CN210163327U - Glass lobe of a leaf device - Google Patents

Abstract

The utility model provides a glass lobe of a leaf device, include: a base platform, a first compressing component, a second compressing component, a rotating component and a translation component, wherein the first compressing component is fixedly arranged on the base platform, the rotating component is arranged on the base platform through the translation component, and is positioned at one side of the first compressing component, the second compressing component is connected with the rotating component through a first rotating shaft, and rotates synchronously with the first rotating shaft, the plane of a second carrying platform in the second pressing component is flush with the plane of a first carrying platform in the first pressing component, the first pressing component and the second pressing component simultaneously press the glass plate, the first rotating shaft of the rotating component drives the second pressing component to rotate, meanwhile, the translation assembly drives the rotating assembly to do translation motion relative to the first pressing assembly, the rotating assembly is far away from the first pressing assembly, the glass plate is broken off, and glass sheet breaking operation is completed. The problem of among the prior art glass sheet edge that produces when carrying out glass lobe of a leaf bursts apart, unevenness is solved.

Description

Glass lobe of a leaf device

Technical Field

The utility model relates to a glass processing technology field, concretely relates to glass lobe of a leaf device.

Background

In the panel industry, the sheet splitting device for realizing the glass sheet splitting operation in the prior art adopts a sheet splitting mode of pressing impact, and when the sheet splitting operation is carried out on a glass sheet, trimming cannot be realized, the edge of the glass sheet is cracked or uneven easily, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a glass lobe of a leaf device to solve among the prior art the glass plate edge that produces when carrying out the glass lobe of a leaf operation and collapse the problem of splitting, unevenness.

In order to achieve the above object, the utility model provides a glass lobe device, which comprises a basic platform; the first pressing assembly is arranged on the base platform and comprises a first carrying platform, a first supporting frame, a first driver and a first pressing plate, the first carrying platform is fixed on the base platform, the first supporting frame is fixed on the first carrying platform, the first driver is fixed on the first supporting frame, the power output end of the first driver is connected with the first pressing plate, and the first pressing plate is positioned right above the first carrying platform; the rotating assembly is arranged on the base platform and is positioned on one side of the first pressing assembly, the rotating assembly comprises a motor, a first rotating shaft and a first fixed seat, an output shaft of the motor is connected with the first rotating shaft so as to drive the first rotating shaft to rotate, and the first fixed seat is arranged on the base platform and is used for supporting the motor and the first rotating shaft; the second pressing assembly comprises a second carrying platform, a second supporting frame, a second driver and a second pressing plate, the second carrying platform is fixed with the first rotating shaft and rotates synchronously with the first rotating shaft, the plane of the second carrying platform is flush with the plane of the first carrying platform, the second supporting frame is fixed on the second carrying platform, the second driver is fixed on the second supporting frame, the power output end of the second driver is connected with the second pressing plate, and the second pressing plate is positioned right above the second carrying platform; the translation assembly is arranged between the rotating assembly and the basic platform, and when the motor drives the first rotating shaft to rotate, the translation assembly simultaneously drives the rotating assembly to make translational motion relative to the first compressing assembly.

Furthermore, the glass splitting device also comprises a CCD detection assembly used for sensing the position of the glass, and the CCD detection assembly comprises a CCD and a CCD fixing frame used for fixing the CCD on the basic platform.

Furthermore, the rotating assembly further comprises a second rotating shaft and a second fixed seat, the second fixed seat is arranged on the base platform, the second rotating shaft is arranged on the second fixed seat and is fixedly connected with the second carrying platform, and the second rotating shaft and the first rotating shaft coaxially rotate.

Further, the first fixed seat comprises a first base and a first bearing seat arranged on the first base and used for supporting the first rotating shaft; the second fixing seat comprises a second base and a second bearing seat arranged on the second base and used for supporting the second rotating shaft.

