CN102898011B - A kind of horizontal-type glass work-piece processing device - Google Patents

Abstract

The present invention relates to the technical field of glass processing device, disclose a kind of horizontal-type glass work-piece processing device, comprise can hole to glass workpiece drilling equipment, can to the hole that glass workpiece has bored carry out boring operation boring device, can angle place chamfering on glass workpiece facing attachment and control the control center of described drilling equipment, boring device and facing attachment operation, described drilling equipment, boring device and facing attachment sequential are arranged.Compared with prior art; the whole operating process of horizontal-type glass work-piece processing device is controlled by control center; automatically can complete the drilling operation to glass workpiece, the hole of having bored carried out to the operation of deep processing and chamfering operation is carried out to the angle place of glass workpiece; this automation degree of equipment is high; many individuals are not needed to participate in; can work continuously, and be suitable for hole machined or the chamfering of extensive or large batch of glass workpiece.

Description

A kind of horizontal-type glass work-piece processing device

Technical field

The present invention relates to the technical field of glass processing device, particularly relate to a kind of can the horizontal-type glass work-piece processing device of high and the satisfied extensive or in enormous quantities glass processing requirement of continuous seepage operation, level of automation.

Background technology

Mostly adopt in current glass processing production line and carry out production operation by sectional type production technique, as operations such as cutting, edging, boring, bore hole and chamferings, in each procedure operation, glass all will repeat slice, bottom sheet work, and be essentially manual type operation, such process for processing mode also exists following defect:

One, sectional type is adopted to produce, manual type operation accounting is great, different operator's operating forces is different, and lower cutter speed, the accuracy entering the parameters such as nose angle degree and consistence etc. all have very big difference, and level of automation is low, labor strength is large, because of feel and the skill level difference of different operating personnel, the glass quality processed is uneven, and quality grade is low, cause the consistence of the quality of product poor, be difficult to meet and install and use requirement;

Two, sectional type is adopted to produce, enough operator posies must be configured to meet each workshop section production operation demand, need to mate rotating tooling in a considerable amount of production, load for Semi-finished glass product fluctuating plate, in addition along with the development of solar energy photovoltaic glass, back-panel glass processing problems is more aobvious outstanding, the new industry of solar energy photovoltaic glass is in the urgent need to a kind of moderate accuracy, cost is on the low side, can carry out the equipment of Continuous maching operation for meeting production demand to large gauge glass or large batch of glass.

Three, adopt sectional type to produce, production efficiency is low, and can not meet production demand far away, production efficiency rises completely certainly in the speed speed of operator, can not continue to produce;

Four, adopt sectional type to produce, the easy generation time in off-line operation process of Semi-finished glass product is polluted or damages, and reduce further glass finished-product rate, improves production cost;

Five, photovoltaic back-panel glass requires that boring is to wear conductor wire on glass, rounding and C angle precision prescribed high especially, completely be difficult to reach service precision requirement by artificial multi-work-station operation, existing glass processing device cannot complete to be processed extensive glass.

Summary of the invention

The object of the present invention is to provide a kind of horizontal-type glass work-piece processing device, be intended to solve that equipment of the prior art can not be worked continuously, level of automation is low, can not meet the problem of glass workpiece extensive or in enormous quantities processing.

The present invention realizes like this, a kind of horizontal-type glass work-piece processing device, comprise can hole to glass workpiece drilling equipment, can to the hole that glass workpiece has bored carry out boring operation boring device, can on glass workpiece angle place chamfering facing attachment and control described drilling equipment, boring device and facing attachment operation control center, described drilling equipment, boring device and facing attachment sequential arrange.

Further, also comprise the locating device that can position glass workpiece, described locating device is positioned at described drilling equipment front.

Further, described drilling equipment comprise drill rack, first detection components that can detect glass workpiece position, can oscilaltion move and drive the first moving assembly of glass workpiece movement, first positioning component that can position glass workpiece, can the first fixation kit of fixing glass part position and the boring assemblies that can hole to fixing glass workpiece, described first detection components is electrically connected at described control center, and described first moving assembly, the first positioning component, the first fixation kit and boring assemblies are placed on described drill rack.

Further, described boring assemblies comprises the boring guide rail bracket be located on drill rack, the drilling moving frame that can move left and right on described boring guide rail bracket, the borehole drill construction that can carry out drilling operation to glass workpiece and the boring hoisting appliance that described borehole drill construction can be driven to move up and down, described boring guide rail bracket is fixed on described drill rack, described drilling moving frame is movably connected on described boring guide rail bracket, described boring hoisting appliance is fixedly connected on described drilling moving frame, and described borehole drill construction is movably connected on described boring hoisting appliance.

