen is, the armorplate glass cutting formed by multiple G2 mode touch sensor, obtain the unit of cells glass substrate that G2 mode touch sensor is formed, enhance productivity, a large amount of production may be realized thus, along the boundary that protective film is removed, cutting armorplate glass, protective film is utilized to protect armorplate glass, according to the boundary of protective film, clearly can confirm the data object that armorplate glass will cut.The transfer of armorplate glass realizes automation, and promote operating efficiency, armorplate glass is fixed on backboard, and in transfer way, the danger of not dropping, armorplate glass is transferred by transferred unit, does not fall.By the automation that armorplate glass is transferred, reduce operating personnel, meanwhile, save labour cost.Armorplate glass is auto-reverse in inversion set portion, improve operating speed, the armorplate glass Working position of reversion automatically resets, utilize inversion set portion, armorplate glass reverses safely, do not have damaged danger, by the automation of armorplate glass process engineering, operator can also complete other business simultaneously.
The single safety glass board processing system of the G2 mode touch sensor of forming unit unit of the present invention described above and utilize its armorplate glass processing method to be only an embodiment, the structure of the present invention illustrated according to accompanying drawing and effect are described as just an embodiment, and above-mentioned technological thought of the present invention and core are formed and effect is not limited thereto.By above-mentioned description, relevant staff in the scope not departing from this invention technological thought, can carry out various change and amendment completely.Therefore, the technical scope of this invention is not limited to the content on description, must determine its technical scope according to interest field.

Claims (17)

1. a single safety glass board processing system for the G2 mode touch sensor of forming unit unit, is characterized in that:
Comprise:
Transfer conveyer (1100), it makes the armorplate glass (600) forming multiple G2 mode touch sensor (601) above enter;
1st backboard (1210), is arranged on the rear of above-mentioned transfer conveyer (1100), at the armorplate glass (600) that the above-mentioned transfer conveyer (1100) of supported underneath is transferred;
1st sandblasting portion (1310), be arranged on above-mentioned transfer conveyer (1100) rear, front and back end forms the 1st respectively, 2nd extends workbench (1311,1312), it places above-mentioned 1st backboard (1210) of above-mentioned armorplate glass (600) in supported underneath, hold the above-mentioned armorplate glass (600) be positioned on above-mentioned 1st backboard (1210), cut above above-mentioned armorplate glass (600);
1st lowering or hoisting gear (1410), it is arranged on the above-mentioned 1st and extends workbench (1311) top, possess magnet (1411) in bottom surface, magnet (1411) attachment is positioned over above the above-mentioned armorplate glass (600) on above-mentioned 1st backboard (1210) by lifting running;
Inversion set portion (1500), it is arranged on above-mentioned 1st sandblasting portion (1300) rear, and lifting moving and rotation running, to make the top and bottom of the above-mentioned armorplate glass of reversion (600);
2nd backboard (1220), it is arranged on above-mentioned inversion set portion (1500) below, at the above-mentioned armorplate glass (600) of supported underneath top and bottom reversion;
2nd lowering or hoisting gear (1420), it is arranged on the above-mentioned 2nd and extends workbench (1312) top, lifting moving and movable, depart to make the magnet (1411) be positioned over above the above-mentioned armorplate glass (600) on above-mentioned 1st backboard (1210), make to be positioned on above-mentioned 2nd backboard (1220) by the above-mentioned armorplate glass (600) of above-mentioned inversion set portion (1500) top and bottom reversion, and on above-mentioned armorplate glass (600) attachment magnets (1411); And
2nd sandblasting portion (1320), it is arranged on above-mentioned 1st sandblasting portion (1310) rear, front and back end forms the 3rd, the 4th respectively and extends workbench (1321,1322), it places above-mentioned 2nd backboard (1220) of above-mentioned armorplate glass (600) in supported underneath, hold the above-mentioned armorplate glass (600) be positioned on above-mentioned 2nd backboard (1220), cut below above-mentioned armorplate glass (600).
