CN203696663U - Linear four-edge grinding machine for glass - Google Patents

Linear four-edge grinding machine for glass Download PDF

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Publication number
CN203696663U
CN203696663U CN201420010084.2U CN201420010084U CN203696663U CN 203696663 U CN203696663 U CN 203696663U CN 201420010084 U CN201420010084 U CN 201420010084U CN 203696663 U CN203696663 U CN 203696663U
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CN
China
Prior art keywords
glass
edging
hinged
main body
driving cylinder
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Expired - Fee Related
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CN201420010084.2U
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Chinese (zh)
Inventor
何道祺
陈靖
林佛钦
吕天桂
梁少冰
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Foshan City Shunde District Golive Machinery Co Ltd
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Foshan City Shunde District Golive Machinery Co Ltd
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Application filed by Foshan City Shunde District Golive Machinery Co Ltd filed Critical Foshan City Shunde District Golive Machinery Co Ltd
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Abstract

The utility model relates to the field of glass processing devices and discloses a side pressing mechanism and a glass edge grinding machine provided with the side pressing mechanism. The side pressing mechanism comprises a support and a side pressing assembly installed on the support in a slidable mode, wherein the support comprises a sliding cross beam, the side pressing assembly comprises a body plate frame, a driving cylinder, a swing assembly and a transmission rod, the body plate frame is installed on the sliding cross beam of the support in a slidable mode, the driving cylinder is hinged to the body plate frame and hinged to the swing assembly, and the body plate frame is hinged to the swing assembly. The glass edge grinding machine provided with the side pressing mechanism can stably position the glass and is high in machining efficiency.

