CN209986696U - Full-automatic edge grinding machine for glass - Google Patents

Abstract

The utility model relates to a full-automatic edging machine of glass belongs to glass processing equipment technical field, and it is including advancing piece platform, edging mechanism and play piece platform, advance the piece platform and go out and be provided with the water receiving tank between the piece platform, the edging structure includes the mount adjacent and parallel with the water receiving tank, sliding connection has at least one fixed edging subassembly and at least one activity edging subassembly on the mount. The fixed edging subassembly includes first mounting bracket, fixedly connected with goes up grinding pulley group and lower grinding pulley group on the first mounting bracket. The activity edging subassembly includes the second mounting bracket, one side that the water receiving tank was kept away from to the second mounting bracket is rotated and is connected with the locating rack, also fixedly connected with goes up emery wheel group and lower emery wheel group on the second mounting bracket. And the first mounting frame and the second mounting frame are fixedly connected with a water retaining assembly. The utility model discloses the glass surface residual water volume effect after having edging efficient, processing is few.

Description

Full-automatic edge grinding machine for glass

Technical Field

The utility model relates to a glass processing equipment technical field especially relates to full-automatic edging machine of glass.

Background

The glass edge grinding machine is one of main devices for deep processing of glass and mainly used for grinding edges of the glass. When rectangular glass is processed, four edges of the glass need to be ground flat respectively, the glass needs to be rotated ninety degrees, adjacent edges of the glass are ground flat, the edge grinding processing can be completed after the glass is rotated three times, and the processing process is complex.

In the prior art, the patent application with publication number CN201922325U discloses a full-automatic glass edge grinding machine, which comprises a frame, wherein an edge grinding worktable, a numerical control system and a grinding head controlled by a servo driving unit of the numerical control system are arranged on the frame, the servo driving unit comprises an X-axis servo driving unit, a Y-axis servo driving unit and a Z-axis servo driving unit which are linked in a three-axis manner, and the grinding head is driven to move along the circumferential direction of glass to grind the edge of the glass. This scheme carries out the bistrique of edging through removing to glass, realizes polishing to glass all around edge, need not rotate glass. But the linkage structure of removing the bistrique is complicated, and the bistrique is polished glass's all around edge inefficiency in proper order, and during the bistrique high-speed rotation glass edge of polishing, need cool down with the cooling water to the condition that the high temperature of avoiding the bistrique led to the fact the damage to glass appears, has processed glass like this after, and glass's periphery remains there is the cooling water, and along with glass's removal, the cooling water is the staff's clothes that spatters easily, makes the water stain appear in work place.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic edging machine of glass has the advantage that the glass surface residual water yield after efficient, the processing of edging is few.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a full-automatic edging machine of glass, is including advancing piece platform, edging mechanism and play piece platform, advance the piece platform and be provided with the water receiving tank between the piece platform, the edging structure includes the mount adjacent and parallel with the water receiving tank, sliding connection has at least one fixed edging subassembly and at least one activity edging subassembly on the mount. Fixed edging subassembly and activity edging subassembly all are located the water receiving tank top, fixed edging subassembly includes first mounting bracket, first mounting bracket and mount sliding connection, last grinding pulley group of fixedly connected with of first mounting bracket and lower grinding pulley group. The activity edging subassembly includes the second mounting bracket, one side that the water receiving tank was kept away from to the second mounting bracket is rotated and is connected with the locating rack, locating rack and mount sliding connection, also fixedly connected with goes up emery wheel group and lower emery wheel group on the second mounting bracket. Equal fixedly connected with manger plate subassembly on first mounting bracket and the second mounting bracket, the manger plate subassembly is located and grinds between wheel group and the lower grinding wheel group.

Implement above-mentioned technical scheme, through set up fixed edging subassembly and activity edging subassembly on the mount, and set up on the activity edging subassembly and turn to the structure, when edging rectangle glass like this, earlier advance a glass bench glass fixed, carry out the edging by activity edging subassembly to one side that glass orientation goes out the piece platform, then activity edging subassembly and fixed edging subassembly remove respectively to the both sides of rectangle proportion, remove glass, activity edging subassembly and fixed edging subassembly carry out the edging to glass's both sides respectively, glass removes to a back of putting out the piece bench, carry out the edging by activity edging subassembly to one side that glass orientation entered the piece platform again. Carry out the edging by two edging subassemblies to glass, be favorable to improving glass's edging machining efficiency. In the edging process, the water retaining assembly can stop cooling water from spreading on the glass, so that the cooling water dropping on the glass falls into the water receiving tank from the edge of the glass, and the reduction of the cooling water residue on the glass is facilitated.

