CN205834974U - Glass double side edge grinder - Google Patents

Abstract

nullThis utility model provides a kind of glass double side edge grinder，Including the first bilateral edging device and be positioned at the second bilateral edging device below the first bilateral edging device，Described first bilateral edging device and the second bilateral edging device all include spaced left socle and right support，It is provided with main conveyor belt and driven nip band in the opposite sides of described left socle and right support，The driven nip band of left socle and right support is respectively positioned on the upper end of main conveyor belt，The grasping part for accommodating glass is left between driven nip band and main conveyor belt，The opposite side of left socle and right support is equipped with polishing unit，The chute extended along glass motion direction it is provided with between described left socle and right support，It is provided with slide block in described chute，Sucker and the sucker actuator driving sucker to move up and down it is fixed with on described slide block，When glass edging is moved，Sucker and glass are inhaled and and slide block and glass linkage，The side of glass can be carried out complete grinding.

Description

Glass double side edge grinder

Technical field

This utility model relates to glass processing field, particularly to glass double side edge grinder.

Background technology

Glass edge-grinding machine is to produce in glass deep processing equipment the earliest and one of plant equipment that consumption is maximum, Main Function It is polishing of glass, and makes some special shapes.

The Chinese patent of Publication No. CN205057703U discloses a kind of glass double side edge grinder, the upper left right septum of base Be provided with two automatic delivering belts being parallel to each other, the spacing between clamping frame and automatic delivering belt just with by the thickness of glass Degree coupling, the outside time interval at each automatic delivering belt is provided with some groups of bistriques, is positioned at that string in left side is fixing leads Reach the front of automatic delivering belt to the front end of wheel, be positioned at front end and the automatic delivering belt of that string mobile guide wheel on right side Front end flushes；The dead ahead of each automatic delivering belt is additionally provided with the rubber conveying rolling that string end face flushes with automatic delivering belt Wheel, mobile guide wheel and be positioned at right side each group bistrique can being arranged on base of left and right adjusting, and mobile guide wheel with each group Bistrique adjusted in concert.

This glass double side edge grinder is provided with stator wheel, activity-oriented wheel, for preventing glass in grinding Time skew, but owing to stator wheel, mobile guide wheel lay respectively at the underface of homonymy bistrique, the most this glass is double Limit edge polisher can only the chamfering of ground glass both sides, the side of glass at least part is by stator wheel or mobile guide catch Live, therefore the side of glass can not be carried out complete grinding.

Utility model content

The purpose of this utility model is to provide a kind of glass double side edge grinder, the side of glass can be carried out complete mill Cut.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of double sides of glass edging Machine, including the first bilateral edging device be positioned at the second bilateral edging device below the first bilateral edging device, described first Bilateral edging device and the second bilateral edging device all include spaced left socle and right support, described left socle and right The driven nip band being provided with main conveyor belt and driven nip band, left socle and right support in the opposite sides of frame is respectively positioned on master The upper end of conveyer belt, leaves the grasping part for accommodating glass, left socle and right between driven nip band and main conveyor belt The opposite side of frame is equipped with polishing unit, is provided with the cunning extended along glass motion direction between described left socle and right support Groove, is provided with slide block in described chute, described slide block is fixed with sucker and the sucker actuator driving sucker to move up and down, When glass edging is moved, sucker and glass are inhaled and and slide block and glass linkage.

Glass is between active conveyer belt and driven nip band, and by between active conveyer belt and driven nip Frictional force drives, and glass is polished in motor process by glass by polishing unit, owing to slide block is limited in chute, Therefore slide block is only capable of moving along chute direction, and sucker is positioned on slide block, and therefore sucker is only capable of along runner movement together with slide block, By sucker and fixing glass so that glass will not offset in the course of processing, and do not contact glass sides due to sucker, Therefore, it can the side to glass and carry out complete grinding.

Further, the port of export of described first bilateral edging device is provided with transfer mechanism, described second bilateral edging The entrance point of device is positioned at the underface of the port of export of the first bilateral edging device, and described transfer mechanism includes accepting from first pair The rotating disk of the port of export of limit edging device glass out, driving rotating disk rotate the electric rotating machine of 180 degree, drive rotating disk At the transfer positioning actuator that the port of export of the first bilateral edging device and the arrival end of the second bilateral edging device move, and The glass in rotating disk is promoted to enter the second bilateral edging device when the arrival end of the second bilateral edging device for rotating disk Transfer charging actuator.