Description

Glass straight-line four-side edge polisher
Technical field
The utility model relates to glass processing device field, relates in particular to a kind of glass straight-line four-side edge polisher.
Background technology
Glass because of matter hard and crisp, machined is more difficult, as often need to carried out glass-cutting in the use glass processing processes such as furniture glass, industrial glass, building doors and windows curtain wall, because of the rigidity of glass, four limits and the top of the horn razor-edge profit of glass after cutting, not only affect attractive in appearance, and directly affect workmen's safety in installation process, for meeting safety, anti-break, the technological requirement such as attractive in appearance, nearly all glass secondary operations or become product before all need to carry out artificial or mechanical means and carry out edging processing.
Existing glass edge-grinding machine is most of relies on an artificial side one side ground to process in turn, working (machining) efficiency is low, labour intensity is large, and be difficult to full-automatic processing, can not realize continuous processing for four limits of glass, if number of patent application is 201010138503.7 disclosed glass edge-grinding machines, seamed edge that can only processed glass, and adsorb glass by the mode of sucker transmission and make stabilization, its energy consumption is large, and use cost is high.
Utility model content
In view of the above, the utility model provides a kind of glass straight-line four-side edge polisher that can realize continuous edging to glass four limits.
The utility model provides a kind of glass straight-line four-side edge polisher, comprises induction system, edging system and side pressure system, and described induction system comprises two conveying mechanisms of forward and backward docking, between two conveying mechanisms, is formed with edging space;
Described edging system comprises:
Edging frame, it comprises the top that is positioned at described edging space, the beam guideway vertical with glass throughput direction;
Edging mechanism, it comprises the movable bistrique group being slidably arranged on beam guideway and the fixing bistrique group that is arranged on regularly beam guideway one end;
Described side pressure system comprises side compression mechanism and side positioning mechanism;
Described side compression mechanism has two groups, is separately positioned on former and later two conveying mechanisms and is positioned at the same side of induction system;
Described side positioning mechanism correspondingly has two groups, is separately positioned on a side relative with side compression mechanism on former and later two conveying mechanisms;
Each side compression mechanism comprises support and is slidably mounted in the side compression assembly on support, and described support comprises the sliding beam parallel with beam guideway;
Described side compression assembly comprises main body grillage, driving cylinder, wobble component and drive link, main body grillage is slidably mounted on the sliding beam of support, driving cylinder and main body grillage are hinged, and driving cylinder and wobble component are hinged, and main body grillage and wobble component are hinged.
Further, described main body grillage comprises main board, on described main board, convex with contiguous block, contiguous block and driving cylinder are hinged, described main board one side is connected with side plate, on side plate, be installed with the first ring set, wobble component comprises pendulum plate and is convexly equipped with the connection swing arm on pendulum plate, pendulum plate one side is provided with the second ring set regularly, pendulum plate bottom is provided with lateral pressure wheel, the piston end that connects swing arm and driving cylinder is hinged, and drive link, through the first ring set and the second ring set, makes main body grillage and wobble component hinged.
Further, on side compression assembly, be provided with side subsidiary conveyer structure, side subsidiary conveyer structure comprises side feed drive parts and worm gear, side feed drive parts are arranged on one end of drive link regularly, worm gear comprises the first worm gear being set in regularly on drive link, and engages and be formed on lateral pressure wheel through the second worm gear on one end of pendulum plate protrusion with the first worm gear right angle.
Further, each group side positioning mechanism comprises and supports wall, conveyer belt, multiple taking off post and belt-driven motor, and conveyer belt supports the supporting surface of wall around multiple upper and close neighbours of taking off post, and belt-driven motor drives wherein the rotation that takes off post.
Further, glass straight-line four-side edge polisher comprises control system, controls the action of edging system and side pressure system, and control system comprises control centre and some location indentifiers.
Further, on described main body grillage, be provided with primary importance identifier, in order to detect the width of glass.
Further, described movable bistrique group is provided with second place identifier, in order to detect the position of grinding head assembly.