The utility model discloses further set up to, go up the grinding wheel group and include the emery wheel and drive and go up emery wheel pivoted last driving piece, lower grinding wheel group is including lower emery wheel and drive efficiency pivoted lower driving piece, it is equipped with the cover shell with lower emery wheel overcoat to go up the emery wheel, the edging mouth has been seted up on the cover shell and the mouth that leaks, the level of edging mouth is the same with last emery wheel and lower position between the emery wheel, the mouth that leaks is located one side that the cover shell is close to the water receiving tank.

Implement above-mentioned technical scheme, all be provided with emery wheel group and lower emery wheel group on fixed edging subassembly and the activity edging subassembly, fixed edging subassembly and activity edging subassembly are all through last emery wheel and lower emery wheel to glass edging and are handled. Glass that treats edging handles stretches into the cover shell in from edging mouth department, contradicts with last emery wheel and lower emery wheel, goes up emery wheel and lower emery wheel and rotates under the driving action of last driving piece and lower driving piece respectively, realizes handling glass's edging, carries out refrigerated cooling water to last emery wheel and lower emery wheel and flows down from the water leakage mouth, falls into in the water receiving tank.

The utility model discloses further set up to, the manger plate subassembly is located edging mouth department, the manger plate subassembly includes manger plate brush and lower manger plate brush, it keeps away from one side of water receiving tank to go up manger plate brush fixed connection in edging mouth, manger plate brush fixed connection is close to one side of water receiving tank in edging mouth down.

Implement above-mentioned technical scheme, through setting up the brush that keeps off water that blocks the cooling water in edging mouth department, make the cooling water that drips on glass stay at the glass edge to along with the removal of activity edging subassembly, the edge of the brush of manger plate remaining cooling water on with glass is to glass, makes it slide to the water receiving tank in from glass.

The utility model discloses further set up to, be provided with at least one guided way on the mount, all be provided with on first mounting bracket and the locating rack with guided way matched with slider.

Implement above-mentioned technical scheme, the cooperation of slider and guided way means offer on the slider with the guided way shape, the same spout of size, make the slider can overlap and establish on the guided way to freely slide along the guided way, first mounting bracket and locating rack all slide on the mount along the guided way like this, are favorable to improving first mounting bracket and locating rack along the gliding stability of mount.

The utility model discloses further set up to, fixedly connected with wears to locate the dead lever on the second mounting bracket on the locating rack, the one end fixedly connected with backup pad of locating rack is kept away from to the dead lever, backup pad and dead lever all rotate with the second mounting bracket and are connected. The dead lever is equipped with the bull wheel, be provided with drive bull wheel pivoted driving source on the locating rack, the bull wheel is located between locating rack and the second mounting bracket, fixedly connected with and bull wheel matched with little runner on the second mounting bracket.

Implement above-mentioned technical scheme, the second mounting bracket passes through dead lever and backup pad and is connected with the locating rack, and the backup pad is located the second mounting bracket promptly, supports the second mounting bracket, and simultaneously, the second mounting bracket can be relative dead lever and backup pad rotate. The second mounting bracket pivoted bull wheel of drive is established to the cover on the dead lever, and the bull wheel rotates under the driving action of driving source, drives the circumference removal along the bull wheel with bull wheel matched with little runner, rotates thereupon with little runner fixed connection's second mounting bracket. The matching between the small rotating wheel and the large rotating wheel means that the teeth on the periphery of the small rotating wheel are meshed with the teeth on the periphery of the large rotating wheel, so that the small rotating wheel can be clamped on the large rotating wheel and can move along with the rotation of the large rotating wheel.

The utility model discloses further set up to, advance the piece platform and go out the piece bench and all be provided with transfer roller and locating component, locating component is located the position that advances the piece platform and go out the piece platform and be close to the water receiving tank.