Further, described borehole drill construction comprises bore motor, the driving member and be connected to described boring driving member and auger spindle for holing to glass workpiece of holing, and described boring driving member is connected to described bore motor.

Further, it is pullover that described auger spindle upper end has the water receiving that can connect outside water pump, and lower end has the drilling pipe can holed to glass workpiece.

Further, described boring hoisting appliance comprises the boring guide rod be connected with described drilling moving frame, the lifting driving member being connected to described boring guide rod and can drive the second motor of described lifting drive member, described boring guide rod is actively located in the first retaining plate for fixing bore motor in borehole drill construction, and described lifting driving member is connected to described second motor and described boring guide rod simultaneously.

Further, boring device comprise bore hole frame, second detection components that can detect glass workpiece position, can oscilaltion move and drive the second moving assembly of glass workpiece movement, second positioning component that can position glass workpiece, can fixing glass part position the second fixation kit and can to the bore hole assembly fixing the hole that the glass workpiece of position has bored and carry out boring operation, described second detection components is electrically connected at described control center, and described second moving assembly, the second positioning component and bore hole assembly are placed in described bore hole frame.

Further, described bore hole assembly comprises the bore hole guide rail bracket be movably connected in described bore hole frame, the bore hole movable stand that can move left and right on described bore hole guide rail bracket, the bore hole mechanism that can carry out boring operation to the hole that glass workpiece has bored and the bore hole hoisting appliance that described bore hole mechanism can be driven to move up and down, described bore hole guide rail bracket is movably connected on described bore hole frame, described bore hole movable stand is movably connected on described bore hole guide rail bracket, described bore hole hoisting appliance is fixedly connected on described bore hole movable stand, described bore hole mechanism is movably connected on described bore hole hoisting appliance.

Further, described bore hole mechanism comprises bore hole motor and is installed on the boring cutter of described bore hole motor, and described bore hole motor activity is installed on described bore hole hoisting appliance.

Further, described bore hole hoisting appliance comprises the bore hole guide rod being connected to described bore hole movable stand and the 5th motor that this bore hole guide rod can be driven to rotate, and described bore hole guide rod is actively located in the second retaining plate for fixing bore hole motor in described bore hole mechanism.

Further, described facing attachment comprise chamfering frame, the 3rd detection components that can detect glass workpiece position, can oscilaltion move and drive the 3rd moving assembly of glass workpiece movement, the 3rd positioning component that can position glass workpiece, can fixing glass part position the 3rd fixation kit and a pair chamfer angle component of chamfering operation can be carried out to the angle place of the glass workpiece fixing position, described 3rd detection components is electrically connected at described control center, and described 3rd moving assembly, the 3rd positioning component and chamfer angle component are placed in described chamfering frame.

Further, described chamfer angle component comprises the chamfering guide rail bracket be movably connected in described chamfering frame, the chamfering movable stand that can move left and right on described chamfering guide rail bracket, the chamfer mechanism that can carry out chamfering operation to the angle place of glass workpiece and the chamfering hoisting appliance that described chamfer mechanism can be driven to move up and down, described chamfering guide rail bracket is movably connected on described chamfering frame, described chamfering movable stand is movably connected on described chamfering guide rail bracket, described chamfering hoisting appliance is fixedly connected on described chamfering movable stand, described chamfer mechanism is movably connected on described chamfering hoisting appliance.

Further, described chamfer mechanism comprises chamfering motor and is installed on the rose reamer of described chamfering motor, and described chamfering motor activity is installed on described chamfering hoisting appliance.

Further, described chamfering hoisting appliance comprises the chamfering guide rod being connected to described chamfering movable stand and the 6th motor that this chamfering guide rod can be driven to rotate, and described chamfering guide rod is actively located in the 3rd retaining plate for fixing chamfering motor in described chamfer mechanism.

Further, described first moving assembly or the second moving assembly or the 3rd moving assembly comprise the hoisting appliance can carried the transfer mechanism of glass workpiece and described transfer mechanism can be driven to move up and down, described hoisting appliance is fixedly connected on drill rack or bore hole frame or chamfering frame, and described transfer mechanism is connected to described hoisting appliance.

Further, the excentric shaft that described hoisting appliance comprises the 7th motor and can be rotated by described 7th driven by motor, described excentric shaft is connected to described transfer mechanism.

Further, described first fixation kit or the second fixation kit or the 3rd fixation kit are sucker system, and described sucker system has producer gas generator and is communicated in described producer gas generator and can be used for holding the sucker of glass workpiece.