The utility model glass straight-line four-side edge polisher is carried by induction system control glass, by side pressure system to glass two side compressions, can be convenient to front side and rear side processing to glass, by relative bistrique group is set, can be convenient to glass processes glass both sides when mobile, and by wherein a bistrique group is rotatable, realize position adjustment, and by the action of control system control induction system, edging system and side pressure system, realize disposablely automatically and continuously glass four limits being machined.In side pressure system, side compression mechanism coordinates with side positioning mechanism and makes glass location more stable, and can slidable adjustment due to side compression mechanism, and the glass that can meet plurality of specifications compresses processing.And, the method of edging of edge polisher, reasonably utilize the layout feature of edging system, process from front, side to the back of glass, every limit time processing puts in place, simple to operate, and in bistrique group, grinding head assembly comprises chamfered edge abrasive wheel assembly and face abrasive wheel assembly, chamfered edge and side processing are carried out simultaneously, improve working (machining) efficiency.
Preferred embodiment of the present utility model and beneficial effect thereof, further describe in connection with detailed description of the invention.
Brief description of the drawings
Accompanying drawing is to be used to provide further understanding of the present utility model, and forms a part for description, is used from explanation the utility model, but should form restriction of the present utility model with detailed description of the invention one below.In the accompanying drawings,
Fig. 1 is the schematic perspective view of the preferred embodiment of glass straight-line four-side edge polisher of the present utility model;
Fig. 2 is the schematic perspective view of movable bistrique group of the present utility model;
Fig. 3 is the schematic perspective view of grinding head assembly of the present utility model;
Fig. 4 is the schematic perspective view of side compression of the present utility model mechanism;
Fig. 5 is the side view of the side compression mechanism of Fig. 4;
Schematic perspective view when Fig. 6 is side compression mechanism of the present utility model and side positioning mechanism clamping glass; And
Fig. 7 is the step simplified schematic diagram of edging process of the present utility model, wherein:
Fig. 7 a is the front of processed glass,
Fig. 7 b is the dual-side of processed glass,
Fig. 7 c is the back of processed glass,
Fig. 8 is the view of the grinding head assembly shown in Fig. 3 to glass edging.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is elaborated.Should be understood that, detailed description of the invention described herein only, for description and interpretation the utility model, is not limited to the utility model.
Figure 1 shows that the schematic perspective view of the preferred embodiment of glass straight-line four-side edge polisher of the present utility model, this glass straight-line four-side edge polisher comprises induction system 10, edging system 20 and side pressure system 30.Induction system 10 is carried glass, and edging system 20 is to glass each limit polishing, and side pressure system 30 compresses glass, so that edging system 20 is polished to glass.
Induction system 10 comprises two conveying mechanisms of forward and backward docking, between two conveying mechanisms, is formed with edging space 101.Former and later two conveying mechanisms are independent controlling run respectively.Each conveying mechanism comprises transfer gantry 11, multiple roller 12 and carries motor (not shown).Multiple rollers 12 are arranged on transfer gantry 11, are arranged side by side along glass throughput direction M interval.Carry motor driving rolls 12 to roll.Particularly, multiple rollers 12 can connect by chain drive, drive a wherein roller 12 to rotate, thereby drive other rollers to rotate, thereby the glass 300 that makes to be laid on roller 12 moves by a conveying motor.
Edging system 20 comprises edging frame 21 and edging mechanism 22.Wherein, edging frame 21 comprises supporting seat 211, pillar 212 and beam guideway 213.Supporting seat 211 is arranged on transfer gantry 11 both sides, pillar 212 is arranged on each supporting seat 211, and beam guideway 213 is connected between two pillars 212.Beam guideway 213 is positioned at the top in edging space 101, and vertical glass throughput direction (M) is vertical, edging mechanism 22 is installed, to the glass in edging space 101 is carried out to edging processing on beam guideway 213.
Edging mechanism 22 comprises movable bistrique group 40 and fixing bistrique group 50.Movable bistrique group 40 is slidably arranged on beam guideway 213.
Refer to Fig. 2, movable bistrique group 40 comprises in sliding part 41, slip actuator 42(ginseng Fig. 1), rotary drive 43 and grinding head assembly 44.Sliding part 41 comprise grip block 411 and with the vertical base plate being fixedly connected with 412 of grip block 411.Clamping plate 411 are slidably arranged on the beam guideway 213 of edging frame 211.Base plate 412 is provided with rotary drive 43, and in the present embodiment, rotary drive 43 is motor, and the rotating shaft 431 of motor passes from base plate 412.Grinding head assembly 44 is connected to the end of rotating shaft 431.Slip actuator 42 drives sliding part 41 to slide along beam guideway 213.Rotary drive 43 drive shafts 431 are rotated, thereby drive grinding head assembly 44 431 rotations around the shaft.
