CN207548388U - The linear bilateral edge polisher of ultra-thin glass - Google Patents

Abstract

The utility model is related to a kind of linear bilateral edge polishers of ultra-thin glass, including folding lathe bed mechanism, emery wheel chair mechanisms, it is driven conveying mechanism, compress frame mechanism, compress elevating mechanism, into guiding mechanism, synchronous center rest mechanism and electric cabinet deployment mechanism, the emery wheel draw box mechanism is mounted in folding lathe bed mechanism, the transmission conveying mechanism, compress frame mechanism, it compresses elevating mechanism and electric cabinet deployment mechanism is separately positioned on emery wheel draw box mechanism, the front end of emery wheel chair mechanisms is arranged on into guiding mechanism, synchronous center rest mechanism is arranged on the centre position into guiding mechanism and emery wheel chair mechanisms, and synchronous center rest mechanism is parallel with entering guiding mechanism and emery wheel draw box mechanism；Such edger unit, the fine grinding of ultra-thin flat glass can be processed, it significantly improves part processing precision, glass is smoothly sent by edge polisher with control by the combination of each section mechanism, carry out the Precise Grinding of bilateral base and chamfered edge, the product processed is used for display screen film glass.

Description

The linear bilateral edge polisher of ultra-thin glass

Technical field

The utility model is related to glass processing device field, the linear bilateral edge polisher of particularly a kind of ultra-thin glass.

Background technology

At present, the edge polisher technology of China's glass processing industry has developed relative maturity, for thickness in 3mm and following Electronics industry glass（Such as：Shield film glass）Processing, still rely on import equipment to produce, import equipment processing essence Degree, quality control and the forward position of the technical experience Shang Douzou worlds；Domestic machining accuracy, quality of production control and technical Experience lacks, and domestic enterprise dare to develop and manufacture such edge polisher still without enough strength so far.Domestic ultra-thin glass edging The market potential of machine is very big, in order to break the monopolization situation of external thin slice edging machine equipment, develops a such glass processing Equipment is forced in the eyebrows and eyelashes.

Common glass edge-grinding machine, has the following disadvantages：（1）For simple glass because thickness is larger, when grinding, is required Emery wheel is wanted to be configured thicker, cutting line is apparent, and heavy sheet glass is relatively low to quality requirements；（2）Clamping frame utilizes spring harden structure, It is different to the different location pressure of glass, different deflections can be generated in different forced positions for ultra-thin glass and caused Influence chamfered edge straightness；（3）For the detent mechanism that keeps to the side of common edge polisher frequently with roller form, roller is right in itself without power The conveying of glass has certain inhibition, in addition the precision of hole position is relatively low when being processed by wheel plate, so entire row roller will not Very straight, this is not suitable for having the ultra-thin glass of high position precision requirement to produce；（4）When glass size is larger, especially glass exists In conveying, middle part drops to prevent glass without support and deforms or damage；Moreover, middle part does not have support, the flatness of glass is very It is low, it is not suitable for the processing of ultra-thin glass.

Utility model content

The purpose of the utility model is to overcome, because middle part does not have a deficiency present in support, and provide one during glass conveying Kind is simple and reasonable for structure, is suitble to larger-size glass processing, and is not easy tenesmus deformation and damages, and glass flatness is preferable The linear bilateral edge polisher of ultra-thin glass.

What the purpose of this utility model was realized in：

The linear bilateral edge polisher of ultra-thin glass, which is characterized in that including folding lathe bed mechanism, emery wheel chair mechanisms, pass Dynamic conveying mechanism compresses frame mechanism, compresses elevating mechanism, into guiding mechanism, synchronous center rest mechanism and electric cabinet placement machine Structure, the emery wheel chair mechanisms are mounted in folding lathe bed mechanism, and the transmission conveying mechanism compresses frame mechanism, compresses lifting Mechanism and electric cabinet deployment mechanism are separately positioned in emery wheel chair mechanisms, before being arranged on emery wheel chair mechanisms into guiding mechanism End, synchronous center rest mechanism are arranged on the centre position into guiding mechanism and emery wheel chair mechanisms, and synchronous center rest Mechanism is parallel with entering guiding mechanism and emery wheel chair mechanisms；The linear bilateral edge polisher of such ultra-thin glass, it is same by adding Center rest mechanism is walked, is especially suitable for ultra-thin and larger-size glass and uses, for glass in conveying, middle part is able to support, It drops to prevent glass and deforms or damage, moreover, because the effect of synchronous center rest mechanism, the flatness of glass is preferable, moreover, Its overall structure is simple, reasonable.