Implement above-mentioned technical scheme, add man-hour to glass, treat that the glass of edging processing conveys edging mechanism department by advancing the conveying roller on the piece bench, advances the positioning assembly on the piece bench and fixes a position glass, and movable edging assembly carries out the edging to one side that glass orientation goes out the piece platform. Then glass conveys under the effect of transfer roller to a piece platform, and in the data send process, fixed edging subassembly and activity edging subassembly carry out the edging processing to glass's both sides, and when glass moved to edging mechanism department towards advancing piece platform one side, the locating component of going out the piece bench was fixed a position glass, and the activity edging subassembly advances piece platform one side towards glass and carries out the edging, accomplishes the edging processing.

The utility model discloses further set up to, locating component includes fixed connection in advance the piece platform or go out the fixed case of piece bench, one side that fixed case is close to the transfer roller is provided with the fixed plate, be connected with the lifter between fixed plate and the fixed case, fixedly connected with tight pulley on the fixed plate.

Implement above-mentioned technical scheme, when fixing a position glass, the fixed plate descends under the effect of lifter, and the tight pulley of fixed plate below descends thereupon, makes tight pulley and glass offset, presss from both sides glass between tight pulley and transfer roller, realizes fixing glass. After the processing is finished, the lifting rod rises to drive the fixed plate and the fixed wheel to rise along with the lifting rod, and the glass is released from being fixed.

The utility model discloses further set up to, the tight pulley is provided with threely on the fixed plate.

Implement above-mentioned technical scheme, three tight pulley is contradicted with glass, is favorable to homodisperse fixed wheel to glass pushing down force, reduces the tight pulley and causes the damage to it when fixed glass.

To sum up, the utility model discloses following beneficial effect has:

one, through set up fixed edging subassembly and activity edging subassembly on the mount, need not to rotate glass, just can accomplish the edging processing to glass in glass's conveying moves, it is high-efficient to process.

And secondly, the water retaining assembly is arranged on the first mounting frame and the second mounting frame, so that the residue of cooling water on the glass can be reduced in the processing process, and the cooling water dropping on the glass falls into the water receiving tank along the edge of the glass.

And the shell for coating the upper grinding wheel and the lower grinding wheel is sleeved on the upper grinding wheel and the lower grinding wheel for grinding the glass, so that the safety of the operation of the grinding wheel is improved, and the dropping and the residue of cooling water on the glass are reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of a portion B in fig. 1.

Fig. 4 is the schematic structural diagram of the fixed edging assembly of the present invention.

Fig. 5 is the utility model discloses the explosion picture behind the movable edging subassembly hiding the cover shell.

Reference numerals: 1. a sheet feeding table; 11. a conveying roller; 12. a positioning assembly; 121. a fixed box; 122. a fixing plate; 123. a lifting rod; 124. a fixed wheel; 2. an edge grinding mechanism; 21. a fixed mount; 211. a guide rail; 22. fixing the edge grinding assembly; 221. a first mounting bracket; 222. a slider; 23. a movable edging assembly; 231. a second mounting bracket; 232. a positioning frame; 233. fixing the rod; 234. a support plate; 235. a large rotating wheel; 236. a small rotating wheel; 24. an upper grinding wheel set; 241. an upper grinding wheel; 242. an upper drive member; 25. a lower grinding wheel set; 251. a lower grinding wheel; 252. a lower driving member; 26. a water retaining assembly; 261. a water retaining brush is arranged; 262. a lower water retaining brush; 27. a housing; 271. grinding an edge opening; 272. a water leakage port; 3. a sheet discharging table; 4. a water receiving tank.