Incorporated by reference to consulting Fig. 3, grinding head assembly 44 comprises pedestal 441, and chamfered edge abrasive wheel assembly 442 and face abrasive wheel assembly 443 on pedestal 441 are set.Chamfered edge abrasive wheel assembly 442 is in order to glass chamfer angle, the chamfered edge driver part 4423 that chamfered edge abrasive wheel assembly 442 comprises upper chamfered edge emery wheel 4421 and the lower chamfered edge emery wheel 4422 being crisscross arranged up and down and drives upper and lower chamfered edge emery wheel to rotate.The upper chamfered edge emery wheel 4421 being crisscross arranged up and down and lower chamfered edge emery wheel 4422 can only arrange one group or be arranged side by side many groups, are preferably chosen as adjacent two groups of being arranged side by side, and can improve chamfered edge effect and precision, and single group chamfered edge emery wheel is more saved installing space.The belt pulley that chamfered edge driver part 4423 can be motor and coordinates with motor, and can drive two groups of upper chamfered edge emery wheels 4421 that are crisscross arranged up and down and lower chamfered edge emery wheel 4422 to rotate by a motor simultaneously.
Face abrasive wheel assembly 443 is polished in order to the surface of the side to glass.Face abrasive wheel assembly 443 staggers and perpendicular layout with chamfered edge abrasive wheel assembly 442, and face abrasive wheel assembly 443 comprises the guide face driver part 4532 that face emery wheel 4531 and drive surface emery wheel 4531 rotate.The rotation direction of face emery wheel 4531 is vertical with the rotation direction of upper and lower chamfered edge emery wheel.In the present embodiment, guide face driver part 4532 is motor and the belt pulley that coordinates with motor, rotates by motor drive surface emery wheel 4531.In the time that glass sides is carried out to edging, face emery wheel 4531 is to glass sides polishing, and upper and lower chamfered edge emery wheel is polished to the seamed edge up and down of glass.Slide along beam guideway 213 by sliding part 41, drive grinding head assembly 44 to slide, the side on a limit of glass 300 and upper and lower corner angle can complete edging processing in once sliding.
Fixing bistrique group 50 structures are identical with movable bistrique group 40 structures, and it is arranged on one end of beam guideway 213 regularly, and its grinding head assembly is positioned at space 101.Fixing bistrique group 50 cooperation activity bistrique groups 40 when glass is moved, are processed the both sides of glass by fixing bistrique group 50 structures and movable bistrique group 40 simultaneously.
Side pressure system 30 comprises side compression mechanism 60 and side positioning mechanism 70.One side of side compression mechanism 60 pressed glass, side positioning mechanism 70 supports a relative side of glass, and the glass being clamped between side compression mechanism 60 and side positioning mechanism 70 is fixed.
Side compression mechanism 60 has two groups, is separately positioned on former and later two conveying mechanisms and is positioned at the same side of induction system 10.Each group side compression mechanism 60 comprises support 61 and is slidably mounted in the side compression assembly 80 on support 61.Support 61 comprises the pole 611 being arranged on supporting seat 211 and is connected to the sliding beam 612 between pole 611, and sliding beam 612 is parallel with described beam guideway 213.Side compression assembly 80 is slidably disposed on sliding beam 612.
Refer to Fig. 4, side compression assembly 80 comprises main body grillage 81, driving cylinder 82, wobble component 83 and drive link 84.Main body grillage 81 comprises main board 811, is convexly equipped with contiguous block 812 and the guide plate 813 on main board 811 and is fixed in the side plate 814 of main board 811 1 sides.Wherein, a side of guide plate 813 is provided with guide rail 815, in order to coordinate sliding beam 612, main body grillage 81 can be slided along sliding beam 612.On side plate 814, be installed with the first ring set 816, be arranged with rotationally drive link 84.Wobble component 83 comprises pendulum plate 831, is convexly equipped with the connection swing arm 832 on pendulum plate 831, is arranged on regularly the second ring set 833 of pendulum plate 831 1 sides, and is connected to the lateral pressure wheel 834 of pendulum plate 831 bottoms.Driving cylinder 82 is hinged with contiguous block 812, and the piston end of driving cylinder 82 is with to be connected swing arm 832 hinged, and drive link 84 passes the first ring set 816 and the second ring set 833, and realization body grillage 81 and wobble component 83 are hinged.So, on whole side compression assembly 80, driving cylinder 82 is hinged with main body grillage 81, and driving cylinder 82 is hinged with wobble component 83, and main body grillage 81 is hinged with wobble component 83, and entirety is linkage.When the piston end of driving cylinder 82 stretches, drive described wobble component 83 to swing,, the piston end of driving cylinder 82 promotes to connect swing arm 832 and swings, band movable pendulum plate 831 swings, lateral pressure wheel 834 swings together with pendulum plate 831, swings after certain angle, realizes the compression of lateral pressure wheel 834 to glass side or lax.According to the width difference of glass, side compression assembly 80 slides into corresponding width position by glass side compressing along sliding beam 612.Be illustrated in figure 5 before glass 300 arrives Working position, driving cylinder 82 is retracted, and the wobble component 83 of side compression assembly 80 is in to outside upper releasing orientation; In conjunction with Fig. 6, glass 300 arrives after Working position, adjusts the position of side compression assembly 80 on sliding beam 612, stretches out driving cylinder 82, and pendulum plate 831 drives the side of lateral pressure wheel 834 pressed glass 300.