Compared with prior art; the whole operating process of horizontal-type glass work-piece processing device is controlled by control center; automatically can complete the drilling operation to glass workpiece, the hole of having bored carried out to the operation of deep processing and chamfering operation is carried out to the angle place of glass workpiece; this automation degree of equipment is high; many individuals are not needed to participate in; can work continuously, and be suitable for the hole machined of extensive or large batch of glass workpiece.

Accompanying drawing explanation

The schematic top plan view of the horizontal-type glass work-piece processing device that Fig. 1 embodiment of the present invention provides;

Fig. 2 is the schematic perspective view of the drilling equipment that the embodiment of the present invention provides;

Fig. 3 is the schematic perspective view of the boring assemblies that the embodiment of the present invention provides;

Fig. 4 is the schematic perspective view of the boring device that the embodiment of the present invention provides;

Fig. 5 is the schematic perspective view of the bore hole assembly that the embodiment of the present invention provides;

Fig. 6 is the schematic perspective view of the facing attachment that the embodiment of the present invention provides.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The invention provides a kind of horizontal-type glass work-piece processing device, comprise can hole to glass workpiece drilling equipment, can to the hole that glass workpiece has bored carry out boring operation boring device, can angle place chamfering on glass workpiece facing attachment and control the control center of described drilling equipment, boring device and facing attachment operation, described drilling equipment, boring device and facing attachment sequential are arranged.

In the present invention, the level of automation of this horizontal-type glass work-piece processing device is high, does not need many individuals to participate in, can work continuously, and be suitable for the hole machined of extensive or large batch of glass workpiece.

Below in conjunction with specific embodiment, realization of the present invention is described in detail.

As shown in figs. 1 to 6, be a preferred embodiment provided by the invention.

As shown in Figure 1, this equipment is used for carrying out drilling operation and the deep processing of aperture after of just holing to glass workpiece 5, and it is horizontal layout, comprises four stations, is respectively positional stations, for positioning the glass workpiece 5 entering this equipment; Boring station, for carrying out subpunching operation to glass workpiece 5; Bore hole station, for carrying out boring operation to the hole that glass workpiece 5 has bored; Chamfering station, carries out chamfering operation for the corner of the glass workpiece 5 to the complete hole of boring or two jiaos, and four stations sequential respectively, glass workpiece 5 sequentially carries out streamlined processing.

In the present embodiment, equipment comprises the locating device 1 of sequentially horizontal spread configuration, drilling equipment 2, boring device 3, facing attachment 4 and can to locating device 1, drilling equipment 2, the control center controlled is carried out in the operation of boring device 3 and facing attachment 4, locating device 1 is positioned at the front end of equipment, it can adjust the glass workpiece 5 of coming in from feeding unit and locate, make this glass workpiece 5 be in the position set and enter next station, drilling equipment 2 can carry out subpunching operation to glass workpiece 5, boring device 3 can carry out boring operation to the hole of having bored for the first time, facing attachment 4 can carry out chamfer machining to the angle place of the glass workpiece 5 in the complete hole of boring.

The whole process of this equipment is controlled by control center completely, operator can input in the heart certain parameters and requirement in advance in the controlling, control center is according to the parameter wherein set or require to carry out automatization processing to glass workpiece 5, successively through locating device 1, drilling equipment 2, boring device 3 and facing attachment 4, completing of pipeline system is holed at glass workpiece 5, the operation of deep processing is carried out to the hole of having bored and chamfering operation is carried out to the angle place of glass workpiece 5, its level of automation is high, can keep working continuously, be specially adapted to the drilling operation of extensive or large batch of glass workpiece 5.

In equipment in above-mentioned; if complete positioning action in the feeding unit of glass workpiece 5 before equipment; also locating device 1 can not be set; like this; the glass workpiece 5 of having had good positioning directly is sent in drilling equipment 2 by feeding unit; can realize the function of this equipment too, the equipment of this setting is too within protection scope of the present invention.