2. the feature of the single safety glass board processing system of the G2 mode touch sensor of forming unit unit is,
Comprise:
Transfer conveyer (1100), it makes the armorplate glass (600) forming multiple G2 mode touch sensor (601) above enter;
1st backboard (1210 '), it is arranged on the rear of above-mentioned transfer conveyer (1100), adheres to the armorplate glass (600) that above-mentioned transfer conveyer (1100) is transferred in below;
1st sandblasting portion (1310), it is arranged on above-mentioned transfer conveyer (1100) rear, front and back end forms the 1st, the 2nd respectively and extends workbench (1311,1312), it places above-mentioned 1st backboard (1210 ') of above-mentioned armorplate glass (600) in supported underneath, hold the above-mentioned armorplate glass (600) be positioned on above-mentioned 1st backboard (1210 '), cut above above-mentioned armorplate glass (600);
Inversion set portion (1500), it is arranged on above-mentioned 1st sandblasting portion (1300) rear, and lifting moving and rotation running, to make the top and bottom of the above-mentioned armorplate glass of reversion (600);
2nd backboard (1220 '), it is arranged on above-mentioned inversion set portion (1500) below, at the above-mentioned armorplate glass (600) of supported underneath top and bottom reversion;
2nd lowering or hoisting gear (1420 '), it is arranged on the above-mentioned 2nd and extends workbench (1312) top, lifting moving and movable, is positioned on above-mentioned 2nd backboard (1220 ') by the above-mentioned armorplate glass (600) reversed by above-mentioned inversion set portion (1500) top and bottom; And
2nd sandblasting portion (1320), it is arranged on above-mentioned 1st sandblasting portion (1310) rear, front and back end forms the 3rd, the 4th respectively and extends workbench (1321,1322), it places the 2nd backboard (1220 ') of above-mentioned armorplate glass (600) in supported underneath, hold the above-mentioned armorplate glass (600) be positioned on above-mentioned 2nd backboard (1220 '), cut below above-mentioned armorplate glass (600).
3. the feature of the single safety glass board processing system of the G2 mode touch sensor of forming unit unit is,
Comprise:
1st backboard (1210), it supports the armorplate glass (600) forming multiple G2 mode touch sensor (601) above in below;
1st sandblasting portion (1310), before it, rear end forms the 1st respectively, 2nd extends workbench (1311,1312), it places above-mentioned 1st backboard (1210) of above-mentioned armorplate glass (600) in supported underneath, holds the above-mentioned armorplate glass (600) be positioned on above-mentioned 1st backboard (1210), cuts above above-mentioned armorplate glass (600);
1st lowering or hoisting gear (1410), it is arranged on the above-mentioned 1st and extends workbench (1311) top, possess magnet (1411) in bottom surface, described magnet (1411) to be attached to above the above-mentioned armorplate glass (600) that is positioned on above-mentioned 1st backboard (1210) by lifting running.
4. the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit according to claim 1 and 2, is characterized in that:
Above-mentioned transfer conveyer (1100) comprising:
Operation post (1101);
Running portion (1102), it is a pair, and it is oppositely arranged on above-mentioned operation post (1101) both sides above;
Multiple rotating rod (1103), it is along the length direction of above-mentioned operation post (1101), apart from certain interval, is arranged between above-mentioned running portion (120); And
Multiple rotation roller (1104), it is along the length direction of above-mentioned rotating rod (1103), separates predetermined distance and arranges, at the above-mentioned armorplate glass of supported underneath (600).
5. the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit according to Claim 1-3, is characterized in that:
Above-mentioned 1st, the 2nd sandblasting portion (1310,1320) comprising:
Shell (1313,1323);
Valve (1314,1324), it is inner that it is arranged on above-mentioned shell (1313,1323), lifting moving and forwards, backwards, moves left and right, cut above-mentioned armorplate glass (600); And
Transfer guide (1315,1325), it is oppositely arranged on above-mentioned shell (1313 mutually, 1323) inner bottom surface two ends, to above-mentioned shell, inside and outside portion moves, above-mentioned 1st backboard (1210,1210 ') and the 2nd backboard (1220,1220 ') are moved.