The utility model can also use following technical scheme：

Further, the folding lathe bed mechanism includes lathe bed pedestal, preceding movable supporting plate, rear movable supporting plate, preceding rolling Ballscrew pair, rear ball wire bar pair, preceding line slideway auxiliary and rear line slideway auxiliary, the front end of lathe bed pedestal, which is equipped with, to be mutually parallel Preceding ball wire bar pair and preceding line slideway auxiliary, its rear end the rear ball wire bar pair being mutually parallel and rear the linear guide are installed Pair, preceding movable supporting plate and rear movable supporting plate are screwed onto on preceding ball wire bar pair and rear ball wire bar pair, and connect respectively respectively Corresponding preceding line slideway auxiliary and rear line slideway auxiliary are connect, emery wheel chair mechanisms include emery wheel fixed case and emery wheel active box, mill Wheel active box is crossed on preceding movable supporting plate and rear movable supporting plate, and emery wheel fixed case is arranged on lathe bed pedestal and is located at The opposite side of emery wheel active box；Ensure the globality of lathe bed pedestal well, greatly reduce curstomer's site installation workload；And And by the adjusting of forward and backward movable supporting plate, realize that emery wheel active box is adjusted with respect to the position of emery wheel fixed case, so as to be suitble to The glass processing of different in width uses, and total is simple, rationally, flexible adjustment, simple.

Further, it is coaxially defeated to connect servo deceleration machine jointly for one end of the preceding ball wire bar pair and rear ball wire bar pair Go out；It is synchronized that is, same servo deceleration machine realizes forward and backward ball wire bar pair（Folding）Transmission is conducive to improve processing Accuracy.

Further, the guiding mechanism that enters includes left and right two groups of guidance sets, and every group of guidance set includes installation Plate, line slideway auxiliary sliding block, adjusting handle, side compression synchronous belt, synchronizing wheel, halo, elastic guide plate, synchronous transmission gear, Lower synchronous belt and lower synchronous belt tensioner pulley, two groups of guidance sets are separately positioned on the front end of the emery wheel chair mechanisms on lathe bed pedestal Both sides, on each group of guidance set, installing plate is mounted on line slideway auxiliary sliding block, and installing plate front and back end is respectively provided with light Wheel, the both ends of side compression synchronous belt are nested on the halo of front and back ends, and side compression synchronous belt is around the synchronizing wheel, elasticity Guide-rail plate is arranged in side compression synchronous belt and with offseting on the inside of side compression synchronous belt, adjusting handle connection plate, lower synchronization Belt tensioner pulley is coupled by lower synchronous belt with transmission conveying mechanism, and lower synchronous tensioning wheel is driven by synchronous transmission gear and synchronized Wheel, so as to drive side compression synchronous belt and lower synchronous belt synchronous transport；It is clamped using side compression synchronous belt and synchronous dynamic transmits, Its resistance is small, and straightness is high；Installing plate can be clamped the fine tuning on direction by adjusting handle；In order to avoid to importing glass Excessive side extruding force is generated, elastic guide plate is the elastic guide plate of internal dress spring, makes the side compression of guide-rail plate flexibility Glass will not weigh glass wounded.

Further, the synchronous center rest mechanism includes two groups of synchronization carriage mechanisms being mutually parallel, two groups of synchronizations Carriage mechanism is between left and right two groups of guidance sets and between emery wheel fixed case and emery wheel active box, every group of synchronous support Frame mechanism includes front rack tensioning wheel, tail-bracket tensioning wheel, guide rail synchronous belt, center rest and transmission shaft, and guide rail synchronous belt is set It puts between front rack tensioning wheel and tail-bracket tensioning wheel, center rest is arranged on the inside of guide rail synchronous belt and center rest With offseting on the inside of guide rail synchronous belt, transmission shaft passes through the tail-bracket tensioning wheel in two groups of synchronization carriage mechanisms, and transmission shaft with Conveying mechanism connection is driven, so that the guide rail synchronous belt in two groups of synchronization carriage mechanisms is by same transmission shaft synchronous drive；Due to Using guide rail synchronous belt, power links and synchronizes with transmission shaft, and stationarity greatly improves.

Further, the guide rail synchronous belt includes synchronous belt and guide rail, and guide rail is fixed on center rest, and guide rail Upper surface is provided with guiding trough of belt, and synchronous belt is nested on front rack tensioning wheel and tail-bracket tensioning wheel, and synchronous belt put across The guiding trough of belt.Here for center rest using aluminium section bar as trunk, upper surface is equipped with guide rail, the guiding trough of belt of guide rail upper surface For guiding role, synchronous belt span is longer, also has several support roller support synchronous belts below, and synchronous belt is enclosed in more than part group It is rotated with subsequent synchronous pulley.