In the present embodiment, drilling equipment 2 comprises drill rack 20, the detection components that can detect the position of glass workpiece 5, oscilaltion can move and the first moving assembly 6a of glass workpiece 5 movement can be driven, the first positioning component 9a of operation can be positioned to glass workpiece 5, can fixing glass part 5 position the first fixation kit 8a and the boring assemblies 21 of drilling operation can be carried out to the glass workpiece 5 fixing position, detection components is electrically connected at control center, when it detects that glass workpiece 5 arrives the position of presetting in boring apparatus, control center controls other component operational of this drilling equipment 2, this first moving assembly 6a is movable to be arranged on pedestal, it can be used for placing glass part 5, and drive glass workpiece 5 to move, arrive certain position to make glass workpiece 5 or directly glass workpiece 5 delivered in boring device 3, when glass workpiece 5 is under the drive of the first moving assembly 6a, a certain position in arrival equipment, the positioning component 9 be arranged in frame can position operation to glass workpiece 5, the glass workpiece 5 of having good positioning is fixed by the first fixation kit 8a be arranged in frame, be shifted to avoid it, thus cause the phenomenon of Working position mistake, then, the boring assemblies 21 be removably set in frame is processed the glass workpiece 5 fixed, namely on glass workpiece 5, drilling operation is carried out, after drilling operation completes, first fixation kit 8a unclamps the restriction to glass workpiece 5, first moving assembly 6a is then direct to be delivered to glass workpiece 5 in next station.

Particularly, as shown in figures 2-3, boring assemblies 21 comprises the boring guide rail bracket 213 be connected on drill rack 20, the drilling moving frame 212 that can move left and right on boring guide rail bracket 213, the borehole drill construction 211 that can carry out drilling operation to glass workpiece 5 and the boring hoisting appliance 61215 that borehole drill construction 211 can be driven to move up and down, boring guide rail bracket 213 is fixedly connected on drill rack 20, drilling moving frame 212 is movable to be connected on boring guide rail bracket 213, boring hoisting appliance 61215 is connected on drilling moving frame 212, borehole drill construction 211 is movably connected on drilling moving frame 212, like this, this boring assemblies 21 can carry out left and right and move up and down in frame, namely illustrated X is completed, the movement of Z-direction, equally, first moving assembly 6a can drive glass workpiece 5 movement in the Y direction, thus ensure the movement in solid space three directions of glass workpiece 5 in this drilling equipment 2.

Boring guide rail bracket 213 has the boring guide rail 2131 that can coordinate with drilling moving frame 212, drilling moving frame 212 is set on this boring guide rail 2131, and can move along this boring guide rail 2131 under the drive of the first motor, thus the movement completed in X-direction, this first motor is connected to boring guide rail 2131, certainly, also boring rocking bar 2132 can be set in one end of boring guide rail 2131, driven the rotation of boring guide rail 2131 by this boring rocking bar 2132, thus drive the movement of drilling moving frame 212.

Borehole drill construction 211 comprises bore motor 2111, boring driving member 2112 and to be connected on boring driving member 2112 and auger spindle 2113 for holing to glass workpiece 5, this bore motor 2111 is connected on boring driving member 2112, and the motion of this boring driving member 2112 can be driven, the movement of this boring driving member 2112, then band is automatically connected in the rotation of the auger spindle 2113 on it, after auger spindle 2113 rotates, then the glass workpiece 5 started carries out drilling operation.

Particularly, boring driving member 2112 is belt wheel transmission part, certainly, also can be the driving member of other form, such as sprocket wheel transmission piece or rod member driving member etc.

The lower end of auger spindle 2113 has the drilling pipe 21132 can holed to glass workpiece 5, its upper end has the water receiving that can connect outside water pump pullover 21131, like this, when auger spindle 2113 is when carrying out drilling operation to glass workpiece 5, outside water pump supplies water, to reduce the working temperature of auger spindle 2113 to this auger spindle 2113.

Boring hoisting appliance 61215 comprises the boring guide rod 2152 be connected on drilling moving frame 212, lifting driving member and can drive the second motor 2151 of this lifting drive member, this boring guide rod 2152 activity is located in the first retaining plate for fixing bore motor 2111 in borehole drill construction 211, simultaneously, this lifting driving member is connected to the second motor 2151 and boring guide rod 2152, like this, motor drives boring guide rod 2152 to rotate by lifting driving member, simultaneously, the rotation of boring guide rod 2152 drives moving up and down, namely along the movement of Z-direction of boring assemblies 21.

As shown in Figures 4 and 5, boring device 3 comprises bore hole frame 30, the detection components that can detect glass workpiece 5 position, oscilaltion can move and the second moving assembly 6b of glass workpiece 5 movement can be driven, the second positioning component 9b of operation can be positioned to glass workpiece 5, can fixing glass part 5 position the second fixation kit 8b and the bore hole assembly 31 of boring operation can be carried out to the glass workpiece 5 fixing position, detection components is electrically connected at control center, when it detects that glass workpiece 5 arrives the position of presetting in boring device 3, control center controls other component operational in boring device 3.