6. the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit according to claim 1 and 2, is characterized in that, the front of above-mentioned transfer conveyer (1100), also comprises::
Cylinder (1701), it carries out lifting moving;
Pressure rod (1702), it is arranged on above-mentioned cylinder (1701) rear, pressurizes while forward and backward movement to above-mentioned armorplate glass (600) side.
7. the single safety glass board processing system of the G2 mode touch sensor of forming unit unit according to claim 2, is characterized in that:
Above-mentioned 1st, 2nd backboard (1210 ', 1220 ') with hollow shape, form multiple through hole (1211,1221) above, connect vacuum hose (1212 in bottom surface, 1222), suck air by above-mentioned through hole (1211,1221), adsorb above-mentioned armorplate glass (600).
8. the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit according to claim 1 and 2, is characterized in that:
Above-mentioned inversion set portion (1500) comprising:
Framework (1501), its lifting moving and movable; And
Swivel plate (1502), it is arranged on said frame (1501) below, above-mentioned 1st backboard (1210 is positioned in absorption, 1210 ') the above-mentioned armorplate glass (600) above, further, carrying out rotating running makes the top and bottom of above-mentioned armorplate glass (600) reverse.
9. the single safety glass board processing system of the G2 mode touch sensor of forming unit unit according to claim 8, is characterized in that:
Above-mentioned inversion set portion (1500) above-mentioned swivel plate (1502) above or below on any one face, form multiple 1st inlet holes (1502a) sucking air.
10. the single safety glass board processing system of the G2 mode touch sensor of the forming unit unit according to claim 1 and 2, is characterized in that:
Above-mentioned 1st, the 2nd lowering or hoisting gear (1410,1420) makes above-mentioned magnet (1411) depart from from armorplate glass (600) by electromagnet mode, attachment.
The single safety glass board processing system of the G2 mode touch sensor of 11. forming unit units according to claim 1 and 2, is characterized in that:
Above-mentioned 2nd lowering or hoisting gear (1420,1420 ') is formed below and sucks air to adsorb multiple air adsorption holes (1421) of above-mentioned armorplate glass (600).
The single armorplate glass processing method of the G2 mode touch sensor of 12. 1 kinds of forming unit units, is characterized in that comprising following process:
1st process (S1000), is formed the armorplate glass (600) of multiple G2 mode touch sensor (601), is placed on the 1st backboard (1210) by transfer conveyer (1100) transfer;
2nd process (S2000), running the 1st lowering or hoisting gear (1410), is attached to above the above-mentioned armorplate glass (600) that is positioned on above-mentioned 1st backboard (210) by magnet (1411);
3rd process (S3000), moves to the 1st sandblasting portion (1310) by the above-mentioned armorplate glass (600) be positioned on above-mentioned 1st backboard (1210), cuts above above-mentioned armorplate glass (600);
4th process (S4000), after above-mentioned 3rd process (S3000), the above-mentioned magnet (1411) of above-mentioned armorplate glass (600) attachment of discharging from above-mentioned 1st sandblasting portion (1310) departs to the 2nd lowering or hoisting gear (1420);
5th process (S5000), adsorbed the armorplate glass (600) of above-mentioned disengaging magnet (1411) by the swivel plate (1502) of inversion set portion (1500), reversed in the top and bottom of above-mentioned armorplate glass (600);
6th process (S6000), is adsorbed by above-mentioned 2nd lowering or hoisting gear (1420) and moves by above-mentioned swivel plate (1502), the above-mentioned armorplate glass (600) reversed below;
7th process (S7000), is placed on the 2nd backboard (1220) top by the above-mentioned armorplate glass (600) being adsorbed in above-mentioned 2nd lowering or hoisting gear (1420), adheres to described magnet (1411);
8th process (S8000), moves to the 2nd sandblasting portion (1320) by the above-mentioned armorplate glass (600) be positioned on above-mentioned 2nd backboard (1220), cuts below above-mentioned armorplate glass (600).