Detailed Description

The technical solution of the embodiment of the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the full-automatic glass edge grinding machine comprises a sheet feeding table 1, an edge grinding mechanism 2 and a sheet discharging table 3, wherein the edge grinding mechanism 2 is positioned between the sheet feeding table 1 and the sheet discharging table 3, and a water receiving tank 4 is arranged below the edge grinding mechanism 2, so that water for cooling a grinding wheel falls into the water receiving tank 4. The edging structure includes the mount 21 adjacent and parallel with water receiving tank 4, and sliding connection has a fixed edging subassembly 22 and a activity edging subassembly 23 on mount 21, and fixed edging subassembly 22 is used for edging glass's side, and activity edging subassembly 23 is used for edging the processing of three edges in addition of glass. All be provided with transfer roller 11 and locating component 12 on advancing piece platform 1 and play piece platform 3, treat that the glass of processing is placed advance piece platform 1 on, carry to edging mechanism 2 departments by transfer roller 11, locating component 12 fixes glass, and activity edging component 23 is edging the curb plate of 3 one sides of piece platform towards glass. After the edging is accomplished, activity edging subassembly 23 moves to the right of mount 21, and activity edging subassembly 23 clockwise turning ninety degrees makes activity edging subassembly 23 towards the centre of mount 21, and locating component 12 removes the fixed to glass, and glass continues to convey to piece platform 3. In the data send process, fixed edging subassembly 22 and activity edging subassembly 23 carry out the edging to the left and right sides of glass respectively and handle, and when glass moved to edging mechanism 2 department towards the border of advancing piece platform 1 one side, the positioning mechanism on the play piece platform 3 was fixed with glass, and activity edging subassembly 23 continues clockwise rotation ninety degrees, carries out the edging to glass's last border. After the processing is finished, the movable edging assembly 23 is just positioned on the left side of the fixing frame 21, and after the movable edging assembly rotates one hundred eighty degrees clockwise, the edge of the next piece of glass is edged.

As shown in fig. 1 and 2, the positioning assembly 12 includes a fixing box 121 fixedly connected to the sheet feeding table 1 or the sheet discharging table 3, a fixing plate 122 is disposed below the fixing box 121, the fixing plate 122 is connected to the fixing box 121 through a lifting rod 123, and three fixing wheels 124 are fixedly connected to the fixing plate 122. When fixing the glass, the lifting rod 123 is extended, the fixing plate 122 fixedly connected to the lifting rod 123 moves downward, the fixing wheel 124 on the fixing plate 122 abuts against the upper surface of the glass, and the glass is fixed by being loaded between the conveying roller 11 and the fixing wheel 124. After the edge grinding is completed, the lifting rod 123 is shortened, the fixing plate 122 fixedly connected with the lifting rod 123 moves upwards, and the fixing wheel 124 on the fixing plate 122 moves upwards along with the lifting rod, so that the glass is fixed in a contact manner.

As shown in fig. 1, 3 and 4, the fixed edging assembly 22 and the movable edging assembly 23 are both located above the water receiving tank 4 and slide left and right along the fixing frame 21, two guide rails 211 are provided on the fixing frame 21, and sliders 222 matched with the guide rails 211 are provided on the first mounting frame 221 and the positioning frame 232. The matching here means that the sliding block 222 can be sleeved on the guide rail 211 and slide left and right along the guide rail 211. The fixed edge grinding assembly 22 comprises a first mounting frame 221, the first mounting frame 221 is slidably connected with the fixing frame 21, and an upper grinding wheel set 24 and a lower grinding wheel set 25 are fixedly connected to the first mounting frame 221. Activity edging subassembly 23 includes second mounting bracket 231, and the upper end side rotation of second mounting bracket 231 is connected with locating rack 232, also fixedly connected with goes up grinding wheel group 24 and lower grinding wheel group 25 on the second mounting bracket 231. The upper grinding wheel group 24 includes an upper grinding wheel 241 and an upper driving member 242 (see fig. 5) for driving the upper grinding wheel 241 to rotate, and the lower grinding wheel group 25 includes a lower grinding wheel 251 and a lower driving member 252 (see fig. 5) for driving the upper grinding wheel 241 to rotate with efficiency. The jacket 27 is sleeved outside the upper grinding wheel 241 and the lower grinding wheel 251, the jacket 27 is provided with a grinding edge opening 271 and a water leakage port 272, the horizontal height of the grinding edge opening 271 is the same as the position between the upper grinding wheel 241 and the lower grinding wheel 251, so that after the glass extends into the jacket 27 from the grinding edge opening 271, the upper grinding wheel 241 and the lower grinding wheel 251 can grind the glass, and the water leakage port 272 is positioned on the lower end surface of the jacket 27, so that cooling water for cooling the upper grinding wheel 241 and the lower grinding wheel 251 flows into the water receiving tank 4 from the water leakage port 272. Equal fixedly connected with manger plate subassembly 26 on first mounting bracket 221 and second mounting bracket 231, manger plate subassembly 26 is located edging mouth 271 department, and manger plate subassembly 26 includes manger plate brush 261 and lower manger plate brush 262, goes up manger plate brush 261 fixed connection in the upper end of edging mouth 271, and manger plate brush 262 fixed connection is in the lower extreme of edging mouth 271.