Further, the rotating assembly further comprises a first shaft seat and a second shaft seat, the first shaft seat is arranged between the first rotating shaft and the second carrying platform, and the second shaft seat is arranged between the second rotating shaft and the second carrying platform.

Further, the rotating assembly further comprises a speed reducer and a coupler, the speed reducer is arranged between the motor and the first rotating shaft, and the coupler is arranged between the speed reducer and the first rotating shaft.

Furthermore, the translation assembly comprises a motion platform and a guide rail which are respectively arranged on the base platform, and the motion platform is connected with the first fixed seat so as to drive the rotation assembly to linearly move; the guide rail with the motion platform is parallel, be provided with on the second fixing base with the slider of guide rail cooperation motion.

Furthermore, the glass breaking device also comprises a controller, the first pressing assembly also comprises a first connecting plate and a first buffer electrically connected with the controller, the first pressing plate is connected with the first driver through the first connecting plate, and the first buffer is fixed on the first connecting plate and positioned on two sides of the first driver; the second pressing assembly further comprises a second connecting plate and a second buffer electrically connected with the controller, the second pressing plate is connected with the second driver through the second connecting plate, and the second buffer is fixed on the second connecting plate and located on two sides of the second driver.

Further, the second pressing assembly further includes a calibration block for correcting a relative height of the glass plate and the second stage.

Further, the rotating assembly further comprises a photoelectric switch for detecting the rotating angles of the first rotating shaft and the second rotating shaft, and the photoelectric switch is electrically connected with the controller.

Compared with the prior art, the beneficial effects of the utility model reside in that: when the glass plate is pushed onto the first carrying platform, the power output end of the first driver drives the first pressing plate to press down the pressing glass plate; meanwhile, the power output end of the second driver also drives the second pressing plate to move downwards to press the other end of the glass plate, after the glass plate is pressed, the motor of the rotating assembly works to drive the first rotating shaft to rotate to drive the second pressing assembly to rotate synchronously, meanwhile, the translation assembly drives the rotating assembly to move to be away from the first pressing assembly, the glass plate is broken off, and glass sheet breaking operation is completed. The problem of among the prior art glass edge that produces when carrying out glass lobe of a leaf burst bursts apart, unevenness is solved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of an embodiment of a glass breaking apparatus according to the present invention;

FIG. 2 is a left side view of FIG. 1;

fig. 3 is a schematic structural diagram of a first pressing assembly in an embodiment of a glass breaking apparatus according to the present invention;

fig. 4 is a schematic structural diagram of a first carrier in an embodiment of a glass breaking apparatus according to the present invention;

fig. 5 is a schematic structural view of a rotating assembly and a second pressing assembly in an embodiment of a glass breaking apparatus according to the present invention;

fig. 6 is a schematic structural diagram of a CCD detection assembly in an embodiment of a glass breaking apparatus of the present invention.

Wherein the figures include the following reference numerals:

100. a base platform; 201. a first stage; 2011. a padding seat; 2012. a first support plate; 2013. a first carrier plate; 202. a first support frame; 2021. a first mounting plate; 2022. a first support column; 203. a first driver; 204. a first platen; 205. a first connecting plate; 206. a first buffer; 301. a motor; 302. a first rotating shaft; 303. a first fixed seat; 3031. a first base; 3032. a first bearing housing; 304. a second rotating shaft; 305. a second fixed seat; 3051. a second base; 3052. a second bearing housing; 306. a first shaft seat; 307. a second shaft base; 308. a speed reducer; 309. a coupling; 310. a photoelectric switch; 311. a reinforcing plate; 401. a second stage; 4011. a second support plate; 4012. a second carrying platen; 402. a second support frame; 4021. a second mounting plate; 4022. a second support column; 403. a second driver; 404. a second platen; 405. a second connecting plate; 406. a second buffer; 407. a calibration block; 501. a motion platform; 502. a guide rail; 503. a slider; 600. a CCD detection assembly; 601. a CCD; 602. a fixed mount; 603. a point light source; 604. a telecentric lens; 700. a glass plate.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. 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 application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