Glass enters from the entrance point of the first bilateral edging device, after the first bilateral edging device, bilateral from first Out, now glass wherein corresponding dual-side has completed edging to the port of export of edging device；Glass enters rotating disk afterwards, rotates Dish does 180 degree of rotations, and transfer positioning actuator drives rotating disk to drop to the arrival end of the second bilateral edging device, and transfer feeds Actuator promotes glass to enter the second bilateral edging device and completes to remain the edging on both sides, and this programme is double relative to original glass Limit edge polisher, it is only necessary to once can complete four limit edging processing of glass, it is not necessary to artificial, working (machining) efficiency is high, and by first Edging device and the second edging device are setting up and down, can effectively reduce hold facility area, additionally glass initially enter position Put and final position out is in the same side, the most convenient charging feeding.

Further, the entrance point of described first bilateral edging device is provided with feeding mechanism, and described feeding mechanism includes Feeding rack, it is positioned on feeding rack and is arranged on along the direction of vertical glass movement locus horizontal-extending guided way, equal sliding Liftable first discharging frame and liftable second discharging frame on guided way, for promoting the first discharging frame, the second discharging frame Along the charging positioning actuator of guided way sliding and for promoting the glass on the first discharging frame or the second discharging frame to enter the The initial charge actuator of one bilateral edging device.

The when of feeding, the first discharging frame is directed at the entrance point of the first bilateral edging device, and initial charge actuator promotes Glass on first discharging frame enters the first bilateral edging device, and the glass quilt of the superiors on the first discharging frame of entrance point After pushing the first bilateral edging device, this discharging frame is lifted so that the glass of the superiors can be promoted by initial charge actuator, also The i.e. glass of the superiors is substantially at same plane with initial charge actuator all the time so as to the charging actuator that begun promotes； Simultaneously, the second discharging frame is typically in Light Condition, now can be by manually glass stack being laminated on this discharging frame；When After the glass of the first discharging frame all enters the first bilateral edging device, the first discharging frame is pushed open by positioning actuator, puts second Bin pushes the entrance point of the first bilateral edging device, and initial charge actuator promotes the glass on the second discharging frame to enter afterwards First bilateral edging device；Simultaneously, the first discharging frame is in Light Condition, can put by manually glass stack being laminated to this On bin；When the second discharging frame is in zero load when, the first discharging frame enters back into the entrance point of the first bilateral edging device, as This circulation；Use the first discharging frame and the second discharging frame to replace feeding, it is achieved uninterrupted feed, promote work efficiency further.

Further, the entrance point of described first bilateral edging device and the port of export, the import of the second bilateral edging device End and the port of export are provided with conveying roller group, and described conveying roller group all stretches out along glass motion direction, and described the The entrance point of one bilateral edging device and the second bilateral edging device is provided with guiding wheels, and described guiding wheels include arranging Fixed guide schedule on left socle and the work being arranged on right support and can moving along the direction of vertical glass movement locus Action-oriented schedule, described conveying roller group is between fixed guide schedule and activity-oriented schedule.

Glass moves into or skids off the first bilateral edging device, the second bilateral edging device by conveying roller group, and Glass enters the first bilateral edging device, the second bilateral edging device entrance point when, passage guiding wheels guide, In theory, the width of glass is equal with the spacing of fixed guide schedule and activity-oriented schedule, but owing to manufacturing by mistake Difference, has deviation with a batch of glass width, it is therefore assumed that the distance one between fixed guide schedule and activity-oriented schedule Fixed, the glass that some width is bigger then can not enter, and is therefore arranged to adjustable by activity-oriented schedule so that glass part is first Entering between fixed guide schedule and activity-oriented schedule, activity-oriented schedule moves afterwards so that the both sides of glass respectively with Fixed guide schedule and activity-oriented schedule abut.

Further, the discharging mechanism that the port of export of described second bilateral edging device is provided with, described discharging mechanism bag Include bin, be positioned on discharge rack along the direction extension of vertical glass movement locus the port of export with the second bilateral edging device Conveying roller group be crisscross arranged the first discharge roller wheels, drive the first discharge roller wheels to move up and down higher or lower than second The break-in actuator of the conveying roller group of the port of export of bilateral edging device.

