CN211163349U - Take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes - Google Patents

Abstract

The utility model discloses a take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes, include: the machine body is provided with two conveying belts, a moving edge and a fixed edge, and the conveying belts are respectively arranged on the inner sides of the moving edge and the fixed edge; two groups of edge grinding devices are respectively arranged on the moving edge and the fixed edge; the two groups of film removing mechanisms are respectively arranged on the moving edge and the fixed edge and are used for removing films in specific areas on the coated glass; the width adjusting mechanism is arranged on the machine body and used for driving the movable edge to open and close; and the controller is electrically connected with the edge grinding device, the film removing mechanism and the width adjusting mechanism respectively. This bilateral edging machine of high-speed glass passes through controller control edging device, removes the work of membrane mechanism and width modulation mechanism, can carry out the edging and remove the membrane to coated glass simultaneously to reduce customer equipment and purchase, reduce about half occupation of land and manual work than traditional edging, removing the membrane, make things convenient for assembly line operation.

Description

Take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes

Technical Field

The utility model relates to a glass edging machine technical field especially relates to a take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes.

Background

Glass is widely used in our living environment, for insulating against wind and transmitting light in buildings, and for enhancing the aesthetic sense in furniture. With the wide application of glass, some of the existing coated glass requires that four bottom edges are smooth, and a film with a certain width on the surface at a certain distance from the edge part is removed, so as to facilitate the arrangement of other processes.

At present, for the processing of the coated glass, after four edges are ground on a glass edge grinding machine, a special film removing machine is used for processing and removing a film in a certain area on the coated glass, and the processing mode causes the trouble of using equipment, long consumption period, large floor area, more manpower and unstable quality of the processed coated glass.

SUMMERY OF THE UTILITY MODEL

In order to overcome above-mentioned prior art an at least defect, the utility model provides a take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes.

The utility model discloses a solve the technical scheme that its problem adopted and be:

the utility model provides a take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes, includes:

the machine body is provided with two conveying belts, a moving edge and a fixed edge, and the two conveying belts are respectively arranged on the inner sides of the moving edge and the fixed edge;

two groups of edge grinding devices are respectively arranged on the moving edge and the fixed edge;

the two groups of film removing mechanisms are respectively arranged on the moving edge and the fixed edge and are used for removing films in specific areas on the coated glass;

the width adjusting mechanism is arranged on the machine body and used for driving the movable edge to open and close;

and the controller is electrically connected with the edge grinding device, the film removing mechanism and the width adjusting mechanism respectively.

The utility model provides a bilateral edging machine of high-speed glass through controller control edging device, removes membrane mechanism and transfers the work of wide mechanism, can carry out the edging and remove the membrane to coated glass simultaneously to reduce customer equipment and purchase, than traditional edging, remove the membrane and reduce about half occupation of land and manual work, make things convenient for assembly line operation.

Further, the edging device includes rough edging mechanism, accurate edging mechanism and chamfer edging mechanism, rough edging mechanism, accurate edging mechanism, chamfer edging mechanism and remove the membrane mechanism and set gradually along feed direction.

Therefore, the processing of the coated glass can be completed at one time, and the production efficiency of the coated glass is improved.

Further, rough edging mechanism, accurate grinding mechanism and chamfer edging mechanism all include edging wheel, edging motor, first slide, first fixing base and edging advance and retreat mechanism, edging wheel and edging motor set up in first slide, first slide set up in first fixing base, edging motor drive the edging wheel rotates, edging advance and retreat mechanism drive first slide is in slide on the first fixing base, the edging motor with the controller electricity is connected.

Therefore, the edge grinding advancing and retreating mechanism is used for controlling the advancing and retreating actions of the edge grinding wheel so as to complete the setting of different edge grinding feed amounts, and the controller is used for controlling the opening and the rotating speed of the edge grinding motor.

The device further comprises an upper pressing mechanism, wherein the upper pressing mechanism is arranged above the conveying belt, and the upper pressing mechanism is matched with the conveying belt to clamp and convey the coated glass.

Further, go up hold-down mechanism includes the hold-in range, the hold-in range be used for with one side of coated glass contact is provided with the buffer layer.