As shown in fig. 5, a fixing rod 233 is fixedly connected to a lower end of the positioning frame 232 and penetrates the second mounting frame 231, a supporting plate 234 is fixedly connected to a lower end of the fixing rod 233, the supporting plate 234 is located in the second mounting frame 231, and both the supporting plate 234 and the fixing rod 233 are rotatably connected to the second mounting frame 231. The fixed rod 233 is sleeved with a large rotating wheel 235, the positioning frame 232 is provided with a driving source (not shown in the figure) for driving the large rotating wheel 235 to rotate, the large rotating wheel 235 is positioned between the positioning frame 232 and the second mounting frame 231, and the second mounting frame 231 is fixedly connected with a small rotating wheel 236 matched with the large rotating wheel 235. The driving source of this embodiment adopts a motor, and the cooperation here means that the small wheel 236 is meshed with the large wheel 235, the large wheel 235 rotates under the driving of the motor, and can drive the small wheel 236 to move along the periphery of the large wheel 235, and the second mounting bracket 231 fixedly connected with the small wheel 236 rotates along the large wheel 235 with the fixing rod 233 as the center.

The utility model discloses when using, place glass advancing piece platform 1 on, glass is transmitted to edging mechanism 2 department by transfer roller 11, at this moment, fixed edging subassembly 22 and activity edging subassembly 23 all are located the left side of mount 21, advance the locating component 12 on the piece platform 1 and fix glass, extension through lifter 123 makes fixed plate 122 and tight pulley 124 move down, press from both sides glass between transfer roller 11 and tight pulley 124, the edging mouth 271 orientation of activity edging subassembly 23 advances piece platform 1, activity edging subassembly 23 moves glass and carries out the edging by the left right side. In the edging process, water for cooling the upper grinding wheel 241 and the lower grinding wheel 251 falls on the glass, and the upper water blocking brush 261 can not only prevent cooling water from spreading on the glass, but also brush the water to the edge of the glass, so that the water slides from the edge of the glass, and the accumulation of the cooling water on the glass is reduced. After movable edging subassembly 23 moved the right side of mount 21, rotate ninety degrees clockwise, make edging mouth 271 towards the central authorities of mount 21, fixed edging subassembly 22 also has moved to having, makes edging mouth 271 of fixed edging subassembly 22 be located the removal route on glass border. The lifting rod 123 on the sheet feeding table 1 contracts to drive the fixing plate 122 and the fixing wheel 124 to move upwards, so that the locking of the glass is released, the glass continues to move towards the sheet discharging table 3, and in the moving process, the fixed edging assembly 22 and the movable edging assembly 23 perform edging treatment on two sides of the glass. Glass moves to on the platform 3 of drawing a sheet, when glass moves to edging mechanism 2 towards the border of advancing platform 1 one side, and activity edging subassembly 23 clockwise turning ninety degrees makes the edging mouth 271 of activity edging subassembly 23 towards the platform 3 of drawing a sheet, and activity edging subassembly 23 moves to the left side of mount 21, and fixed edging subassembly 22 also moves to the left side, makes activity edging subassembly 23 accomplish the edging to glass. The glass after edging is conveyed away by the sheet outlet table 3, the movable edging assembly 23 continues to rotate clockwise by one hundred eighty degrees, the edging port 271 faces the sheet inlet table 1 and moves rightwards, the edge of the next piece of glass is edged, and the operation is repeated.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The full-automatic glass edge grinding machine comprises a sheet inlet table (1), an edge grinding mechanism (2) and a sheet outlet table (3), wherein a water receiving tank (4) is arranged between the sheet inlet table (1) and the sheet outlet table (3), and the full-automatic glass edge grinding machine is characterized in that the edge grinding mechanism (2) comprises a fixing frame (21) which is adjacent to and parallel to the water receiving tank (4), and at least one fixed edge grinding assembly (22) and at least one movable edge grinding assembly (23) are connected onto the fixing frame (21) in a sliding manner; the fixed edging assembly (22) and the movable edging assembly (23) are both positioned above the water receiving tank (4), the fixed edging assembly (22) comprises a first mounting frame (221), the first mounting frame (221) is in sliding connection with the fixing frame (21), and an upper grinding wheel group (24) and a lower grinding wheel group (25) are fixedly connected to the first mounting frame (221); the movable edge grinding assembly (23) comprises a second mounting frame (231), one side, far away from the water receiving tank (4), of the second mounting frame (231) is rotatably connected with a positioning frame (232), the positioning frame (232) is in sliding connection with the fixing frame (21), and an upper grinding wheel group (24) and a lower grinding wheel group (25) are also fixedly connected to the second mounting frame (231); the water-retaining device is characterized in that the first mounting frame (221) and the second mounting frame (231) are fixedly connected with a water-retaining assembly (26), and the water-retaining assembly (26) is located between the upper grinding wheel set (24) and the lower grinding wheel set (25).