Glass is out dependent on from the port of export of the second bilateral edging device guiding wheels, and now the first discharge roller wheels are low In guiding wheels, the i.e. first discharge roller wheels do not contact with glass, and break-in actuator drives and lifts on the first discharge roller wheels afterwards, By glass jack-up, now glass only contacts with the first discharge roller wheels, is transferred out by glass by the first discharge roller wheels afterwards Going, the port of export being primarily due to the second bilateral edging device of break-in here is blocked by feeding mechanism.Further, go out Material mechanism also includes being positioned on discharge rack docks with the first discharge roller wheels and from vertical with the first discharge roller wheels joint edge The outward extending second discharge roller wheels in direction of glass motion track, described second discharge roller wheels from the first discharging roller Group joint is arranged diagonally downward.

Second discharge roller wheels from arranging diagonally downward with the first discharge roller wheels joint, such glass out time Waiting as be obliquely installed, the abrasive dust on glass can rely on Gravitational sliding.

Further, the angle of inclination of described second discharge roller wheels is 15 degree.

Angle of inclination is too big, and glass gliding speed is too fast, and angle of inclination is the least, and abrasive dust is difficult to slide from glass, therefore It is designed to 15 degree.

Further, described discharge rack being provided with fan group, described fan group includes being arranged on the second discharge roller wheels Top and wind direction point to the upper fan group of the second discharge roller wheels and are positioned at below the second discharge roller wheels and wind direction sensing second The lower fan group of discharge roller wheels.

Glass through polishing group is polished when it is generally required to water-cooled, therefore glass out when with water, pass through Glass is dried by fan group.

Being respectively provided with cooling wiper mechanism on described first bilateral edging device and the second bilateral edging device, described cooling is clear Washing machine structure is included being positioned at water pump that the tank below the second bilateral edging device connects with tank, is connected with water pump by water pipe And for cool down polishing unit shower nozzle, the water outlet of described tank arranges filter screen.

On the one hand polishing position is cooled down by water, is on the other hand washed away by glass abrasive dust, and glass abrasive dust is brought into water by water In groove, being kept off in tank by glass abrasive dust by filter screen, water is circulated use by water pump, energy-conservation.

In sum, this utility model has the advantages that

1. make the glass can be once by arranging the first bilateral edging device, the second bilateral edging device and transfer mechanism Property complete four sides and process, working (machining) efficiency is high；

2. the first bilateral edging device, the second bilateral edging device are setting up and down, save floor occupying area, and glass is initial In-position and final position out, in the same side, conveniently feed feeding；

3. realize uninterrupted feeding by the first discharging frame and the second discharging frame, by discharging mechanism discharging, it is achieved glass Polishing full automation；

4. glass can be avoided to offset in bruting process by arranging sucker, promote crudy, and can be right The side of glass carries out complete grinding.

5. facilitate glass to enter by arranging fixed guide schedule and the interactive schedule that guides, and there is good guiding work With；

6. wash away glass abrasive dust while polisher group being cooled down by cooling wiper mechanism, promote glass polishing quality； And by arranging fan group, glass is air-dried, it is to avoid glass out when with water in course of conveying, be dropped in ground On face, affect working environment；

7. recycling by water, energy-conservation.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of embodiment, mainly illustrates the first bilateral edging device, the second bilateral edging dress Put, transfer mechanism, feeding mechanism and the position relationship of discharging mechanism；

Fig. 2 is the first bilateral edging device and the structural representation of the second bilateral edging device, major embodiment in embodiment The structure of the first bilateral edging device；

Fig. 3 is the first bilateral edging device and the structural representation of the second bilateral edging device, major embodiment in embodiment The annexation of driven conveyer belt and left socle and the position of conveying roller group；

Fig. 4 is the first bilateral edging device and the structural representation of the second bilateral edging device, major embodiment in embodiment The structure of suction cup portion；

Fig. 5 is the structural representation of feeding mechanism；

Fig. 6 is the annexation figure of the first discharging frame and charging support, the structure of major embodiment the first discharging frame；

Fig. 7 is the overall structure schematic diagram of embodiment, the structure of major embodiment transfer mechanism；

Fig. 8 is the first bilateral edging device, the second bilateral edging device and the annexation figure of discharging mechanism, mainly illustrates The structure of discharging mechanism.