Now, a glass breaking apparatus according to an exemplary embodiment of the present application will be described in detail with reference to fig. 1 to 6, including: a base platform 100; the first pressing assembly is arranged on the base platform 100 and comprises a first carrier 201, a first support frame 202, a first driver 203 and a first pressing plate 204, the first carrier 201 is fixed on the base platform 100, the first support frame 202 is fixed on the first carrier 201, the first driver 203 is fixed on the first support frame 202, the power output end of the first driver 203 is connected with the first pressing plate 204, and the first pressing plate 204 is positioned right above the first carrier 201; the rotating assembly is arranged on the base platform 100 and located on one side of the first pressing assembly, the rotating assembly comprises a motor 301, a first rotating shaft 302 and a first fixed seat 303, an output shaft of the motor 301 is connected with the first rotating shaft 302 to drive the first rotating shaft 302 to rotate, and the first fixed seat 303 is arranged on the base platform 100 and used for supporting the motor 301 and the first rotating shaft 302; a second pressing assembly, which includes a second carrier 401, a second support frame 402, a second driver 403 and a second pressing plate 404, wherein the second carrier 401 and the first rotating shaft 302 are fixed and rotate synchronously with the first rotating shaft 302, the plane of the second carrier 401 is flush with the plane of the first carrier 201, the second support frame 402 is fixed on the second carrier 401, the second driver 403 is fixed on the second support frame 402, the power output end of the second driver 403 is connected with the second pressing plate 404, and the second pressing plate 404 is located right above the second carrier 401; the translation assembly is arranged between the rotating assembly and the base platform 100, and when the motor 301 drives the first rotating shaft 302 to rotate, the translation assembly simultaneously drives the rotating assembly to do translation motion relative to the first compressing assembly.

The utility model arranges the first compressing component and the rotating component which are arranged in sequence on the basic platform 100, the second compressing component is fixedly connected with the first rotating shaft 302 in the rotating component, when the glass plate 700 is pushed to the first carrying platform 201, the power output end of the first driver 203 drives the first pressing plate 204 to press down the glass plate 700; meanwhile, the power output end of the second driver 403 also drives the second pressing plate 404 to move downwards to press the other end of the glass plate 700, and the first pressing plate 204 perform pressing operation on the glass plate 700 with the cutting line on the glass plate 700 as a reference; after the glass plate 700 is pressed, the motor 301 of the rotating assembly works to drive the first rotating shaft 302 to rotate, so as to drive the second pressing assembly to rotate synchronously, and meanwhile, the translation assembly drives the rotating assembly to move to be far away from the first pressing assembly, so that the glass plate 700 is broken off, and the glass sheet breaking operation is completed. In the technical scheme, the motor 301 is connected with the first rotating shaft 302 through the speed reducer 308, the speed reducer 308 is connected with the first rotating shaft 302 through the coupler 309, the coupler 309 realizes transmission motion of the speed reducer 308 to the first rotating shaft 302, and when the load of the second pressing assembly on the rotating assembly is overlarge, the rotating assembly can be protected.

The glass breaking device further comprises a CCD detection assembly 600, the CCD detection assembly 600 comprises a CCD601 and a fixing frame 602 used for fixing the CCD601 on the base platform 100, and the distance that the glass plate 700 needs to move forwards or retreat is calculated by photographing the position of a cutting line on the glass plate 700 through the CCD 601. As shown in fig. 6, CCD detection assembly 600 further includes a telecentric lens 604 coupled to CCD601, and a point light source 603 positioned directly above telecentric lens 604 to provide light to CCD 601.