Second moving assembly 6b is movable to be arranged in bore hole frame 30, it can be used for placing glass part 5, and drive glass workpiece 5 to move, arrive certain position to make glass workpiece 5 or directly glass workpiece 5 delivered in facing attachment 4, when glass workpiece 5 is under the drive of the second moving assembly 6b, a certain position in arrival equipment, the the second positioning component 9b be arranged in bore hole frame 30 can position operation to glass workpiece 5, the glass workpiece 5 of having good positioning is fixed by the second fixation kit 8b be arranged in bore hole frame 30, be shifted to avoid it, thus cause the phenomenon of Working position mistake, then, the bore hole assembly 31 be removably set in bore hole frame 30 is processed the glass workpiece 5 fixed, namely on glass workpiece 5, boring operation is carried out in hole-drilled position, after boring operation completes, second fixation kit 8b unclamps the restriction to glass workpiece 5, second moving assembly 6b is then direct to be delivered to glass workpiece 5 in next station.

Particularly, bore hole assembly 31 comprises the movable bore hole guide rail bracket 313 be connected in bore hole frame 30, bore hole movable stand 312 can be moved left and right on bore hole guide rail bracket 313, the bore hole mechanism 311 that can carry out boring operation to glass workpiece 5 and the bore hole hoisting appliance 61315 that bore hole mechanism 311 can be driven to move up and down, bore hole guide rail bracket 313 is mobilizable to be connected in bore hole frame 30, it can move forward and backward along bore hole frame 30, this bore hole movable stand 312 is movable to be connected on bore hole guide rail bracket 313, bore hole mechanism 311 is movably connected on bore hole movable stand 312, bore hole hoisting appliance 61315 is connected on bore hole movable stand 312, like this, bore hole assembly 31 can carry out left and right and move up and down in bore hole frame 30, namely the X in diagram is completed, the movement of Z-direction.

Bore hole frame 30 has can bore hole guide rail bracket 313 coordinate bore hole guide rail 301, bore hole guide rail bracket 313 is set on this bore hole guide rail 301, and can move along this bore hole guide rail 301 under the drive of the 3rd motor 302, thus the movement completed in the Y direction, 3rd motor 302 is connected on bore hole guide rail 301, certainly, also one bore hole rocking bar can be set in one end of this bore hole guide rail 301, by shaking this bore hole rocking bar, drive the rotation of bore hole guide rail 301, thus, drive the movement of bore hole guide rail bracket 313.

Boring cutter under bore hole mechanism 311 comprises bore hole motor and is installed on this bore hole motor, this bore hole motor casing drives the rotation of boring cutter, thus the boring operation completed the hole that glass workpiece 5 has bored, this bore hole mechanism 311 is movable to be connected on bore hole hoisting appliance 61315.

Bore hole hoisting appliance 61315 comprises the 5th motor 3151 being connected to bore hole guide rod 3152 on bore hole movable stand 312 and this bore hole guide rod 3152 can be driven to rotate, movable the second retaining plate be located in for fixing bore hole motor in bore hole mechanism 311 of this bore hole guide rod 3152,4th electric machine rotation drives the rotation of bore hole guide rod 3152, the rotation of bore hole guide rod 3152 then directly drives moving up and down of bore hole mechanism 311, and the Z-direction namely along bore hole frame 30 moves.

As shown in Figure 6, the structure of facing attachment 4 improves on the basis of the structure of boring device 3, be specially: on boring device 3, add a bore hole assembly 31 again, namely bore hole frame 30 have two and be oppositely arranged on bore hole assembly 31, namely form the facing attachment 4 in the present embodiment.

For the ease of distinguishing boring device 3 and facing attachment 4, all parts of the present embodiment to the boring device 3 after improvement renames, and the concrete concrete structure of facing attachment 4 is as follows:

Facing attachment 4 comprises chamfering frame 40, the detection components that can detect glass workpiece 5 position, oscilaltion can move and the 3rd moving assembly 6c of glass workpiece 5 movement can be driven, the 3rd positioning component 9c of operation can be positioned to glass workpiece 5, can fixing glass part 5 position the 3rd fixation kit 8c and the chamfer angle component 41 of chamfering operation can be carried out to the angle place of the glass workpiece 5 fixing position, detection components is electrically connected at control center, when it detects that glass workpiece 5 arrives the position of presetting in facing attachment 4, control center controls other component operational in facing attachment 4.