The single armorplate glass processing method of the G2 mode touch sensor of 13. 1 kinds of forming unit units, is characterized in that:
Comprise following process:
1st process (S1000 '), form conveyer (1100) by transfer and transfer the armorplate glass (600) of multiple G2 mode touch sensor (601), to be placed on the 1st backboard on (1210 ');
2nd process (S2000 '), is adsorbed by above-mentioned 1st backboard (1210 ') and moves above-mentioned armorplate glass (600);
3rd process (S3000 '), will be mobile to the 1st sandblasting portion (1310) at the above-mentioned armorplate glass (600) of the upper absorption of above-mentioned 1st backboard (1210 '), cut above above-mentioned armorplate glass (600);
4th process (S4000 '), after above-mentioned 3rd process (S3000), removes the adsorbed state of the above-mentioned armorplate glass (600) of discharging from above-mentioned 1st sandblasting portion (1310);
5th process (S5000 '), the upper above-mentioned armorplate glass (600) removing absorption of above-mentioned 1st backboard (1210 ') is adsorbed on, above-mentioned armorplate glass (600) top and bottom of reversing by the swivel plate (1502) of inversion set portion (1500);
6th process (S6000 '), is adsorbed by above-mentioned 2nd lowering or hoisting gear (1420 ') and moves the above-mentioned armorplate glass (600) by the reversion of above-mentioned swivel plate (1502) top and bottom;
7th process (S7000 '), is placed on the 2nd backboard (1220 ') by the above-mentioned armorplate glass (600) being adsorbed in above-mentioned 2nd lowering or hoisting gear (1420 ');
8th process (S8000 '), is adsorbed by above-mentioned 2nd backboard (1220 ') and moves above-mentioned armorplate glass (600);
9th process (S9000 '), the above-mentioned armorplate glass (600) be positioned on above-mentioned 2nd backboard (1220 ') is moved to the 2nd sandblasting portion (1320), cuts below above-mentioned armorplate glass (600).
14. according to claim, and the single armorplate glass processing method of the G2 mode touch sensor of the forming unit unit described in 2, is characterized in that:
In above-mentioned 2nd process (S2000), the 4th process (S4000) and the 7th process (S7000), make electric current by above-mentioned 1st, the 2nd backboard (1210,1220) magnet (1411), is made to come off, adhere to.
The single armorplate glass processing method of the G2 mode touch sensor of 15. forming unit units according to claim 12 and 13, is characterized in that:
In above-mentioned 6th process (S6000), at above-mentioned 2nd lowering or hoisting gear (1420,1420 ') lifting moving adsorbed above-mentioned armorplate glass (600) in the past, at the upper adsorbed state removing above-mentioned armorplate glass (600) of above-mentioned swivel plate (1502).
The single armorplate glass processing method of the G2 mode touch sensor of 16. forming unit units according to claim 12, is characterized in that:
In above-mentioned 3rd process (S3000), cut into 50% of above-mentioned armorplate glass (600) whole thickness by above-mentioned 1st sandblasting portion (1310) by above above-mentioned armorplate glass (600),
In above-mentioned 8th process (S8000), cut into 60% of above-mentioned armorplate glass (600) whole thickness by above-mentioned 2nd sandblasting portion (1320) by below above-mentioned armorplate glass (600).
The single armorplate glass processing method of the G2 mode touch sensor of 17. forming unit units according to claim 13, is characterized in that:
In above-mentioned 3rd process (S3000 '), cut into 50% of above-mentioned armorplate glass (600) whole thickness by above-mentioned 1st sandblasting portion (1310) by above above-mentioned armorplate glass (600),
In above-mentioned 9th process (S9000 '), cut into 60% of above-mentioned armorplate glass (600) whole thickness by above-mentioned 2nd sandblasting portion (1320) by below above-mentioned armorplate glass (600).
CN201410260544.1A 2013-06-17 2014-06-12 Tempered glass plate processing system and tempered glass plate processing method using the same Pending CN104227569A (en)

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