Further, the buffer layer is made of PU material or sponge material.

Therefore, the buffer layer made of PU material or sponge material can protect the film layer of the coated glass from being damaged, and the coated glass can bear the pressure generated during grinding or film removal, so that the coated glass is prevented from being broken or damaged due to shearing force.

Further, the film removing mechanism comprises a film removing wheel, a film removing motor, a fine adjustment cylinder, a second sliding seat, a film removing lifting mechanism, a third sliding seat, a film removing driving and reversing mechanism and a second fixing seat, the film removing wheel is installed at the output end of the film removing motor, the film removing motor is hinged to the second sliding seat, the fine adjustment cylinder is hinged to the film removing motor and the second sliding seat respectively, the second sliding seat is vertically and slidably connected to the third sliding seat, the third sliding seat is horizontally and slidably connected to the second fixing seat, the film removing lifting mechanism drives the second sliding seat to vertically slide on the third sliding seat, and the film removing driving and reversing mechanism drives the third sliding seat to horizontally slide on the second fixing seat.

From this, the degree of depth that removes the membrane and the distance to the limit have the control of removing membrane elevating system and removing membrane advancing and retreating mechanism, and it is convenient to adjust, and can make through fine setting cylinder and remove the membrane wheel and have certain floating function, when coated glass's thickness size slightly changed, can not lead to coated glass to receive the shearing force effect and fracture.

Further, remove membrane elevating system and include lift driving motor, worm wheel, lift accommodate the lead screw and lift slide, the worm wheel install in lift driving motor's output, lift accommodate the lead screw respectively with the worm wheel and lift slide cooperation transmission is connected, lift slide connect in the second slide, lift driving motor with the controller electricity is connected.

Therefore, the controller automatically controls the film removing depth of the film removing lifting mechanism through the lifting driving motor, the vertical direction feed moving speed of the film removing wheel is reduced through the transmission mode of the worm wheel screw rod and the screw rod sliding plate, the feeding amount of the film removing wheel can be finely adjusted, and the trouble and the error of manual feeding are reduced.

Furthermore, the feeding ends of the movable edge and the fixed edge are provided with guiding and positioning mechanisms.

Therefore, the precision of edging and film removing is ensured by guiding the positioning mechanism.

Further, the glass grinding device further comprises a cooling water system, and the cooling water system cools the glass grinding area and the glass film removing area.

Therefore, the glass grinding area and the glass film removing area are cooled by the cooling water system, and the completion of glass grinding and film removing actions and the quality of the grinding and film removing are ensured.

To sum up, the utility model provides a bilateral edging machine of high-speed glass has following technological effect: the overall structure layout is reasonable, compact and flexible, the edge grinding, chamfering and film removing are simultaneously carried out on the coated glass on one device, the processing of the coated glass is completed at one time, so that the purchase of customer equipment is reduced, the occupied area and labor are reduced by about half compared with the traditional edge grinding and film removing, the assembly line operation is convenient, and the production efficiency of the coated glass is improved; the automation degree is high, the trouble and error of manual feeding are reduced, the labor cost is saved, and the production efficiency is further improved; the coated glass is not easy to damage in the processing process, and the yield is improved.

Drawings

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

FIG. 2 is a schematic structural diagram of the film removing mechanism shown in FIG. 1;

FIG. 3 is a schematic structural view of the rough edge grinding mechanism shown in FIG. 1;

FIG. 4 is an enlarged view of a portion A of FIG. 1;

FIG. 5 is an enlarged view of a portion B shown in FIG. 1;

fig. 6 is a sectional view of the film removing mechanism shown in fig. 3.