Reference: 1, the first bilateral edging device；2, the second bilateral edging device；31, slide rail；32, left socle；33、 Right support；34, lateral adjustments cylinder；35, spring；36, thickness adjusted cylinder；37, main conveyor belt；38, driven nip band；39、 Sliding seat；4, polishing unit；41, polishing base；42, polishing motor；43, the first feeding cylinder；44, the second feeding cylinder；51、 Chute；52, slide block；53, sucker actuator；54, vacuum tank；55, sucker；61, conveying roller group；62, wheels are guided；621, solid Surely schedule is guided；622, activity-oriented schedule；623, regulation cylinder is guided；7, feeding mechanism；71, guided way；72, the first blowing Frame；721, slide plate；722, blowing plate；723, guide post；724, lifting motor；725, gear；726, tooth bar；73, the second blowing Frame；74, charging positioning actuator；75, initial charge actuator；76, feeding rack；77, charging support；8, transfer mechanism；81, rotation Rotating disk；82, electric rotating machine；83, transfer positioning actuator；84, transfer charging actuator；85, transfer rack；86, transfer support；9、 Discharging mechanism；91, discharge rack；92, the first discharge roller wheels；93, the second discharge roller wheels；94, break-in actuator；95, windward Fan group；96, lower fan group；10, tank；101, water pump；102, shower nozzle.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

This specific embodiment is only that it is not to restriction of the present utility model, ability to explanation of the present utility model The present embodiment can be made after reading this specification by field technique personnel as required does not has the amendment of creative contribution, but As long as all being protected by Patent Law in right of the present utility model.

Such as Fig. 1, a kind of glass double side edge grinder, it includes the first bilateral edging device 1, is positioned at the first bilateral edging device The second bilateral edging device 2 below 1, is positioned at the transfer mechanism 8 of the port of export of the first bilateral edging device 1, is positioned at first pair The feeding mechanism 7 of the arrival end of limit edging device 1, it is positioned at the discharging mechanism 9, Qi Zhong of second bilateral edging device 2 port of export The arrival end of one bilateral edging device 1 and the port of export of the second bilateral edging device 2 are in homonymy, wherein the first bilateral edging dress Putting the port of export of 1 and the arrival end of the second bilateral edging device 2 is in homonymy, in the present embodiment, glass is entered by feeding mechanism 7 Enter the first bilateral edging device 1, enter the second bilateral edging device 2, finally by discharging mechanism 9 by transfer mechanism 8 afterwards Out complete four limit processing of glass.

In the present embodiment, the structure of the first bilateral edging device 1 is identical with the structure of the second bilateral edging device 2, therefore originally The structure of the first bilateral edging device 1 is only described in detail by embodiment；Such as Fig. 2, the first bilateral edging device 1 includes slide rail 31, it is positioned at left socle 32 and the right support 33 of the left and right sides on slide rail 31, is fixed on left socle 32 and is positioned at left socle 32 and Main conveyor belt 37 and driven nip band 38 in right support 33 opposite sides, it is fixed on right support 32 and is positioned at left socle 32 and the right side Main conveyor belt 37 in support 33 opposite sides and driven nip band 38, it is positioned at left socle 32 opposite side and right support 33 opposite side Polishing unit 4.

Such as Fig. 2, the left and right sides on slide rail 31 is respectively and fixedly provided with lateral adjustments cylinder 34, the lateral adjustments cylinder 34 in left side Piston rod and left socle 32 fix, the piston rod of the lateral adjustments cylinder 34 on right side is fixed, by left and right two with right support 33 The lateral adjustments cylinder 34 of side can drive left socle 32 and right support 33 to move along slide rail 31 respectively, thus adapts to different in width Glass.

Such as Fig. 3, for the main conveyor belt 37 on left socle 32 and driven nip band 38, main conveyor belt 37 is positioned at left socle 32 With the opposite side of right support 33, driven nip band 38 is positioned at above main conveyor belt 37, and driven nip band 38 is fixed on a sliding seat On 39；Offering the gathering sill of vertical direction on left socle 32, a part for sliding seat 39 is positioned at gathering sill, and sliding seat 39 leads to Crossing the thickness adjusted cylinder 36 being fixed on left socle 32 to drive along gathering sill up and down motion, thickness adjusted cylinder 36 is positioned at slip Below seat 39, the piston rod of thickness adjusted cylinder 36 abuts with sliding seat 39；Being provided with spring 35 in gathering sill, spring 35 is positioned at Above sliding seat 39, spring 35 one end is fixing with sliding seat 39, the other end is fixed with gathering sill, and spring 35 is in compression shape all the time State, can drive driven nip band 38 to move up and down by thickness adjusted cylinder 36, thus changes driven nip band 38 and main conveying With the grasping part between 37, adapt to the glass of different-thickness.

For the main conveyor belt 37 on main conveyor belt 37 on right support 33 and driven nip band 38, its structure and left socle 32 Identical with driven nip band 38 structure, drive driven nip band 38 to move up and down again by thickness adjusted cylinder 36.