Further, the compression frame mechanism includes left and right two groups of clamping frames, and two groups of clamping frames are separately mounted to emery wheel and consolidate Determine on case and emery wheel active box, every group of clamping frame includes upper holddown belt component and lower holddown belt component, and lower holddown belt component includes Lower synchronizing wheel, the lower synchronous belt tensioner pulley, the lower synchronous belt, conveying plate and feeding beam, conveying plate are arranged on On feeding beam, step wheel is on lower synchronous belt tensioner pulley around being located at similarly hereinafter for lower synchronous belt, and lower synchronous belt is placed on conveying plate, Upper holddown belt component includes upper synchronous belt, clamping frame tensioning wheel, clamping frame synchronizing wheel and clamping frame Ji Liang, and upper synchronous belt is around being located at It on clamping frame tensioning wheel and clamping frame synchronizing wheel, and is installed along on clamping frame Ji Liang, the clamping frame synchronizing wheel and similarly hereinafter Step wheel is connect respectively with transmission conveying mechanism；This uniform compaction techniques are better than conventional springs plate compressing structure, first, are mounted on Conveying plate on rigid feeding beam and overall processing, the conveying mounted on rigid clamping frame Ji Liang after feeding beam assembling Plate and overall processing after Ji Liang assemblings, ensure that the flatness of upper and lower datum level；Synchronous belt is sleeved on clamping frame on high flexibility sponge Synchronous belt by the spongy layer uniform stressed of the upper synchronous belt of extruding on clamping frame tensioning wheel, glass is compressed when pressed glass Glass, glass are unlikely to deform under microcosmic, so as to the situation that ensure that the straightness error of chamfered edge, eliminated ripple glaze.

Further, the transmission conveying mechanism includes decelerating through motor power plants and main drive gear transmission group, main Transmission gear transmission group includes gear, first shaft coupling, lower gear and transmission box part, the connection of decelerating through motor power plants Gear and lower gear, gear are coupled by clutch with clamping frame synchronizing wheel, and lower gear is by being driven under box part connection Synchronizing wheel, and lower synchronous belt is driven, achieve the effect that power transmission and synchronization.

Further, the compression elevating mechanism includes left and right each one group of compression lifting assembly, each group of compression pressure drop group Part is separately positioned on emery wheel fixed case and emery wheel active box, and the lifting chuck connection on each group of compression lifting assembly corresponds to One group of clamping frame, this compression elevating mechanism, easily adjust lifting, and synchronization lifting adjust.

Further, the emery wheel chair mechanisms have further included high-precision bistrique feeder assembly, high-precision grinding wheel feed group Part includes grinding head motor, emery wheel, band ball wire bar pair, slide plate, second shaft coupling, the elastic adjusting screw of handwheel, adjusts digital hand Wheel and planetary reducer, emery wheel are mounted in grinding head motor shaft and are installed along with ball wire bar pair, the ball wire bar pair It is arranged on slide plate, the elastic adjusting screw of handwheel, which is arranged on, to be adjusted in digital hand wheel, is adjusted digital hand wheel and is passed through planetary reducer Second shaft coupling is connected, second shaft coupling is connect with ball wire bar pair；It is big by planetary reducer when rotation adjusts digital hand wheel Reduce emery wheel greatly（Sliding equipment）The sensitivity of advance and retreat can reach the effect of fine tuning, avoids slight rotation and adjusts about number During handwheel, the amount of feeding is excessive, causes thin glass stock removal excessive and bad.

The beneficial effects of the utility model are as follows：

（1）The linear bilateral edge polisher of such ultra-thin glass by adding synchronous center rest mechanism, is especially suitable for super Thin and larger-size glass uses, and for glass in conveying, middle part is able to support, drops to prevent glass and deforms or damage, and And due to the effect of synchronous center rest mechanism, the flatness of glass is preferable, moreover, its overall structure is simple, reasonable.

（2）Integrated frame welds pedestal, same using high-precise synchronization ball screw, straight ball-guide and servo deceleration machine Axis output transmission, solves the problems, such as being accurately positioned for width folding.

（3）Glass inlet port end uses side compression synchronous belt structure for conveying, ensures that glass is steady, linearly enters equipment and processes Region；Main transmission is using the double servo closed-loop synchronization motor controls of main cord type, the synchronism that ensure that conveying of maximum possible.

（4）Center rest synchronous transport support technology：It is conveyed for larger glass horizontal, increases multigroup synchronization among glass Band support prevents the intermediate influence to drop；Its power synchronizes tape spool linkage by the outlet of main conveying extension and synchronizes, and solves glass Transportation problem caused by tenesmus.