Wherein the reference numerals have the following meanings:

1. a conveyor belt; 11. a synchronous transport mechanism; 2. moving the edge; 3. fixing the edge; 4. an edge grinding device; 41. a rough edge grinding mechanism; 411. grinding an edge wheel; 412. an edging motor; 413. a first slider; 414. a first fixed seat; 415. an edging advancing and retreating mechanism; 42. a fine edge grinding mechanism; 43. chamfering and edging mechanism; 5. A film removing mechanism; 51. a film removing wheel; 52. a film removing motor; 53. fine adjustment of the cylinder; 54. a second slide carriage; 55. A film removing lifting mechanism; 551. a lifting drive motor; 552. a worm gear; 553. a lifting adjusting screw rod; 554. A lifting slide plate; 56. a third slide carriage; 57. a film removing driving and reversing mechanism; 58. a second fixed seat; 6. a width adjusting mechanism; 7. a controller; 8. an upper pressing mechanism; 81. a synchronous belt; 82. a buffer layer; 9. leading in a positioning mechanism; 10. a cooling water system.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 5, the utility model discloses a take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes, include: the device comprises a machine body, wherein two conveying belts 1, a moving edge 2 and a fixed edge 3 are arranged on the machine body, and the conveying belts 1 are respectively arranged on the inner sides of the moving edge 2 and the fixed edge 3; the two groups of edge grinding devices 4 are symmetrically arranged on the moving edge 2 and the fixed edge 3, and the edge grinding devices 4 are used for grinding the coated glass; the two groups of film removing mechanisms 5 are symmetrically arranged on the moving edge 2 and the fixed edge 3, and the film removing mechanisms 5 are used for removing films in specific areas on the coated glass; the width adjusting mechanism 6 is arranged on the machine body, and the width adjusting mechanism 6 is used for driving the movable edge 2 to open and close; the controller 7 is electrically connected with the edge grinding device 4, the film removing mechanism 5 and the width adjusting mechanism 6 respectively; the upper pressing mechanism 8 is arranged above the conveying belt 1, and the upper pressing mechanism 8 is matched with the conveying belt 1 to clamp and convey the coated glass; two groups of leading-in positioning mechanisms 9 are respectively arranged at the feeding ends of the movable edge 2 and the fixed edge 3 and used for adjusting the position of the coated glass so as to ensure the precision of edge grinding and film removal; and the cooling water system 10 cools the glass grinding area and the glass film removing area, so that the completion of glass grinding and film removing actions and the quality of the grinding and film removing are ensured.

The controller 7 can control the width adjusting mechanism 6 according to actual needs to change the relative distance between the movable edge 2 and the fixed edge 3, and can change the working states of the edge grinding device 4 and the film removing mechanism 5 so as to meet the working needs.

In this embodiment, the machine body is provided with a synchronous conveying mechanism 11, and the synchronous conveying mechanism 11 drives the two conveying belts 1 at the same time, so as to control the moving speeds of the coated glass on the moving edge 2 and the fixed edge 3 to be consistent. Specifically, synchronous transport mechanism 11 includes servo motor, speed adjusting box and transfer line, servo motor passes through speed adjusting box and is connected with the transfer line transmission, the transfer line with two the action wheel fixed connection of conveyer belt 1, so that servo motor can drive two simultaneously conveyer belt 1 simultaneous movement. The servo motor is electrically connected with the controller 7 so as to set and control the rotating speed of the conveying belt 1 through the controller 7. Indeed, the person skilled in the art may also use other structures of the synchronous transmission mechanism 11 to achieve the synchronous movement of the two conveyor belts 1, based on his common knowledge.

In this embodiment, the width adjusting mechanism 6 mainly comprises two width adjusting screw rods, two movable supports, two worm gear and screw transmission assemblies, a transmission rod and a servo motor. The width-adjusting screw rod is rotatably arranged on the machine body, the movable support is arranged on the moving edge 2, a screw rod nut meshed with the width-adjusting screw rod is arranged on the movable support, the worm gear screw rod transmission assemblies correspond to the precise screw rod assemblies respectively and are arranged on the machine body, the transmission rod is connected with the two worm gear screw rod transmission assemblies, and the servo motor is used for driving the transmission rod to rotate. When the transmission rod rotates, the two worm gear and screw transmission assemblies respectively drive the two width-adjusting screw rods to rotate so as to drive the moving edge 2 to lean against or be far away from the fixed edge 3, so that the glass processing machine is suitable for processing glass with different specifications. Indeed, on the basis of the common general knowledge of the person skilled in the art, other configurations of the width-adjusting mechanism 6 may be used to adjust the distance between the moving side 2 and the fixed side 3.