Such as Fig. 2, for the polishing unit 4 on left socle 32, polishing unit 4 includes polishing base 41, is arranged on the polishing end Three polishing motors 42 on seat 41, these three polishing motors 42 are respectively by three the first feeding gas being fixed on base Cylinder 43 drives the direction along vertical glass movement locus to move；It is further fixed on left socle 32 driving polishing base 41 along vertical glass The second feeding cylinder 44 that the direction of glass movement locus is moved.

For the polishing unit 4 on right support 33, its structure is identical with polishing unit 4 structure on left socle 32.

Being provided with chute 51 in the middle of Fig. 4, left socle 32 and right support 33, chute 51 extends along glass motion direction and opens It is located on slide rail 31；Arranging a slide block 52 in chute 51, slide block 52 is fixed with sucker actuator 53, in the present embodiment, sucker drives Moving part 53 is cylinder, and the bottom of cylinder is fixed with slide block 52, and the piston rod of cylinder can be directly connected to sucker 55, at the present embodiment In, the piston rod of cylinder connects a vacuum tank 54, and sucker 55 is fixed on the top and with the inside of vacuum tank 54 even of vacuum tank 54 Logical, vacuum tank 54 connects a vacuum pump (not shown) by pipeline.

It is above the introduction to the first bilateral edging device 1.

Such as Fig. 2, the first bilateral edging device 1 and the second bilateral edging device 2 being respectively provided with cooling wiper mechanism, cooling is clear Washing machine structure include being positioned at water pump 101 that the tank 10 below the second bilateral edging device 2 connects with tank 10, by water pipe with That water pump 101 connects and for cooling down the shower nozzle 102 of polishing unit 4, the water outlet of tank 10 arranges filter screen, needs to illustrate It is that the chiller of the first bilateral edging device 1 and the second bilateral edging device 2 shares a tank 10 in the present embodiment, It is independently arranged with part, naturally it is also possible to the first bilateral edging device 1 and the second bilateral edging device 2 respectively arrange a tank 10。

Such as Fig. 3, the entrance point of the first bilateral edging device 1 and the port of export, the entrance point of the second bilateral edging device 2 with go out Mouth end is also provided with conveying roller group 61, and conveying roller group 61 all stretches out along glass motion direction, organizes conveying roller more Group 61 respectively with left socle 32, right support 33 and the left socle of the second bilateral edging device 2 of the first bilateral edging device 1 32, right support 33 is fixed；Conveying roller group 61 is made up of roller, and the upper surface of roller is concordant with the upper surface of main conveyor belt 37.

Such as Fig. 2, the entrance point of the first bilateral edging device 1, the entrance point of the second bilateral edging device 2 are provided with guiding Wheels 62, guide fixed guide schedule 621 that wheels 62 include being arranged on left socle 32 and are arranged on right support 33 and can The activity-oriented schedule 622 moved along the direction of vertical glass movement locus, conveying roller group 61 is positioned at fixed guide schedule 621 With between activity-oriented schedule 622, the activity-oriented schedule 622 being wherein fixed on right support 33 is by guiding regulation cylinder 623 promote, and the piston rod guiding regulation cylinder 623 is flexible along the direction of vertical glass movement locus.

Such as Fig. 5, feeding mechanism 7 includes feeding rack 76, be fixed on feeding rack 76 and vertical glass movement locus direction also Horizontal-extending guided way 71, equal sliding are arranged on liftable first discharging frame 72 and liftable second on guided way 71 and put Bin 73, for promote first discharging frame the 72, second discharging frame 73 along guided way 71 sliding charging transpose actuator 74 and Initial charge for promoting the glass on the first discharging frame 72 or the second discharging frame 73 to enter the first bilateral edging device 1 drives Part 75.

Such as Fig. 6, wherein the first discharging frame 72 includes the slide plate 721 to coordinate with guided way 71 sliding, is positioned at above base plate Blowing plate 722 and blowing plate 722 fixing and be vertically arranged through slide plate 721 guide post 723, be fixed on slide plate 721 Lifting motor 724, the gear 725 being fixed on the output shaft of lifting motor 724 and blowing plate 722 are fixing upper and pass slide plate 721 tooth bars 726 engaged with gear 725, guide post 723 arranges on four four angles laying respectively at blowing plate 722, lifting electricity The output shaft rotation driven gear 725 of machine 724 rotates, and gear 725 rotational band carry-over bar 726 moves up and down, blowing plate 722 and tooth The bar 726 relative slide plate 721 that links moves up and down；The structure of the second discharging frame 73 is identical with the structure of the first discharging frame 72, guides The length of rail 71 at least can accommodate three slide plates 721 simultaneously.Such as Fig. 5, charging positioning actuator 74 is cylinder, and cylinder arranges two Being separately fixed at the two ends in the direction of feeding rack 76 vertical glass movement locus, the piston rod of cylinder abuts promotion with slide plate 721 Slide plate 721 moves.Initial charge actuator 75 is cylinder, and the entrance point of the first bilateral edging device 1 arranges a charging support 77, Cylinder is fixed on charging support 77, cylinder piston rod do stretching motion along the direction of glass motion track.