Moving assembly 6 is movable to be arranged in chamfering frame 40, it can be used for placing glass part 5, and drive glass workpiece 5 to move, arrive certain position to make glass workpiece 5 or directly glass workpiece 5 delivered in facing attachment 4, when glass workpiece 5 is under the drive of the 3rd moving assembly 6c, a certain position in arrival equipment, the 3rd positioning component 9c be arranged in chamfering frame 40 can position operation to glass workpiece 5, the glass workpiece 5 of having good positioning is fixed by the 3rd fixation kit 8c be arranged in chamfering frame 40, be shifted to avoid it, thus cause the phenomenon of Working position mistake, then, the angle place of chamfer angle component 41 to the glass workpiece 5 fixed be removably set in chamfering frame 40 processes, namely four angles place on glass workpiece 5 or two angles place carry out chamfering operation, after chamfering has operated, 3rd fixation kit 8c unclamps the restriction to glass workpiece 5, 3rd moving assembly 6c is then direct to be delivered to glass workpiece 5 in next station.

Particularly, chamfer angle component 41 comprises the movable chamfering guide rail bracket 413 be connected in chamfering frame 40, chamfering movable stand 412 can be moved left and right on chamfering guide rail bracket 413, the chamfer mechanism 411 that can carry out chamfering operation to glass workpiece 5 and the chamfering hoisting appliance 61415 that chamfer mechanism 411 can be driven to move up and down, chamfering guide rail bracket 413 is mobilizable to be connected in chamfering frame 40, it can move forward and backward along chamfering frame 40, this chamfering movable stand 412 is movable to be connected on chamfering guide rail bracket 413, chamfer mechanism 411 is movably connected on chamfering movable stand 412, chamfering hoisting appliance 61415 is connected on chamfering movable stand 412, like this, chamfer angle component 41 can carry out left and right and move up and down in chamfering frame 40, namely the X in diagram is completed, the movement of Z-direction.

Chamfering frame 40 has can chamfering guide rail bracket 413 coordinate chamfering guide rail 401, chamfering guide rail bracket 413 is set on this chamfering guide rail 401, and can move along this chamfering guide rail 401 under the drive of the 6th motor 402, thus the movement completed in the Y direction, 6th motor 402 is connected on chamfering guide rail 401, certainly, also one chamfering rocking bar can be set in one end of this chamfering guide rail 401, by shaking this chamfering rocking bar, drive the rotation of chamfering guide rail 401, thus, drive the movement of chamfering guide rail bracket 413.

Chamfer mechanism 411 chamfering motor 4151 and the rose reamer under being installed on this chamfering motor 4151, this chamfering motor 4151 shell drives the rotation of rose reamer, thus complete on glass workpiece 5 angle place carry out chamfering operation, this chamfer mechanism 411 is movable to be connected on chamfering hoisting appliance 61415.

Chamfering hoisting appliance 61415 comprises the 7th motor 4151 being connected to chamfering guide rod 4152 on chamfering movable stand 412 and this chamfering guide rod 4152 can be driven to rotate, movable the 3rd retaining plate be located in for fixing chamfering motor 4151 in chamfer mechanism 411 of this chamfering guide rod 4152,7th motor 4151 rotates the rotation driving chamfering guide rod 4152, the rotation of chamfering guide rod 4152 then directly drives moving up and down of chamfer mechanism 411, and the Z-direction namely along chamfering frame 40 moves.The structure of the first moving assembly 6a in above-mentioned, the second moving assembly 6b and the 3rd moving assembly 6c is the same, the structure of the first detection components, the second detection components and the 3rd detection components is the same, the structure of the first positioning component 9a, the second positioning component 9b and the 3rd positioning component 9c is the same, the structure of the first fixation kit 8a, the second fixation kit 8b and the 3rd fixation kit 8c is the same, for the ease of describing, in the present embodiment, the assembly the same to structure is unified describe.

First moving assembly 6a or the second moving assembly 6b or the 3rd moving assembly 6c comprises can the transfer mechanism 62 of glass workpiece movement and the hoisting appliance 61 that this transfer mechanism 62 can be driven to move up and down, this hoisting appliance 61 is fixedly connected in frame (can be drill rack 20, bore hole frame 30 or chamfering frame 40), and transfer mechanism 62 is connected on hoisting appliance 61.

Particularly, the excentric shaft 611 that hoisting appliance 61 comprises the 7th motor and can be rotated by the 7th driven by motor, this excentric shaft 611 is connected to transfer mechanism 62, like this, under the drive of the 7th motor, excentric shaft 611 can swing up and down rotation, realizes moving up and down of this hoisting appliance 61.