The rotating assembly further includes a second rotating shaft 304 and a second fixing base 305, the second fixing base 305 is disposed on the base platform 100, the second rotating shaft 304 is disposed on the second fixing base 305 and is fixedly connected with the second carrying platform 401, and the second rotating shaft 304 and the first rotating shaft 302 rotate coaxially. The support of the first fixing seat 303 and the rotation of the first rotating shaft 302 are matched by arranging the second fixing seat 305 and the second rotating shaft 304, and preferably, a reinforcing plate 311 is arranged between the first fixing seat 303 and the second fixing seat 305, so that the rigidity of the rotating assembly is further ensured, namely, the rotating assembly can stably drive the second compressing assembly to work. The stable support of the rotating assembly to the second pressing assembly and the stability of driving the second pressing assembly to rotate are ensured, and the glass splitting device is suitable for splitting operation of small-size glass and can also be used for splitting operation of large-size glass.

In addition, in the case that the area of the targeted glass panel is small, the device can be supported only by the first rotating shaft 302 according to the rigidity strength of the first rotating shaft 302 (in this case, the second pressing component is in an cantilever beam type design at one end of the first rotating shaft 302), so that the rigidity strength of the first rotating shaft 302 should be enough to support the whole second pressing component, so as to ensure the stability of the whole device.

Further, the first fixed seat 303 includes a first base 3031 and a first bearing seat 3032 disposed on the first base 3031 for supporting the first rotating shaft 302; the second fixing base 305 includes a second base 3051 and a second bearing housing 3052 disposed on the second base 3051 for supporting the second rotating shaft 304. In this technical solution, the first bearing seat 3032 includes a first support, a pair of angular contact ball bearings, and a lock nut, the angular contact ball bearings are disposed in the first support, and are sleeved on the first rotating shaft 302 to provide a supporting point for the rotation of the first rotating shaft 302, and the lock nut is used for locking the first support on the first base 3031; the second bearing block 3052 includes a second support fixed on the second base 3051 and a deep groove ball bearing fixed in the second support and sleeved on the second rotating shaft 304 to provide a supporting point for the second rotating shaft 304 to rotate. The first rotating shaft 302 is supported by the first bearing seat 3032 to rotate, and the second rotating shaft 304 is supported by the second bearing seat 3052 to rotate, so that the friction force applied to the first rotating shaft 302 and the second rotating shaft 304 during rotation is reduced, and the power output of the motor 301 is reduced.

The rotating assembly further comprises a first shaft seat 306 and a second shaft seat 307, wherein the first shaft seat 306 is arranged between the first rotating shaft 302 and the second stage 401, and the second shaft seat 307 is arranged between the second rotating shaft 304 and the second stage 401. The first shaft base 306 and the second shaft base 307 respectively comprise a rotating plate, a deep groove ball bearing and a stop pin, the deep groove ball bearing and the stop pin are arranged in the rotating plate, the first shaft base 306 is connected with the first rotating shaft 302 and the second carrying platform 401, the second shaft base 307 is connected with the second rotating shaft 304 and the second carrying platform 401, and stability and flexibility of connection between the first rotating shaft 302 and the second carrying platform 401 and connection between the second rotating shaft 304 and the second carrying platform 401 are guaranteed. Preferably, the rotation assembly further includes an opto-electronic switch 310 for detecting the rotation angle of the first and second shafts 302 and 304, and the opto-electronic switch 310 is mounted on the first base 3031 and electrically connected with the controller.

As shown in fig. 1 and fig. 2, the translation assembly includes a moving platform 501 and a guide rail 502 respectively disposed on the base platform 100, and the moving platform 501 is connected to the first fixing seat 303 to drive the rotation assembly to move linearly; the guide rail 502 is parallel to the moving platform 501, and the second fixed seat 305 is provided with a sliding block 503 which moves in cooperation with the guide rail 502. After the first compressing assembly and the second compressing assembly compress the glass plate 700, the motor 301 of the rotating assembly drives the first rotating shaft 302 to rotate, and then drives the second compressing assembly to overturn, meanwhile, the moving platform 501 is connected with the first fixing seat 303 to drive the rotating assembly and the second compressing assembly to move linearly, and the sliding block 503 connected with the second fixing seat 305 moves on the guide rail 502 to guide the moving directions of the rotating assembly and the second compressing assembly, so that the glass sheet cracking operation is realized.