Referring to fig. 5, in the present embodiment, the upper pressing mechanism 8 is disposed above the conveying belt 1, the upper pressing mechanism 8 includes a synchronous belt 81, and a buffer layer 82 is disposed on a side of the synchronous belt 81, which is in contact with the coated glass. Wherein, buffer layer 82 is made for PU material or sponge material. Therefore, the buffer layer 82 made of PU material or sponge material can protect the film layer of the coated glass from being damaged, and the coated glass can bear the pressure generated during grinding or film removal, so that the coated glass is prevented from being broken or damaged due to shearing force. Indeed, the buffer layer 82 may be made of other flexible materials, and the material is preferably elastic.

Specifically, the upper hold-down mechanism 8 includes a first fixing plate and a second fixing plate, the first fixing plate and the second fixing plate are both located above the conveyor belt 1, the first fixing plate is provided with a first belt pulley and a second belt pulley, the first belt pulley is located above the second belt pulley, the second fixing plate is provided with a third belt pulley, the synchronous belt 81 is arranged between the first belt pulley, the second belt pulley and the third belt pulley, a hold-down frame is arranged between the first fixing plate and the second fixing plate, the hold-down frame is located in the synchronous belt 81, an upper hold-down block, a lower hold-down block and a spring plate connecting the upper hold-down block and the lower hold-down block are arranged on the hold-down frame, and the upper hold-down block and the lower hold-down block prop open the synchronous belt 81, so that the synchronous belt 81 keeps pressing the surface of the coated glass. Indeed, based on the common knowledge of those skilled in the art, the upper pressing mechanism 8 with other structures may be adopted to press the coated glass in cooperation with the conveyer belt 1.

In this embodiment, the leading-in positioning mechanism 9 includes positioning seat, locating plate and accommodate the lead screw, the positioning seat install in remove on limit 2 and the fixed limit 3, the locating plate with positioning seat sliding connection, the upper surface of locating plate is equipped with a plurality of evenly distributed's depended wheel, the lower level of locating plate is connected with the screw seat, accommodate the lead screw one end pass the screw seat and with screw seat threaded connection, accommodate the lead screw's the other end is connected with the hand wheel, accommodate the lead screw rotate connect in the positioning seat. When the coated glass to be processed is placed on the conveying belt 1, two sides of the coated glass to be processed are always in contact with the idler wheels, so that the coated glass to be processed can enter the conveying belt 1 neatly and stably; when the hand wheel is screwed, the adjusting screw rod drives the positioning plate to slide relative to the positioning seat so as to adjust the relative position of the idler wheel, so that the guiding and positioning mechanism 9 is suitable for coated glass to be processed with different widths. Indeed, based on the common knowledge of those skilled in the art, the guiding-in positioning mechanism 9 with other structures may be adopted to realize that the coated glass to be processed can enter the conveyer belt 1 neatly and stably.

Referring to fig. 1 and 4, in the present embodiment, the edge grinding device 4 includes a rough edge grinding mechanism 41, a fine edge grinding mechanism 42, and a chamfer edge grinding mechanism 43. Wherein, rough edging mechanism 41 is provided with two sets ofly, fine edging mechanism 42 is provided with a set ofly, chamfer edging mechanism 43 is provided with two sets ofly in order to be right respectively coated glass carries out upper and lower chamfer, and two rough edging mechanism 41, fine edging mechanism 42, two chamfer edging mechanisms 43 and remove that membrane mechanism 5 sets gradually along feed direction. Therefore, the processing of the coated glass can be completed at one time, and the production efficiency of the coated glass is improved.

It is true that the rough edge grinding mechanism 41 may be provided with one or three sets, etc., the fine edge grinding mechanism 42 may be provided with two or three sets, etc., and the chamfer edge grinding mechanism 43 may be provided with four or six sets, etc., and the number of sets of each edge grinding mechanism is not particularly limited, depending on the actual requirements of the design.