In addition, after glass front end side has been polished, glass is carried by induction system 10, stops for the both sides of glass are unlikely to friction, is unfavorable for the conveying to glass.On side compression assembly 80, be also provided with side subsidiary conveyer structure 85, the power that glass side is carried is provided, be convenient to glass and carry.Side subsidiary conveyer structure 85 comprises side feed drive parts 851 and worm gear 852, side feed drive parts 851 are arranged on one end of drive link 84 regularly, can be arranged on regularly one end of pendulum plate 831, in order to drive drive link 84 to rotate, in the present embodiment, side feed drive parts 851 are electric machine assembly.Worm gear 852 comprise the first worm gear 8521 and with perpendicular the second worm gear 8522 engaging of the first worm gear 8521.The first worm gear 8521 is set on drive link 84 regularly, and the second worm gear 8522 is formed on one end that lateral pressure wheel 834 protrudes through pendulum plate 831.So, in the time that side feed drive parts 851 drive drive link 84 to rotate, will drive the first worm gear 8521 to rotate, and impel the second worm gear 8522 to rotate, thereby drive lateral pressure wheel 834 to rotate, and realize the rolling of compressed glass side is carried.Obviously, in the time that driving cylinder 82 drives wobble component 83 to swing, because the second worm gear 8522 of lateral pressure wheel 834 is meshed with the first worm gear 8521 being set in regularly on drive link 84, thereby drive drive link 84 to rotate together, in the time that pendulum plate 831 swings, side feed drive parts 851 swing together with pendulum plate 831.
Side positioning mechanism 70 correspondingly has two groups, arranges and is positioned at a side relative with side compression mechanism 60 on transfer gantry 11 respectively.Refer to Fig. 6, each group side positioning mechanism 70 comprises and supports wall 71, conveyer belt 72, multiplely takes off post 73 and belt-driven motor (not shown).Support wall 71 in order to support a side of glass.Taking off post 73 is arranged on the side with respect to supporting surface that supports the two ends of wall 71 or support wall 71, and conveyer belt 72 takes off post on 73 and close neighbour supports the supporting surface of wall 71 around multiple.Belt-driven motor drives 73 rotations that take off post, thereby can drive conveyer belt 72 transmissions.When the front end side of glass is processed, the side, both sides of glass compresses with corresponding side positioning mechanism 70 clampings by side compression mechanism 60, and a side of glass supports surperficial to conveyer belt 72 and supports for supporting wall 71, and opposite side compresses by lateral pressure wheel 834.
In conjunction with consulting Fig. 7 and Fig. 8, be illustrated in figure 7 the rough schematic of the edging process of edge polisher of the present utility model, in Fig. 7 a, start the front conveyor structure of induction system 10, align with movable bistrique group 40 in front 301 to the edging space 101 that glass 300 is delivered to glass 300, induction system 10 out of service; Adjust side compression mechanism 60, the dual-side 302,303 of glass 300 is positioned between side positioning mechanism 70 and side compression mechanism 60; Startup activity bistrique group 40 is direction vertical with glass throughput direction on horizontal plane by the first end of edging frame 21 to the direction M1(of the second end) sliding processes the front 301 of glass 300, movable bistrique group 40 out of service; Movable bistrique group 40 dextrorotations are turn 90 degrees, and fixing movable bistrique group 40.
In Fig. 7 b, glass 300 is moved to direction M, start fixing bistrique group 221 and movable bistrique group 40 simultaneously, start in the lump the rear conveying mechanism of induction system 10, fixing bistrique group 221 and movable bistrique group 40 dual-side 303,302 of processed glass 300 respectively; While alignment with movable bistrique group 40 in the back 304 that glass 300 is delivered to glass 300, stop carrying glass 300 and edging mechanism 22.
In Fig. 7 c, adjust rear side hold-down mechanism 602, the dual-side 302,303 of glass 300 is positioned between the side positioning mechanism 70 and side compression mechanism 60 on rear conveying mechanism; Movable bistrique group 40 dextrorotations are turn 90 degrees, and startup activity bistrique group 40, is slided and processes the back 304 of glass 300, movable bistrique group 40 out of service to the direction M2 of first end by the second end of edging frame 21.