（5）Synchronous transport and hold-down mechanism, left and right two groups of main transmission coaxial synchronous transmission, maximum possible ensure that two The synchronism of side conveying；Clamping frame is connect by cross universal first shaft coupling with main drive gear, makes synchronous belt synchronization up and down Conveying.Upper and lower conveying synchronous belt guide rail ensures the flatness of guide rail using integral processing method after assembling；Clamping frame uses certainly The dynamic rigid area spongiosa hold-down mechanism adjusted carries out uniform plane compression so as to pressed glass by the own elasticity of sponge, avoids pressing Glass embossing and alice situation caused by power unevenness solve smooth linearity requirement during glass transmission.

（6）High-precision bistrique feeder assembly, emery wheel feeding are subtracted using high-precision abrasive wheel, high precision ball planker cooperation planet Fast machine precision feeding, solve the amount of feeding easily it is excessive caused by glass edge quality problems.

Description of the drawings

Fig. 1 is the linear bilateral edge polisher stereogram of the utility model ultra-thin glass.

Fig. 2 is the structure diagram of the utility model folding lathe bed mechanism.

Fig. 3 for the utility model emery wheel chair mechanisms, transmission conveying mechanism, compress frame mechanism, compress elevating mechanism and into Enter the assembling stereogram of guiding mechanism.

Fig. 4 is another angle schematic diagram of Fig. 3.

Fig. 5 synchronizes center rest mechanism and transmission conveying mechanism drive connection schematic diagram for the utility model.

Fig. 6 synchronizes carriage mechanism side diagram for the utility model.

Fig. 7 compresses frame mechanism and transmission conveying mechanism drive connection schematic diagram for the utility model.

Fig. 8 is the side diagram of Fig. 7.

Fig. 9 is that the utility model compresses elevating mechanism, emery wheel chair mechanisms and the assembling stereogram for entering guiding mechanism.

Figure 10 is the utility model high-precision bistrique feeder assembly stereogram.

Specific embodiment

As shown in Figures 1 to 10, the linear bilateral edge polisher of a kind of ultra-thin glass, including folding lathe bed mechanism 1, emery wheel case Body mechanism 2, transmission conveying mechanism 3 compress frame mechanism 4, compress elevating mechanism 5, into guiding mechanism 6, synchronous center rest machine Structure 8 and electric cabinet deployment mechanism 9, the emery wheel chair mechanisms 2 are mounted in folding lathe bed mechanism 1, the transmission conveying mechanism 3, It compresses frame mechanism 4, compression elevating mechanism 5 and electric cabinet deployment mechanism 9 to be separately positioned in emery wheel chair mechanisms 2, into Guiding machine Structure 6 is arranged on the front end of emery wheel chair mechanisms 2, and synchronous center rest mechanism 8 is arranged on into guiding mechanism 6 and emery wheel babinet machine The centre position of structure 2, and synchronous center rest mechanism 8 is parallel with entering guiding mechanism 6 and emery wheel chair mechanisms 2, refers to Fig. 1 institutes Show, arrow is glass feed direction.

As shown in Figure 2, the folding lathe bed mechanism 1 includes lathe bed pedestal 11, preceding movable supporting plate 121, rear movable supporting Plate 122, preceding ball wire bar pair 131, rear ball wire bar pair 132, preceding line slideway auxiliary 141 and rear line slideway auxiliary 142, lathe bed base The front end of seat 11 is equipped with the preceding ball wire bar pair 131 being mutually parallel and preceding line slideway auxiliary 141, and its rear end is equipped with mutually flat Capable rear ball wire bar pair 132 and rear line slideway auxiliary 142, preceding movable supporting plate 121 and rear movable supporting plate 122 are spirally connected respectively On preceding ball wire bar pair 131 and rear ball wire bar pair 132, and corresponding preceding line slideway auxiliary 141 and rear straight line are connected respectively Guideway 142, emery wheel chair mechanisms 2 include emery wheel fixed case 21 and emery wheel active box 22, and emery wheel active box 22 is crossed on preceding work In dynamic support plate 121 and rear movable supporting plate 122, emery wheel fixed case 21 is arranged on lathe bed pedestal 11 and positioned at emery wheel activity The opposite side of case 22.

One end of the preceding ball wire bar pair 131 and rear ball wire bar pair 132 connects servo deceleration machine and coaxially exports jointly 15。

Operation principle：Coaxially output 15 drives preceding ball wire bar pair 131 and rear ball wire bar pair 132 to revolve to servo deceleration machine Turn, preceding movable supporting plate 121, rear movable supporting plate 122 is made to be slided respectively along preceding line slideway auxiliary 141 and rear line slideway auxiliary 142 Row so as to which emery wheel active box 22 be made to make close or phase from movement relative to emery wheel fixed case 21, realizes emery wheel active box 22 and emery wheel The adjusting of distance between fixed case 21, so as to meet the processing needs of different in width glass；As shown in Figure 2, arrow for glass into Material mode.