Such as Fig. 7, transfer mechanism 8 includes that transfer rack 85, transfer rack 85 are fixed on the entrance point of the second bilateral edging device 2, Transfer positioning actuator 83 for cylinder and arranges four, lays respectively on four angles of transfer rack 85, and cylinder is arranged on transfer rack Below 85 and piston rod and the transfer rack 85 of cylinder is fixed, transfer rack 85 is driven to move up and down by cylinder；Electric rotating machine 82 is solid Being scheduled on below transfer rack 85, the output shaft of electric rotating machine 82 is vertically arranged and connects rotating disk 81 through transfer rack 85, by rotating Motor 82 is rotated dish 81 and rotates；Transfer rack 85 arranges a transfer away from the side of the entrance point of the second bilateral edging device 2 Support 86, transfer charging actuator 84 be cylinder, be fixed on transfer support 86, cylinder piston rod along glass motion track Direction do stretching motion.

Such as Fig. 8, discharging mechanism 9 includes discharge rack 91, is positioned on discharge rack 91 direction along vertical glass movement locus and prolongs The first discharge roller wheels 92 of stretching and be crisscross arranged with the conveying roller group 61 of the port of export of the second bilateral edging device 2, it is positioned at Dock with the first discharge roller wheels 92 on discharge rack 91 and move rail along vertical glass from the first discharge roller wheels 92 joint The outward extending second discharge roller wheels 93 in direction of mark, the first discharge roller wheels 92 are driven to move up and down higher or lower than second The break-in actuator 94 of the conveying roller group 61 of the port of export of bilateral edging device 2, the second discharge roller wheels 93 are from going out with first Material roller group 92 joint is arranged diagonally downward, and the angle of inclination of the second discharge roller wheels 93 is 15 degree, in this embodiment, break-in Actuator 94 is to be arranged on the cylinder bottom discharge rack 91, and cylinder arranges multiple, the piston rod of cylinder and discharge rack 91 fixing band Dynamic discharge rack 91 moves up and down.

Such as Fig. 8, in addition to make glass be dried out when, discharge rack 91 is provided with fan group, fan Group includes being arranged on above the second discharge roller wheels 93 and wind direction points to the upper fan group 95 of the second discharge roller wheels 93 and is positioned at Below second discharge roller wheels 93 and wind direction points to the lower fan group 96 of the second discharge roller wheels 93, by upper fan group 95 and under The upper and lower surfaces of glass are blown and are air-dried by glass by fan group 96.

Wherein conveying roller group the 61, first discharge roller wheels the 92, second discharge roller wheels 93 all can be turned by driven by motor Dynamic, owing to this mode is prior art, therefore repeat no more.

Work process: 1) on the blowing plate 722 of the first discharging frame 72, first pile glass, charging positioning actuator 74 promotes The slide plate 721 of the first discharging frame 72 makes the blowing plate 722 of the first discharging frame 72 be positioned at the import of the first bilateral edging device 1 End, initial charge actuator 75 moves back and forth promotion glass and enters the conveying roller group 61 on the first bilateral edging device 1, conveying Roller group 61 drives glass to continue motion, and guiding regulation cylinder 623 promotes activity-oriented schedule 622 to move during this, Fixed guide schedule 621 and activity-oriented schedule 622 are pasted respectively when glass just initially enters the first bilateral edging device 1 The both sides that glass is corresponding.

2), after glass enters the first bilateral edging device 1, sucker actuator 53 drives sucker 55 to move upward so that sucker 55 with glass inhale and, main conveyor belt 37 and driven nip band 38 rotate backward drive glass motion simultaneously, in glass motion process In, guiding regulation cylinder 623 and drive activity-oriented schedule 622 to reply, the polishing unit 4 on left socle 32 and right support 33 is to glass Polish in the both sides of glass, and in bruting process, cooling wiper mechanism is rinsed cooling to polishing position.Wherein 2) in Parts refer to the parts in the first bilateral edging device 1.