In addition, glass straight-line four-side edge polisher of the present utility model also comprises control system, controls the action of edging system 20 and side pressure system 30.Control system comprises control centre and some location indentifiers.On described main body grillage 81, be provided with primary importance identifier, in order to detect the width of glass.When glass is carried along side positioning mechanism 70 1 sides on conveying mechanism, main body grillage 81 slides along sliding beam 612, in the time that primary importance identifier scans glass, send signal to control centre, control centre sends the position that instruction makes main body grillage 81 slide into corresponding glass width and stops, then, start driving cylinder 82, drive wobble component 83 to swing the side pressure realizing glass.
On grinding head assembly 44, be provided with second place identifier 444, in order to detect the position of grinding head assembly 44.Particularly, in the time that glass is polished, second place identifier 444 can detect glass, when glass end face or side, polishing is complete, second place identifier 444 will can't detect glass, will send a signal to control centre, and control centre sends command signal to rotary drive 43, drive shaft 431 is rotated, and movable bistrique group 40 is rotated preset angles.In addition,, in the time that second place identifier 444 detects that glass 300 reaches Working position, control centre sends instruction induction system 10 out of service; In the time that second place identifier 444 can't detect glass 300, control centre sends instruction movable bistrique group 40 out of service.Second place identifier 444 is preferably sensor.So, can realize the automatic impaction to width different glass and automatically carry out four limit polishings.
The course of work of glass straight-line four-side edge polisher is: induction system 10 is delivered to glass 300 beam guideway 213 belows of edging frame 21 along M direction, second place identifier 444 in movable bistrique group 40 detects that glass 300 arrives Working position, control centre sends instruction induction system 10 out of service, and glass width signal is sent to control centre by the primary importance identifier of the side compression mechanism 60 on front conveyor structure, side compression mechanism 60 slides along beam guideway 213, glass 300 is positioned between side compression mechanism 60 and side positioning mechanism 70, the emery wheel of startup activity bistrique group 40, edging processing is carried out along M1 direction in front 301 to glass 300, the distance that control centre's control activity bistrique group 40 is slided on the beam guideway 213 of edging frame 21 equals the width of glass 300, the bistrique group 40 of stopping action, and the grinding head assemblies 44 of clockwise 90 degree rotary moveable bistrique groups 40, start the emery wheel of fixing bistrique group 221 and movable bistrique group 40, and start the worm and wormwheel of side compression mechanism 60 and the conveyer belt 72 of side positioning mechanism 70 turns round, glass 300 is moved along M direction, fixing bistrique group 221 and the dual-side 302 of movable bistrique group 40 to glass 300, 303 carry out edging processing, when second place identifier 444 can't detect glass 300, the bistrique group 221 that is standing and movable bistrique group 40, make glass 300 static and be positioned between the side compression mechanism 60 and side positioning mechanism 70 on rear conveying mechanism, then the grinding head assembly 44 of clockwise 90 degree rotary moveable bistrique groups 40, the emery wheel that starts rotary moveable bistrique group 40 carries out edging processing to the front 301 of glass 300 along M2 direction, and the distance that control centre's control activity bistrique group 40 is slided on the crossbeam of edging frame 21 equals the width of glass 300, the bistrique group 40 of stopping action.
The utility model glass straight-line four-side edge polisher is carried by induction system control glass, by side pressure system to glass two side compressions, can be convenient to front side and rear side processing to glass, by relative bistrique group is set, can be convenient to glass processes glass both sides when mobile, and by wherein a bistrique group is rotatable, realize position adjustment, and by the action of control system control induction system, edging system and side pressure system, realize disposablely automatically and continuously glass four limits being machined.In side pressure system, side compression mechanism coordinates with side positioning mechanism and makes glass location more stable, and can slidable adjustment due to side compression mechanism, and the glass that can meet plurality of specifications compresses processing.And, the method of edging of edge polisher, reasonably utilize the layout feature of edging system, process from front, side to the back of glass, every limit time processing puts in place, simple to operate, and in bistrique group, grinding head assembly comprises chamfered edge abrasive wheel assembly and face abrasive wheel assembly, chamfered edge and side processing are carried out simultaneously, improve working (machining) efficiency.
As long as the thought of creating without prejudice to the utility model, is combined various different embodiment of the present utility model, all should be considered as the disclosed content of the utility model; Within the scope of technical conceive of the present utility model, technical scheme is carried out to any combination of the thought of creating without prejudice to the utility model that multiple simple modification and different embodiment carry out, all should be within protection domain of the present utility model.