In the present embodiment, transfer mechanism 62 is for being fixedly connected on the belt conveyor 62 on the excentric shaft 611 of hoisting appliance 61, this belt conveyor 62 is responsible for the movement driving glass workpiece 5 in the Y-direction of equipment, under the drive of the excentric shaft 611 of hoisting appliance 61, belt conveyor 62 can oscilaltion.

First detection components or the second detection components or the 3rd detection components are then sensor, this sensor is electrically connected at control center, it may be used for the position detecting glass workpiece 5, and will detect that information passes to control center, control center makes corresponding order according to all parts of received information to equipment.

First positioning component 9a or the second positioning component 9b or the 3rd positioning component 6c is arranged on the positioning motor in drill rack 20 or bore hole frame 30 or chamfering frame 40, when glass workpiece 5 arrives the predeterminated position of equipment, control center controls this positioning motor and promotes glass workpiece 5, is positioned on the position of needs to make glass workpiece 5.

First fixation kit 8a or the second fixation kit 8b or the 3rd fixation kit 8c is sucker system, the sucker this sucker system having producer gas generator and be communicated with on this producer gas generator, this sucker can hold glass workpiece 5, thus the position of fixing glass part 5, when this sucker needs to hold glass workpiece 5, producer gas generator carries out suction operation, when sucker needs to unclamp glass workpiece 5, producer gas generator then carries out expiration operation, thus makes sucker automatically can complete the operation holding glass workpiece 5 or unclamp glass workpiece 5.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (18)

1. a horizontal-type glass work-piece processing device, it is characterized in that, comprise can hole to glass workpiece drilling equipment, can to the hole that glass workpiece has bored carry out boring operation boring device, can on glass workpiece angle place chamfering facing attachment and control described drilling equipment, boring device and facing attachment operation control center, described drilling equipment, boring device and facing attachment be pipeline-type sequential setting; Described drilling equipment comprises the first moving assembly directly can delivered to by glass workpiece after drilling operation completes in described boring device, and described boring device comprises the second moving assembly directly can delivered to by glass workpiece after boring operation completes in described facing attachment.

2. a kind of horizontal-type glass work-piece processing device as claimed in claim 1, is characterized in that, also comprises the locating device that can position glass workpiece, and described locating device is positioned at described drilling equipment front.

3. a kind of horizontal-type glass work-piece processing device as claimed in claim 1, it is characterized in that, described drilling equipment comprises drill rack, first detection components that can detect glass workpiece position, oscilaltion can move and drive described first moving assembly of glass workpiece movement, first positioning component that can position glass workpiece, can the first fixation kit of fixing glass part position and the boring assemblies that can hole to fixing glass workpiece, described first detection components is electrically connected at described control center, described first moving assembly, first positioning component, first fixation kit and boring assemblies are placed on described drill rack.

4. a kind of horizontal-type glass work-piece processing device as claimed in claim 3, it is characterized in that, described boring assemblies comprises the boring guide rail bracket be located on drill rack, the drilling moving frame that can move left and right on described boring guide rail bracket, the borehole drill construction that can carry out drilling operation to glass workpiece and the boring hoisting appliance that described borehole drill construction can be driven to move up and down, described boring guide rail bracket is fixed on described drill rack, described drilling moving frame is movably connected on described boring guide rail bracket, described boring hoisting appliance is fixedly connected on described drilling moving frame, described borehole drill construction is movably connected on described boring hoisting appliance.

5. a kind of horizontal-type glass work-piece processing device as claimed in claim 4, it is characterized in that, described borehole drill construction comprises bore motor, the driving member and be connected to described boring driving member and auger spindle for holing to glass workpiece of holing, and described boring driving member is connected to described bore motor.

6. a kind of horizontal-type glass work-piece processing device as claimed in claim 5, is characterized in that, it is pullover that described auger spindle upper end has the water receiving that can connect outside water pump, and lower end has the drilling pipe can holed to glass workpiece.

7. a kind of horizontal-type glass work-piece processing device as claimed in claim 4, it is characterized in that, described boring hoisting appliance comprises the boring guide rod be connected with described drilling moving frame, the lifting driving member being connected to described boring guide rod and can drive the second motor of described lifting drive member, described boring guide rod is actively located in the first retaining plate for fixing bore motor in borehole drill construction, and described lifting driving member is connected to described second motor and described boring guide rod simultaneously.

8. a kind of horizontal-type glass work-piece processing device as claimed in claim 3, it is characterized in that, described boring device comprises bore hole frame, second detection components that can detect glass workpiece position, oscilaltion can move and drive described second moving assembly of glass workpiece movement, second positioning component that can position glass workpiece, can fixing glass part position the second fixation kit and can to the bore hole assembly fixing the hole that the glass workpiece of position has bored and carry out boring operation, described second detection components is electrically connected at described control center, described second moving assembly, second positioning component and bore hole assembly are placed in described bore hole frame.