3) after, glass enters rotating disk 81 from the conveying roller group 61 of the port of export of the first bilateral edging device 1, and Glass from the port of export of the first bilateral edging device 1 out when sucker 55 separate with glass；Glass is entering rotating disk 81 Rear rotating disk 81 rotates 180 degree, and rotating disk 81 rotates when, transfer positioning actuator 83 drives transfer rack 85 down to move Concordant, afterwards with the upper surface of the conveying roller group 61 of the arrival end of the second bilateral edging device 2 to the upper surface of rotating disk 81 Transfer charging actuator 84 drives glass to enter the conveying roller group 61 of arrival end of the second bilateral edging device 2, conveying roller Group 61 drive glass continues motion, and guiding regulation cylinder 623 promotes activity-oriented schedule 622 to move during this so that Fixed guide schedule 621 and activity-oriented schedule 622 against glass respectively when glass just initially enters the second bilateral edging device 2 The both sides that glass is corresponding.

4), after glass enters the second bilateral edging device 2, transfer positioning actuator 83 is rotated dish 81 and resets, and sucker drives Moving part 53 drive sucker 55 to move upward so that sucker 55 to inhale with glass and, main conveyor belt 37 and driven nip band 38 are reverse simultaneously Rotate and drive glass motion, during glass motion, guide regulation cylinder 623 and drive activity-oriented schedule 622 to reply, left Being polished in the both sides of glass by the polishing unit 4 on frame 32 and right support 33, and in bruting process, cools down wiper mechanism pair Polishing position is rinsed cooling.Wherein 4) parts in refer to the parts in the second bilateral edging device 2.

5) after, glass is from the port of export of the second bilateral edging device 2 out, and at glass glass from the second bilateral edging The port of export of device 2 out when sucker 55 separate with glass, glass enters the port of export of the second bilateral edging device 2 afterwards Conveying roller group 61, now break-in actuator 94 drives and lifts on discharge rack 91, thus drives and lift on the first discharge roller wheels 92 By glass jack-up so that glass separates with conveying roller group 61, glass moves into second along the first discharge roller wheels 92 and goes out Material roller group 93, and when the second discharge roller wheels 93 by fan group 95 and the lower fan group 96 upper and lower surfaces to glass Air-drying, glass break-in actuator 94 when entering the second discharge roller wheels 93 drives discharge rack 91 to reset.

1) during, the glass of the first discharging frame 72 is pushed into the conveying roller group 61 on the first bilateral edging device 1 When, operator will occupy glass on the second unloaded discharging frame 73, and after treating the first discharging frame 72 overhead, charging is adjusted First discharging frame 72 is pushed open the conveying roller that the second discharging frame 73 is pushed into the first bilateral edging device 1 simultaneously by position actuator 74 The dead ahead of group 61；Glass on the second discharging frame 73 push the conveying roller group 61 on the first bilateral edging device 1 time Waiting, operator will occupy glass on the first unloaded discharging frame 72；After treating the second discharging frame 73 sky, charging positioning drives Second discharging frame 73 is pushed open the conveying roller group 61 that the first discharging frame 72 is pushed into the first bilateral edging device 1 simultaneously by part 74 Dead ahead, so repeats to realize uninterrupted feeding.

In above process, polishing unit 4 be fed through the first feeding cylinder 43 and the second feeding cylinder 44 drives, three Individual first feeding cylinder 43 can drive three polishing motors 42 to realize independent feeding respectively, typically by the when of synchro-feed Two feeding cylinders 44 drive polishing base 41 to move.

Spacing between main conveyor belt 37 and driven nip band 38 completes to adjust before polishing glass the most, is adjusted by thickness Displacements of cylinders 36 can drive driven nip band 38 to move up and down, thus changes the clamping between driven nip band 38 and main conveyor belt 37 Space, adapts to the glass of different-thickness.

Claims (9)

1. a glass double side edge grinder, it is characterised in that: include the first bilateral edging device (1) and be positioned at the first bilateral edging Second bilateral edging device (2) of device (1) lower section, described first bilateral edging device (1) and the second bilateral edging device (2) All include spaced left socle (32) and right support (33), in the opposite sides of described left socle (32) and right support (33) Being provided with main conveyor belt (37) and driven nip band (38), the driven nip band (38) of left socle (32) and right support (33) is equal It is positioned at the upper end of main conveyor belt (37), between driven nip band (38) and main conveyor belt (37), leaves the clamping for accommodating glass Space, the opposite side of left socle (32) and right support (33) is equipped with polishing unit (4), described left socle (32) and right support (33) it is provided with the chute (51) extended along glass motion direction between, in described chute (51), is provided with slide block (52), institute State the sucker actuator (53) being fixed with sucker (55) on slide block (52) and driving sucker (55) to move up and down, work as glass edging Time mobile, sucker (55) is inhaled with glass and and slide block (52) and glass linkage.