As shown in Fig. 3 and Fig. 4, the guiding mechanism 6 that enters includes left and right two groups of guidance sets 61, every group of guidance set 61 include installing plate 621, line slideway auxiliary sliding block 627, adjusting handle 626, side compression synchronous belt 623, synchronizing wheel 622, halo 624th, elastic guide plate 625, synchronous transmission gear 629, lower synchronous belt 630 and lower synchronous belt tensioner pulley 628, two groups of guidance sets 61 are separately positioned on the front end both sides of the emery wheel chair mechanisms 2 on lathe bed pedestal 11, on each group of guidance set 61, installing plate 621 are mounted on line slideway auxiliary sliding block 627, and 621 front and back end of installing plate is respectively provided with halo 624, side compression synchronous belt 623 Both ends are nested on the halo 624 of front and back ends, and side compression synchronous belt 623 is around the synchronizing wheel 622, elastic guide plate 625 It is arranged in side compression synchronous belt 623 and offsets with 623 inside of side compression synchronous belt, 626 connection plate 621 of adjusting handle, Lower synchronous belt tensioner pulley 628 is coupled by lower synchronous belt 630 with transmission conveying mechanism 3, and lower synchronous tensioning wheel 628 is passed by synchronous Moving gear 629 drives synchronizing wheel 622, so as to drive side compression synchronous belt 623 and lower 630 synchronous transport of synchronous belt.

As shown in Fig. 5 and Fig. 6, the synchronous center rest mechanism 8 includes two groups of synchronization carriage mechanisms 81 being mutually parallel, Two groups of synchronization carriage mechanisms 81 are between left and right two groups of guidance sets 61 and emery wheel fixed case 21 and emery wheel active box 22 Between, every group of synchronization carriage mechanism 81 include front rack tensioning wheel 811, tail-bracket tensioning wheel 812, guide rail synchronous belt 813, in Heart bracket 814 and transmission shaft 815, guide rail synchronous belt 813 are arranged between front rack tensioning wheel 811 and tail-bracket tensioning wheel 812, Center rest 814 is arranged on the inside of guide rail synchronous belt 813 and center rest 814 and the inside of guide rail synchronous belt 813 offset, Transmission shaft 815 passes through the tail-bracket tensioning wheel 812 in two groups of synchronization carriage mechanisms 81, and transmission shaft 815 and transmission conveying mechanism 3 Connection, so that the guide rail synchronous belt 813 in two groups of synchronization carriage mechanisms 81 is by same 815 synchronous drive of transmission shaft.

The guide rail synchronous belt 813 includes synchronous belt 8131 and guide rail 8132, and guide rail 8132 is fixed on center rest 814 On, and the upper surface of guide rail 8132 is provided with and is oriented to trough of belt 7, synchronous belt 8131 is nested in front rack tensioning wheel 811 and tail-bracket On tensioning wheel 812, and synchronous belt 8131 is put across the guiding trough of belt 7.

As shown in Fig. 7 and Fig. 8, the compression frame mechanism 4 includes left and right two groups of clamping frames 41, and two groups of clamping frames 41 are distinguished On emery wheel fixed case 21 and emery wheel active box 22, every group of clamping frame 41 includes upper holddown belt component 411 and lower holddown belt Component 412, lower holddown belt component 412 include lower synchronizing wheel 631, the lower synchronous belt tensioner pulley 628, the lower synchronous belt 630, Conveying plate 632 and feeding beam 633, conveying plate 632 are arranged on feeding beam 633, and lower synchronous belt 630 is around being located at similarly hereinafter Step wheel 631 is on lower synchronous belt tensioner pulley 628, and lower synchronous belt 630 is placed on conveying plate 632, upper holddown belt component 412 Including upper synchronous belt 6331, clamping frame tensioning wheel 634, clamping frame synchronizing wheel 635 and clamping frame base beam 636, upper synchronous belt 6331 Around being located on clamping frame tensioning wheel 634 and clamping frame synchronizing wheel 635, and be installed along on clamping frame base beam 636, the compression Frame synchronizing wheel 635 and lower synchronizing wheel 631 are connect respectively with transmission conveying mechanism 3.

As shown in fig. 7, the transmission conveying mechanism 3 includes decelerating through motor power plants 31 and main drive gear transmission group 32, main drive gear transmission group 32 includes gear 300, first shaft coupling 301, lower gear 303 and transmission box part 304, electricity Machine braking maneuver power apparatus 31 connects gear 300 and lower gear 303, gear 300 pass through first shaft coupling 301 and clamping frame Synchronizing wheel 635 couples, and lower gear 303 drives lower synchronous belt 630 by being driven the lower synchronizing wheel 631 of the connection of box part 304.