9. a kind of horizontal-type glass work-piece processing device as claimed in claim 8, it is characterized in that, described bore hole assembly comprises the bore hole guide rail bracket be movably connected in described bore hole frame, the bore hole movable stand that can move left and right on described bore hole guide rail bracket, the bore hole mechanism that can carry out boring operation to the hole that glass workpiece has bored and the bore hole hoisting appliance that described bore hole mechanism can be driven to move up and down, described bore hole guide rail bracket is movably connected on described bore hole frame, described bore hole movable stand is movably connected on described bore hole guide rail bracket, described bore hole hoisting appliance is fixedly connected on described bore hole movable stand, described bore hole mechanism is movably connected on described bore hole hoisting appliance.

10. a kind of horizontal-type glass work-piece processing device as claimed in claim 9, is characterized in that, described bore hole mechanism comprises bore hole motor and is installed on the boring cutter of described bore hole motor, and described bore hole motor activity is installed on described bore hole hoisting appliance.

11. a kind of horizontal-type glass work-piece processing devices as claimed in claim 9, it is characterized in that, described bore hole hoisting appliance comprises the bore hole guide rod being connected to described bore hole movable stand and the 5th motor that this bore hole guide rod can be driven to rotate, and described bore hole guide rod is actively located in the second retaining plate for fixing bore hole motor in described bore hole mechanism.

12. a kind of horizontal-type glass work-piece processing devices as claimed in claim 8, it is characterized in that, described facing attachment comprises chamfering frame, 3rd detection components that can detect glass workpiece position, oscilaltion can move and drive the 3rd moving assembly of glass workpiece movement, 3rd positioning component that can position glass workpiece, can fixing glass part position the 3rd fixation kit and a pair chamfer angle component of chamfering operation can be carried out to the angle place of the glass workpiece fixing position, described 3rd detection components is electrically connected at described control center, described 3rd moving assembly, 3rd positioning component and chamfer angle component are placed in described chamfering frame.

13. a kind of horizontal-type glass work-piece processing devices as claimed in claim 12, it is characterized in that, described chamfer angle component comprises the chamfering guide rail bracket be movably connected in described chamfering frame, the chamfering movable stand that can move left and right on described chamfering guide rail bracket, the chamfer mechanism that can carry out chamfering operation to the angle place of glass workpiece and the chamfering hoisting appliance that described chamfer mechanism can be driven to move up and down, described chamfering guide rail bracket is movably connected on described chamfering frame, described chamfering movable stand is movably connected on described chamfering guide rail bracket, described chamfering hoisting appliance is fixedly connected on described chamfering movable stand, described chamfer mechanism is movably connected on described chamfering hoisting appliance.

14. a kind of horizontal-type glass work-piece processing devices as claimed in claim 13, is characterized in that, described chamfer mechanism comprises chamfering motor and is installed on the rose reamer of described chamfering motor, and described chamfering motor activity is installed on described chamfering hoisting appliance.

15. a kind of horizontal-type glass work-piece processing devices as claimed in claim 13, it is characterized in that, described chamfering hoisting appliance comprises the chamfering guide rod being connected to described chamfering movable stand and the 6th motor that this chamfering guide rod can be driven to rotate, and described chamfering guide rod is actively located in the 3rd retaining plate for fixing chamfering motor in described chamfer mechanism.

16. a kind of horizontal-type glass work-piece processing devices as claimed in claim 12, it is characterized in that, described first moving assembly or the second moving assembly or the 3rd moving assembly comprise the hoisting appliance can carried the transfer mechanism of glass workpiece and described transfer mechanism can be driven to move up and down, described hoisting appliance is fixedly connected on drill rack or bore hole frame or chamfering frame, and described transfer mechanism is connected to described hoisting appliance.

17. a kind of horizontal-type glass work-piece processing devices as claimed in claim 16, is characterized in that, the excentric shaft that described hoisting appliance comprises the 7th motor and can be rotated by described 7th driven by motor, and described excentric shaft is connected to described transfer mechanism.

18. a kind of horizontal-type glass work-piece processing devices as claimed in claim 12, it is characterized in that, described first fixation kit or the second fixation kit or the 3rd fixation kit are sucker system, and described sucker system has producer gas generator and is communicated in described producer gas generator and can be used for holding the sucker of glass workpiece.