In the present embodiment, the structures of the rough edge grinding mechanism 41, the fine edge grinding mechanism 42 and the chamfer edge grinding mechanism 43 are the same, and the differences only exist in different specifications of the edge grinding wheels and different installation positions and inclination angles, so as to save the production cost and the maintenance cost of the equipment. Taking the rough edging mechanism 41 as an example, the structure thereof is described specifically, and the specific structures of the fine edging mechanism 42 and the chamfering edging mechanism 43 can be referred to the specific structure of the rough edging mechanism 41.

Referring to fig. 3, in this embodiment, rough edging mechanism 41 includes edging wheel 411, edging motor 412, first slide 413, first fixing base 414 and edging advancing and retreating mechanism 415, edging wheel 411 and edging motor 412 set up in first slide 413, first slide 413 slide set up in first fixing base 414, edging motor 412 drives edging wheel 411 rotates, edging advancing and retreating mechanism 415 drives first slide 413 slide on first fixing base 414, edging motor 412 with the controller 7 electricity is connected. The edging advancing and retreating mechanism 415 adopts a screw rod sliding plate transmission mode, and realizes the relative sliding between the first sliding seat 413 and the first fixed seat 414 by rotating a hand wheel at one end of a screw rod. Accordingly, the setting of different edging feed amounts is completed by controlling the feed and retraction operation of the edging wheel 411 by the edging feed and retraction mechanism 415, and the controller 7 controls the turning on and the rotation speed of the edging motor 412.

Referring to fig. 2, in the present embodiment, the film removing mechanism 5 includes a film removing wheel 51, a film removing motor 52, a fine tuning cylinder 53, a second slide carriage 54, a film removing lifting mechanism 55, a third slide carriage 56, a film removing driving and reversing mechanism 57, and a second fixed seat 58, the film removing wheel 51 is installed at an output end of the film removing motor 52, the film removing motor 52 is hinged to the second slide carriage 54, the fine tuning cylinder 53 is hinged to the film removing motor 52 and the second slide carriage 54, the second slide carriage 54 is vertically and slidably connected to the third slide carriage 56, the third slide carriage 56 is horizontally and slidably connected to the second fixed seat 58, the film removing lifting mechanism 55 drives the second slide carriage 54 to vertically slide on the third slide carriage 56, and the film removing driving and reversing mechanism 57 drives the third slide carriage 56 to horizontally slide on the second fixed seat 58.

Therefore, the film removing lifting mechanism 55 and the film removing driving and reversing mechanism 57 are used for controlling the film removing depth and the distance to the edge, the adjustment is convenient, the film removing wheel 51 can have a certain floating function through the fine adjustment air cylinder 53, and when the thickness of the coated glass is slightly changed, the coated glass cannot be broken under the action of shearing force.

Referring to fig. 3 and 6, in the present embodiment, the film removing lifting mechanism 55 includes a lifting driving motor 551, a worm wheel 552, a lifting adjusting screw 553, and a lifting slide 554, the worm wheel 552 is installed at an output end of the lifting driving motor 551, the lifting adjusting screw 553 is respectively connected to the worm wheel 552 and the lifting slide 554 in a matching transmission manner, the lifting slide 554 is connected to the second slide 54, and the lifting driving motor 551 is electrically connected to the controller 7. When the film removing mechanism 5 works, the controller 7 automatically controls the film removing depth of the film removing lifting mechanism 55 through the lifting driving motor 551, and the vertical direction feed moving speed of the film removing wheel 51 is reduced through the transmission mode of the worm gear screw rod and the screw rod sliding plate, so that the feeding amount of the film removing wheel 51 can be finely adjusted, and the trouble and the error of manual feeding are reduced.

In this embodiment, the film removing driving and reversing mechanism 57 adopts a screw rod sliding plate transmission manner, and a hand wheel at one end of a rotating screw rod is used for realizing the relative sliding between the third sliding seat 56 and the second fixed seat 58. Thus, the film removing advancing and retreating mechanism 57 controls the film removing position of the film removing wheel 51 and the edge distance of the coated glass, so as to complete the setting of different film removing positions.