2. The glass full-automatic edge grinding machine according to claim 1, wherein the upper grinding wheel set (24) comprises an upper grinding wheel (241) and an upper driving element (242) for driving the upper grinding wheel (241) to rotate, the lower grinding wheel set (25) comprises a lower grinding wheel (251) and a lower driving element (252) for driving the lower grinding wheel (251) to rotate, a casing (27) is sleeved outside the upper grinding wheel (241) and the lower grinding wheel (251), an edge grinding opening (271) and a water leakage opening (272) are formed in the casing (27), the horizontal height of the edge grinding opening (271) is the same as the position between the upper grinding wheel (241) and the lower grinding wheel (251), and the water leakage opening (272) is positioned on one side of the casing (27) close to the water receiving groove (4).

3. The full-automatic glass edge grinding machine according to claim 2, wherein the water retaining assembly (26) is located at the edge grinding opening (271), the water retaining assembly (26) comprises an upper water retaining brush (261) and a lower water retaining brush (262), the upper water retaining brush (261) is fixedly connected to one side of the edge grinding opening (271) far away from the water receiving tank (4), and the lower water retaining brush (262) is fixedly connected to one side of the edge grinding opening (271) close to the water receiving tank (4).

4. The full-automatic glass edge grinding machine according to claim 1, wherein the fixing frame (21) is provided with at least one guide rail (211), and the first mounting frame (221) and the positioning frame (232) are provided with sliding blocks (222) matched with the guide rail (211).

5. The full-automatic glass edge grinding machine according to claim 1, wherein a fixing rod (233) penetrating through the second mounting frame (231) is fixedly connected to the positioning frame (232), a supporting plate (234) is fixedly connected to one end, far away from the positioning frame (232), of the fixing rod (233), and the supporting plate (234) and the fixing rod (233) are both rotatably connected to the second mounting frame (231); the cover is equipped with bull wheel (235) on dead lever (233), be provided with drive bull wheel (235) pivoted driving source on locating rack (232), bull wheel (235) are located between locating rack (232) and second mounting bracket (231), fixedly connected with and bull wheel (235) matched with little runner (236) on second mounting bracket (231).

6. The full-automatic glass edge grinding machine according to claim 1, wherein the sheet feeding table (1) and the sheet discharging table (3) are respectively provided with a conveying roller (11) and a positioning assembly (12), and the positioning assembly (12) is positioned at a position where the sheet feeding table (1) and the sheet discharging table (3) are close to the water receiving tank (4).

7. The full-automatic glass edge grinding machine according to claim 6, wherein the positioning assembly (12) comprises a fixing box (121) fixedly connected to the sheet feeding table (1) or the sheet discharging table (3), a fixing plate (122) is arranged on one side, close to the conveying roller (11), of the fixing box (121), a lifting rod (123) is connected between the fixing plate (122) and the fixing box (121), and a fixing wheel (124) is fixedly connected to the fixing plate (122).

8. The glass full-automatic edging machine according to claim 7, characterized in that said fixed wheels (124) are provided in three on the fixed plate (122).

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