Glass double side edge grinder the most according to claim 1, is characterized in that: going out of described first bilateral edging device (1) Mouth end is provided with transfer mechanism (8), and the entrance point of described second bilateral edging device (2) is positioned at the first bilateral edging device (1) The underface of the port of export, described transfer mechanism (8) includes accepting from the port of export of the first bilateral edging device (1) glass out The rotating disk (81) of glass, driving rotating disk (81) rotate the electric rotating machine (82) of 180 degree, drive rotating disk (81) bilateral first Transfer positioning actuator (83) that the port of export of edging device (1) and the arrival end of the second bilateral edging device (2) move, and The glass in rotating disk (81) is promoted to enter second pair when the arrival end of the second bilateral edging device (2) for rotating disk (81) Transfer charging actuator (84) of limit edging device (2).

Glass double side edge grinder the most according to claim 1, is characterized in that: entering of described first bilateral edging device (1) Mouth end is provided with feeding mechanism (7), and described feeding mechanism (7) includes feeding rack (76), above and edge is vertical to be positioned at feeding rack (76) The direction of glass motion track horizontal-extending guided way (71), equal sliding are arranged on guided way (71) upper liftable first Discharging frame (72) and liftable second discharging frame (73), for promoting the first discharging frame (72), the second discharging frame (73) along leading To charging positioning actuator (74) of rail (71) sliding and for promoting the first discharging frame (72) or the second discharging frame (73) Glass enter the initial charge actuator (75) of the first bilateral edging device (1).

Glass double side edge grinder the most according to claim 1, is characterized in that: entering of described first bilateral edging device (1) Mouth end and the port of export, the entrance point of the second bilateral edging device (2) and the port of export are provided with conveying roller group (61), and described Conveying roller group (61) all stretches out along glass motion direction, described first bilateral edging device (1) and the second bilateral edging The entrance point of device (2) is provided with guiding wheels (62), and described guiding wheels (62) include being arranged on left socle (32) Fixed guide schedule (621) and to be arranged on right support (33) upper and can lead along the activity moved in the direction of vertical glass movement locus To schedule (622), described conveying roller group (61) is positioned between fixed guide schedule (621) and activity-oriented schedule (622).

Glass double side edge grinder the most according to claim 4, is characterized in that: going out of described second bilateral edging device (2) The discharging mechanism (9) that mouth end is provided with, described discharging mechanism (9) includes discharge rack (91), is positioned at the upper edge of discharge rack (91) vertically The direction extension of glass motion track the conveying roller group (61) with the port of export of the second bilateral edging device (2) are crisscross arranged The first discharge roller wheels (92), drive the first discharge roller wheels (92) to move up and down higher or lower than the second bilateral edging device (2) the break-in actuator (94) of the conveying roller group (61) of the port of export.

Glass double side edge grinder the most according to claim 5, is characterized in that: discharging mechanism (9) also includes being positioned at discharge rack (91) upper dock with the first discharge roller wheels (92) and oneself moves rail along vertical glass with the first discharge roller wheels (92) joint The outward extending second discharge roller wheels (93) in direction of mark, described second discharge roller wheels (93) from the first discharge roller wheels (92) joint is arranged diagonally downward.

Glass double side edge grinder the most according to claim 6, is characterized in that: the inclination of described second discharge roller wheels (93) Angle is 15 degree.

Glass double side edge grinder the most according to claim 6, is characterized in that: described discharge rack is provided with fan on (91) Group, described fan group includes being arranged on the second discharge roller wheels (93) top and wind direction points to the upper of the second discharge roller wheels (93) Fan group (95) and be positioned at the second discharge roller wheels (93) lower section and wind direction points to the lower fan group of the second discharge roller wheels (93) (96)。

Glass double side edge grinder the most according to claim 1, is characterized in that: described first bilateral edging device (1) and Being respectively provided with cooling wiper mechanism on two bilateral edging devices (2), described cooling wiper mechanism includes being positioned at the second bilateral edging dress Put (2) lower section tank (10) connect with tank (10) water pump (101), be connected with water pump (101) by water pipe and be used for The shower nozzle (102) of cooling polishing unit (4), the water outlet of described tank (10) arranges filter screen.