As shown in Figure 9, the compression elevating mechanism 5 includes left and right each one group of compression lifting assembly 51, each group of compression pressure Part 51 of coming down to a lower group is separately positioned on emery wheel fixed case 21 and emery wheel active box 22, and the lifting on each group of compression lifting assembly 51 Collet 500 connects corresponding one group of clamping frame 41.

As shown in Figure 10, the emery wheel chair mechanisms 2 have further included high-precision bistrique feeder assembly 211, high-precision bistrique Feeder assembly 211 includes grinding head motor 200, emery wheel 201, ball wire bar pair 202, slide plate 203, second shaft coupling 204, handwheel pine Tight adjusting screw 205 adjusts digital hand wheel 206 and planetary reducer 207, emery wheel 201 is mounted in 200 shaft of grinding head motor, And ball wire bar pair 202 is installed along with, the ball wire bar pair 202 is arranged on slide plate 203, the elastic adjusting screw of handwheel 205 are arranged in adjusting digital hand wheel 206, adjust digital hand wheel 206 and connect second shaft coupling 204 by planetary reducer 207, Second shaft coupling 204 is connect with ball wire bar pair 202.

Shown in figure, emery wheel fixed case 21 is fixedly mounted on lathe bed pedestal 11, and emery wheel active box 22 is mounted on preceding activity In support plate 141 and rear movable supporting plate 122, emery wheel active box 22 follows preceding movable supporting plate 141 and rear movable supporting plate 122 It slides, realizes that the folding between emery wheel fixed case 21 is moved, to meet the processing needs of different glass width size, wherein, High-precision bistrique feeder assembly 21 is by being specifically arranged on emery wheel fixed case 21 and emery wheel active box 22, high-precision bistrique Feeder assembly 211 adjusts for the first time for the feeding of emery wheel, preferably holds feeding precision, is finally reached specific grinding product Matter.

The function of the clamping frame 41 is to provide certain pressure in glass top surface, and glass is made to be close to lower synchronous belt 630 Smoothly conveying, two groups of clamping frames 41 are separately fixed on the compression lifting assembly 51 of the left and right sides；It is installed on clamping frame 41 Synchronous belt 6331 on sponge, upper 6331 front and back ends of synchronous belt are tensioned by clamping frame tensioning wheel 634 and clamping frame synchronizing wheel 635, Clamping frame synchronizing wheel 635 is connect with transmission conveying mechanism 3, realize the transmission of power with it is synchronous；Pass through extruding when pressed glass The spongy layer uniform stressed of upper synchronous belt pressed glass, glass be unlikely to deform under microcosmic, so as to ensure that the straight line of chamfered edge Degree error, the situation for having eliminated ripple glaze.

The upper holddown belt component 411 is mounted on the sliding shoe 511 for compressing lifting assembly 51, sliding shoe 511 It is driven by guiding axis 513 and elevating screw 512, moves up and down holddown belt component 411 to adapt to different-thickness glass It needs, the power for compressing lifting assembly 51 is provided by the coaxial reduction gear motor mechanism 510 on crane 514, realizes same group The function of interior front and rear lifting simultaneously, as shown in Figure 9.

Lift principle：Coaxial reduction gear motor mechanism 510 drives crane 514, and driving elevating screw 512 rotates, and makes cunning Motion block 511, which drives lifting chuck 500 and compresses frame mechanism 4, makees oscilaltion.

Function therein, when being to ensure that glass enters edge polisher, glass edge and all emery wheel flour millings of fixed edge It is parallel, including the left and right each two groups of support synchronous belts in inlet side and side compression synchronous belt mechanism.Outlet also includes left and right each one group Outlet synchronous pulley group, institute is dynamic to be connect, and realize the synchronous speed of conveying with lower conveying synchronous pulley.

Function therein provides the general name of water cooling and each section of water recovery processing when being and being ground glass to emery wheel, Mechanism includes water pump water supply part, distributive pipe part, cooling box part, tank parts.

It is described to carry out closed signal control with PLC controls and each sensor, servo motor, power motor etc., so as to reach To the stability contorting to overall performance.

Traditional double straight edge grinding machines are used for the processing of building slab glass, and processing quality is relatively low, and lines is coarse, dimensional accuracy It is low；The linear bilateral edge polisher of the utility model ultra-thin glass is then to improve part processing precision, by each section novel mechanism Combination and control glass is smoothly sent into the Precise Grinding that edge polisher carries out bilateral base and chamfered edge.