Claims (7)

1. glass straight-line four-side edge polisher, comprise induction system (10), edging system (20) and side pressure system (30), it is characterized in that, described induction system (10) comprises two conveying mechanisms of forward and backward docking, is formed with edging space (101) between two conveying mechanisms;
Described edging system (20) comprising:
Edging frame (21), it comprises the top that is positioned at described edging space (101), the beam guideway (213) vertical with glass throughput direction (M);
Edging mechanism (22), it comprises the movable bistrique group (40) being slidably arranged on beam guideway (213) and the fixing bistrique group (50) that is arranged on regularly beam guideway (213) one end;
Described side pressure system (30) comprises side compression mechanism (60) and side positioning mechanism (70);
Described side compression mechanism (60) has two groups, is separately positioned on former and later two conveying mechanisms and is positioned at the same sides of induction system (10);
Described side positioning mechanism (70) correspondingly has two groups, is separately positioned on a side relative with side compression mechanism (60) on former and later two conveying mechanisms;
Each side compression mechanism (60) comprises support (61) and is slidably mounted in the side compression assembly (80) on support (61), and described support (61) comprises the sliding beam (612) parallel with beam guideway (213);
Described side compression assembly (80) comprises main body grillage (81), driving cylinder (82), wobble component (83) and drive link (84), main body grillage (81) is slidably mounted on the sliding beam (612) of support (61), driving cylinder (82) is hinged with main body grillage (81), driving cylinder (82) is hinged with wobble component (83), and main body grillage (81) is hinged with wobble component (83).
2. glass straight-line four-side edge polisher according to claim 1, it is characterized in that, described main body grillage (81) comprises main board (811), on described main board (811), convex with contiguous block (812), contiguous block (812) is hinged with driving cylinder (82), described main board (811) one sides are connected with side plate (814), on side plate (814), be installed with the first ring set (816), wobble component (83) comprises pendulum plate (831) and is convexly equipped with the connection swing arm (832) on pendulum plate (831), pendulum plate (831) one sides are provided with the second ring set (833) regularly, pendulum plate (831) bottom is provided with lateral pressure wheel (834), connect swing arm (832) hinged with the piston end of driving cylinder (82), drive link (84) is through the first ring set (816) and the second ring set (833), make main body grillage (81) and wobble component (83) hinged.
3. glass straight-line four-side edge polisher according to claim 2, it is characterized in that, on side compression assembly (80), be provided with side subsidiary conveyer structure (85), side subsidiary conveyer structure (85) comprises side feed drive parts (851) and worm gear (852), side feed drive parts (851) are arranged on one end of drive link (84) regularly, worm gear (852) comprises the first worm gear (8521) being set in regularly on drive link (84), and engage and be formed on lateral pressure wheel (834) through the second worm gear (8522) on one end of pendulum plate (831) protrusion with the first worm gear (8521) right angle.
4. glass straight-line four-side edge polisher according to claim 1, it is characterized in that, each group side positioning mechanism (70) comprises and supports wall (71), conveyer belt (72), multiple taking off post (73) and belt-driven motor, around multiple taking off post (73), upper and close neighbour supports the supporting surface of wall (71) to conveyer belt (72), belt-driven motor drive wherein one take off post (73) rotate.
5. glass straight-line four-side edge polisher according to claim 1, is characterized in that, comprises control system, controls the action of edging system (20) and side pressure system (30), and control system comprises control centre and some location indentifiers.
6. glass straight-line four-side edge polisher according to claim 5, is characterized in that, on described main body grillage (81), is provided with primary importance identifier, in order to detect the width of glass.
7. glass straight-line four-side edge polisher according to claim 6, is characterized in that, described movable bistrique group (40) is provided with second place identifier (444), in order to detect the position of grinding head assembly (44).
CN201420010084.2U 2014-01-08 2014-01-08 Linear four-edge grinding machine for glass Expired - Fee Related CN203696663U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420010084.2U CN203696663U (en) 2014-01-08 2014-01-08 Linear four-edge grinding machine for glass

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420010084.2U CN203696663U (en) 2014-01-08 2014-01-08 Linear four-edge grinding machine for glass

Publications (1)

Publication Number Publication Date
CN203696663U true CN203696663U (en) 2014-07-09

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Application Number Title Priority Date Filing Date
CN201420010084.2U Expired - Fee Related CN203696663U (en) 2014-01-08 2014-01-08 Linear four-edge grinding machine for glass

Country Status (1)

Country Link
CN (1) CN203696663U (en)

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