Referring to fig. 4 and 5, the first carrier 201 includes a padding base 2011, a first support plate 2012 and a first carrier plate 2013, the padding base 2011 is disposed on the base platform 100 and respectively fixes two ends of the first support plate 2012, and the first carrier 201 is fixed on the first support plate 2012; the second stage 401 includes a second supporting plate 4011 and a second stage plate 4012, two ends of the second supporting plate 4011 are respectively fixed to the first rotating shaft 302 and the second rotating shaft 304, the second stage 401 plate is fixed to the second supporting plate 4011, and a calibration block 407 is further disposed on the second supporting plate 4011, and is used for calibrating the relative height between the glass plate 700 and the second stage 401.

Preferably, the first driver 203 and the second driver 403 are air cylinders, that is, the first pressing assembly and the second pressing assembly drive the first pressing plate 204 and the second pressing plate 404 to move through the air cylinders. The first support frame 202 includes two first support columns 2022 and a first mounting plate 2021, one end of each of the two first support columns 2022 is fixed to both ends of the first mounting plate 2021, and the other end is fixed to the first support plate 2012. The second support frame 402 includes two second support columns 4022 and a second mounting plate 4021, one end of each of the two second support columns 4022 is fixed to both ends of the second mounting plate 4021, and the other end is fixed to the second support plate 4011.

The glass breaking device further comprises a controller, the first pressing assembly further comprises a first connecting plate 205 and a first buffer 206 electrically connected with the controller, the first pressing plate 204 is connected with the first driver 203 through the first connecting plate 205, and the first buffer 206 is fixed on the first connecting plate 205 and located on two sides of the first driver 203; the second pressing assembly further includes a second connecting plate 405 and a second buffer 406 electrically connected to the controller, the second pressing plate 404 is connected to the second driver 403 through the second connecting plate 405, and the second buffer 406 is fixed to the second connecting plate 405 and located at both sides of the second driver 403. The first buffer 206 is arranged on the first connecting plate 205, and the second buffer 406 is arranged on the second connecting plate 405, so that the first pressing plate 204 and the second pressing plate 404 have a buffering effect before contacting with the glass, and the first pressing plate 204 and the second pressing plate 404 are prevented from generating hard collision on the glass plate 700 to damage the glass plate 700.

The utility model arranges the first compressing component and the rotating component which are arranged in sequence on the basic platform 100, and the first rotating shaft 302 and the second rotating shaft 304 of the rotating component fix the second compressing component together so as to drive the second compressing component to rotate relative to the first compressing component; in order to prevent the glass from being crushed during breaking, a translation assembly is arranged between the rotating assembly and the base platform 100 to control the movement of the rotating assembly; when the glass is pushed onto the first stage 201 plate and the second stage 401 plate, the CCD601 detection device photographs the position of the cutting line of the glass plate 700 and calculates the distance of the glass plate 700 which moves forwards or backwards; then, the first driver 203 and the second driver 403 simultaneously drive the first pressing plate 204 and the second pressing plate 404 to move downwards to press the glass plate 700, the motor 301 of the rotating assembly drives the first rotating shaft 302 to drive the second pressing assembly to rotate, the second rotating shaft 304 rotates along with the first rotating shaft 302, and meanwhile, the moving platform 501 drives the rotating assembly and the second pressing assembly to move linearly to be far away from the first pressing assembly, so that the rotating splinter work is completed. By the technical scheme, the problems of edge crack and unevenness in glass splitting operation in the prior art are solved.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A glass breaking apparatus, comprising:

a base platform (100);

the first pressing assembly is arranged on the base platform (100), the first pressing assembly comprises a first carrying platform (201), a first supporting frame (202), a first driver (203) and a first pressing plate (204), the first carrying platform (201) is fixed on the base platform (100), the first supporting frame (202) is fixed on the first carrying platform (201), the first driver (203) is fixed on the first supporting frame (202), the power output end of the first driver (203) is connected with the first pressing plate (204), and the first pressing plate (204) is positioned right above the first carrying platform (201);