To sum up, the high-speed glass bilateral edge grinding machine provided by the utility model has reasonable, compact and flexible overall structure layout, can simultaneously carry out edge grinding, chamfering and film removal on coated glass on one piece of equipment, and can complete the processing of the coated glass at one time so as to reduce the purchase of client equipment, reduce about half of occupied area and labor compared with the traditional edge grinding and film removal, facilitate the assembly line operation and improve the production efficiency of the coated glass; the automation degree is high, the trouble and error of manual feeding are reduced, the labor cost is saved, and the production efficiency is further improved; the coated glass is not easy to damage in the processing process, and the yield is improved.

The technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by the arbitrary combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides a take bilateral edging machine of high-speed glass of full-automatic membrane mechanism that removes, its characterized in that includes:

the device comprises a machine body, a positioning device and a control device, wherein two conveying belts, a moving edge and a fixed edge are arranged on the machine body, and the conveying belts are respectively arranged on the inner sides of the moving edge and the fixed edge;

two groups of edge grinding devices are respectively arranged on the moving edge and the fixed edge;

the two groups of film removing mechanisms are respectively arranged on the moving edge and the fixed edge and are used for removing films in specific areas on the coated glass;

the width adjusting mechanism is arranged on the machine body and used for driving the movable edge to open and close;

and the controller is electrically connected with the edge grinding device, the film removing mechanism and the width adjusting mechanism respectively.

2. The high-speed glass double-edge edging machine according to claim 1, wherein the edging device comprises a rough edging mechanism, a fine edging mechanism and a chamfering edging mechanism, which are sequentially arranged along a feeding direction.

3. The high-speed glass double-side edge grinding machine according to claim 2, wherein the rough edge grinding mechanism, the fine edge grinding mechanism and the chamfering edge grinding mechanism each comprise an edge grinding wheel, an edge grinding motor, a first slide seat, a first fixed seat and an edge grinding advancing and retreating mechanism, the edge grinding wheel and the edge grinding motor are arranged on the first slide seat, the first slide seat is arranged on the first fixed seat in a sliding manner, the edge grinding motor drives the edge grinding wheel to rotate, the edge grinding advancing and retreating mechanism drives the first slide seat to slide on the first fixed seat, and the edge grinding motor is electrically connected with the controller.

4. The high-speed glass double-edge edging machine according to claim 1, further comprising an upper pressing mechanism disposed above the conveyor belt, the upper pressing mechanism cooperating with the conveyor belt to grip and convey coated glass.

5. The high-speed glass double-edge edging machine according to claim 4, wherein the upper pressing mechanism comprises a synchronous belt, and a buffer layer is arranged on one side of the synchronous belt, which is in contact with the coated glass.

6. The high-speed glass double-edge edging machine according to claim 5, wherein the buffer layer is made of PU material or sponge material.

7. The high-speed glass bilateral edge grinding machine according to claim 1, wherein the film removing mechanism comprises a film removing wheel, a film removing motor, a fine adjustment cylinder, a second slide seat, a film removing lifting mechanism, a third slide seat, a film removing driving and reversing mechanism and a second fixed seat, the film removing wheel is mounted at an output end of the film removing motor, the film removing motor is hinged to the second slide seat, the fine adjustment cylinder is respectively hinged to the film removing motor and the second slide seat, the second slide seat is vertically and slidably connected to the third slide seat, the third slide seat is horizontally and slidably connected to the second fixed seat, the film removing lifting mechanism drives the second slide seat to vertically slide on the third slide seat, and the film removing driving and reversing mechanism drives the third slide seat to horizontally slide on the second fixed seat.

8. The high-speed glass bilateral edge grinding machine according to claim 7, wherein the film removing lifting mechanism comprises a lifting driving motor, a worm wheel, a lifting adjusting screw rod and a lifting sliding plate, the worm wheel is mounted at an output end of the lifting driving motor, the lifting adjusting screw rod is respectively in transmission connection with the worm wheel and the lifting sliding plate in a matching manner, the lifting sliding plate is connected to the second sliding base, and the lifting driving motor is electrically connected with the controller.

9. The high-speed glass double-edge edging machine according to any one of claims 1 to 8, wherein the feed ends of the moving edge and the fixed edge are provided with a guiding and positioning mechanism.

10. The high-speed glass double-edge edging machine according to any one of claims 1 to 8, further comprising a cooling water system that cools the glass grinding area and the glass film removal area.

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