Power transmission principle：The decelerating through motor power plants 31 of transmission conveying mechanism 3 divide two-way to export, all the way through upper tooth Wheel 300 drives clamping frame synchronizing wheel 635 by first shaft coupling 301, moves synchronous belt 6331；Another way is through lower gear 303 drive lower synchronizing wheel 631 by being driven box part 304, move lower synchronous belt 630, lower synchronous belt 630 drives lower synchronous belt Tensioning wheel 628, so as to which synchronous transmission gear 629 be driven to rotate synchronizing wheel 622, so as to move side compression synchronous belt 623.

Claims (10)

1. the linear bilateral edge polisher of ultra-thin glass, which is characterized in that including folding lathe bed mechanism（1）, emery wheel chair mechanisms （2）, transmission conveying mechanism（3）, compress frame mechanism（4）, compress elevating mechanism（5）, into guiding mechanism（6）, synchronous center support Frame mechanism（8）With electric cabinet deployment mechanism（9）, the emery wheel chair mechanisms（2）Mounted on folding lathe bed mechanism（1）On, the biography Dynamic conveying mechanism（3）, compress frame mechanism（4）, compress elevating mechanism（5）With electric cabinet deployment mechanism（9）It is separately positioned on emery wheel case Body mechanism（2）On, into guiding mechanism（6）It is arranged on emery wheel chair mechanisms（2）Front end, synchronous center rest mechanism（8）If It puts into guiding mechanism（6）With emery wheel chair mechanisms（2）Centre position, and synchronous center rest mechanism（8）It is led with entering To mechanism（6）With emery wheel chair mechanisms（2）It is parallel.

2. the linear bilateral edge polisher of ultra-thin glass according to claim 1, which is characterized in that the folding lathe bed mechanism （1）Including lathe bed pedestal（11）, preceding movable supporting plate（121）, rear movable supporting plate（122）, preceding ball wire bar pair（131）, after Ball wire bar pair（132）, preceding line slideway auxiliary（141）With rear line slideway auxiliary（142）, lathe bed pedestal（11）Front end be equipped with The preceding ball wire bar pair being mutually parallel（131）With preceding line slideway auxiliary（141）, its rear end is equipped with the rear ball wire being mutually parallel Bar pair（132）With rear line slideway auxiliary（142）, preceding movable supporting plate（121）With rear movable supporting plate（122）Before being screwed onto respectively Ball wire bar pair（131）With rear ball wire bar pair（132）On, and corresponding preceding line slideway auxiliary is connected respectively（141）With it is rear straight Line guideway（142）, emery wheel chair mechanisms（2）Including emery wheel fixed case（21）With emery wheel active box（22）, emery wheel active box （22）It is crossed on preceding movable supporting plate（121）With rear movable supporting plate（122）On, emery wheel fixed case（21）It is arranged on lathe bed pedestal （11）It goes up and is located at emery wheel active box（22）Opposite side.

3. the linear bilateral edge polisher of ultra-thin glass according to claim 2, which is characterized in that the preceding ball wire bar pair （131）With rear ball wire bar pair（132）One end connect servo deceleration machine jointly and coaxially export（15）.

4. the linear bilateral edge polisher of ultra-thin glass according to claim 2, which is characterized in that described to enter guiding mechanism （6）Including left and right two groups of guidance sets（61）, every group of guidance set（61）Including installing plate（621）, line slideway auxiliary sliding block （627）, adjusting handle（626）, side compression synchronous belt（623）, synchronizing wheel（622）, halo（624）, elastic guide plate（625）、 Synchronous transmission gear（629）, lower synchronous belt（630）With lower synchronous belt tensioner pulley（628）, two groups of guidance sets（61）It sets respectively In lathe bed pedestal（11）On emery wheel chair mechanisms（2）Front end both sides, each group of guidance set（61）On, installing plate （621）Mounted on line slideway auxiliary sliding block（627）On, installing plate（621）Front and back end is respectively provided with halo（624）, side compression is same Walk band（623）Both ends be nested with halo in front and back ends（624）On, and side compression synchronous belt（623）Around the synchronizing wheel （622）, elastic guide plate（625）It is arranged on side compression synchronous belt（623）It is interior and with side compression synchronous belt（623）Inside offsets, Adjusting handle（626）Connection plate（621）, lower synchronous belt tensioner pulley（628）Pass through lower synchronous belt（630）With being driven conveyer Structure（3）Connection, lower synchronous tensioning wheel（628）Pass through synchronous transmission gear（629）Drive synchronizing wheel（622）, so as to drive side pressure Tight synchronous belt（623）With lower synchronous belt（630）Synchronous transport.

5. the linear bilateral edge polisher of ultra-thin glass according to claim 4, which is characterized in that the synchronous center rest machine Structure（8）The synchronization carriage mechanism being mutually parallel including two groups（81）, two groups of synchronization carriage mechanisms（81）Positioned at left and right two groups of guiding Component（61）Between and emery wheel fixed case（21）With emery wheel active box（22）Between, every group of synchronization carriage mechanism（81）Packet Include front rack tensioning wheel（811）, tail-bracket tensioning wheel（812）, guide rail synchronous belt（813）, center rest（814）And transmission shaft （815）, guide rail synchronous belt（813）It is arranged on front rack tensioning wheel（811）With tail-bracket tensioning wheel（812）Between, center rest （814）It is arranged on guide rail synchronous belt（813）Inside and center rest（814）With guide rail synchronous belt（813）Inside offset, Transmission shaft（815）Across two groups of synchronization carriage mechanisms（81）On tail-bracket tensioning wheel（812）, and transmission shaft（815）With transmission Conveying mechanism（3）Connection, so that two groups of synchronization carriage mechanisms（81）On guide rail synchronous belt（813）By same transmission shaft（815） Synchronous drive.

6. the linear bilateral edge polisher of ultra-thin glass according to claim 5, which is characterized in that the guide rail synchronous belt （813）Including synchronous belt（8131）And guide rail（8132）, guide rail（8132）It is fixed on center rest（814）On, and guide rail （8132）Upper surface be provided with guiding trough of belt（7）, synchronous belt（8131）It is nested in front rack tensioning wheel（811）With tail-bracket Bearing up pulley（812）On, and synchronous belt（8131）It puts across the guiding trough of belt（7）.

7. the linear bilateral edge polisher of ultra-thin glass according to claim 5, which is characterized in that the compression frame mechanism（4） Including left and right two groups of clamping frames（41）, two groups of clamping frames（41）It is separately mounted to emery wheel fixed case（21）With emery wheel active box （22）On, every group of clamping frame（41）Including upper holddown belt component（411）With lower holddown belt component（412）, lower holddown belt component （412）Including lower synchronizing wheel（631）, the lower synchronous belt tensioner pulley（628）, the lower synchronous belt（630）, conveying plate （632）And feeding beam（633）, conveying plate（632）It is arranged on feeding beam（633）On, lower synchronous belt（630）Around being located at similarly hereinafter Step wheel（631）With lower synchronous belt tensioner pulley（628）On, and lower synchronous belt（630）It is placed in conveying plate（632）On, upper compression Band component（412）Including upper synchronous belt（6331）, clamping frame tensioning wheel（634）, clamping frame synchronizing wheel（635）With clamping frame Ji Liang （636）, upper synchronous belt（6331）Around being located at clamping frame tensioning wheel（634）With clamping frame synchronizing wheel（635）On, and be installed along with Clamping frame Ji Liang（636）On, the clamping frame synchronizing wheel（635）With lower synchronizing wheel（631）Respectively with being driven conveying mechanism（3）Even It connects.

8. the linear bilateral edge polisher of ultra-thin glass according to claim 7, which is characterized in that the transmission conveying mechanism （3）Including decelerating through motor power plants（31）With main drive gear transmission group（32）, main drive gear transmission group（32）Including Gear（300）, first shaft coupling（301）, lower gear（303）With transmission box part（304）, decelerating through motor power plants （31）Connect gear（300）And lower gear（303）, gear（300）Pass through first shaft coupling（301）With clamping frame synchronizing wheel （635）Connection, lower gear（303）By being driven box part（304）The lower synchronizing wheel of connection（631）, and drive lower synchronous belt （630）.

9. the linear bilateral edge polisher of ultra-thin glass according to claim 8, which is characterized in that the compression elevating mechanism （5）Including left and right each one group of compression lifting assembly（51）, each group of compression pressure drop component（51）It is separately positioned on emery wheel fixed case （21）With emery wheel active box（22）On, and each group of compression lifting assembly（51）On lifting chuck（500）Connect corresponding one Group clamping frame（41）.

10. the linear bilateral edge polisher of ultra-thin glass according to claim 8, which is characterized in that the emery wheel chair mechanisms （2）High-precision bistrique feeder assembly is further included（211）, high-precision bistrique feeder assembly（211）Including grinding head motor（200）、 Emery wheel（201）, ball wire bar pair（202）, slide plate（203）, second shaft coupling（204）, the elastic adjusting screw of handwheel（205）, adjust Save digital hand wheel（206）And planetary reducer（207）, emery wheel（201）Mounted on grinding head motor（200）Pacify in shaft and together Mounted in ball wire bar pair（202）, the ball wire bar pair（202）It is arranged on slide plate（203）On, the elastic adjusting screw of handwheel （205）It is arranged on adjusting digital hand wheel（206）On, adjust digital hand wheel（206）Pass through planetary reducer（207）Connect second Axis device（204）, second shaft coupling（204）With ball wire bar pair（202）Connection.