the rotating assembly is arranged on the base platform (100) and located on one side of the first pressing assembly, the rotating assembly comprises a motor (301), a first rotating shaft (302) and a first fixed seat (303), an output shaft of the motor (301) is connected with the first rotating shaft (302) to drive the first rotating shaft (302) to rotate, and the first fixed seat (303) is arranged on the base platform (100) and used for supporting the motor (301) and the first rotating shaft (302);

the second pressing assembly comprises a second carrying platform (401), a second supporting frame (402), a second driver (403) and a second pressing plate (404), the second carrying platform (401) and the first rotating shaft (302) are fixed and rotate synchronously with the first rotating shaft (302), the plane of the second carrying platform (401) is flush with the plane of the first carrying platform (201), the second supporting frame (402) is fixed on the second carrying platform (401), the second driver (403) is fixed on the second supporting frame (402), the power output end of the second driver (403) is connected with the second pressing plate (404), and the second pressing plate (404) is positioned right above the second carrying platform (401);

the translation assembly is arranged between the rotating assembly and the basic platform (100), and when the motor (301) drives the first rotating shaft (302) to rotate, the translation assembly simultaneously drives the rotating assembly to do translation motion relative to the first pressing assembly.

2. The glass breaking device according to claim 1, further comprising a CCD detection assembly (600) for sensing a position of a cutting line of the glass sheet, wherein the CCD detection assembly (600) comprises a CCD (601) and a CCD fixing frame (602) for fixing the CCD (601) on the base platform (100).

3. The glass breaking device according to claim 1 or 2, wherein the rotating assembly further comprises a second rotating shaft (304) and a second fixed base (305), the second fixed base (305) is disposed on the base platform (100), the second rotating shaft (304) is disposed on the second fixed base (305) and is fixedly connected with the second carrying platform (401), and the second rotating shaft (304) and the first rotating shaft (302) rotate coaxially.

4. The glass breaking device according to claim 3, wherein the first fixed seat (303) comprises a first base (3031) and a first bearing seat (3032) arranged on the first base (3031) and used for supporting the first rotating shaft (302); the second fixed seat (305) comprises a second base (3051) and a second bearing seat (3052) arranged on the second base (3051) and used for supporting the second rotating shaft (304).

5. The glass breaking apparatus of claim 4, wherein the rotating assembly further comprises a first shaft seat (306) and a second shaft seat (307), the first shaft seat (306) being disposed between the first rotating shaft (302) and the second stage (401), the second shaft seat (307) being disposed between the second rotating shaft (304) and the second stage (401).

6. The glass breaking apparatus of claim 5, wherein the rotating assembly further comprises a speed reducer (308) and a coupling (309), the speed reducer (308) is disposed between the motor (301) and the first rotating shaft (302), and the coupling (309) is disposed between the speed reducer (308) and the first rotating shaft (302).

7. The glass breaking device according to claim 6, wherein the translation assembly comprises a moving platform (501) and a guide rail (502) which are respectively arranged on the base platform (100), and the moving platform (501) is connected with the first fixing seat (303) to drive the rotating assembly to move linearly; the guide rail (502) is parallel to the moving platform (501), and a sliding block (503) which moves in a matched manner with the guide rail (502) is arranged on the second fixed seat (305).

8. The glass breaking apparatus of claim 7, wherein the glass breaking apparatus further comprises a controller, the first pressing assembly further comprises a first connecting plate (205) and a first buffer (206) electrically connected to the controller, the first pressing plate (204) is connected to the first driver (203) through the first connecting plate (205), and the first buffer (206) is fixed to the first connecting plate (205) and located on both sides of the first driver (203); the second pressing assembly further comprises a second connecting plate (405) and a second buffer (406) electrically connected with the controller, the second pressing plate (404) is connected with the second driver (403) through the second connecting plate (405), and the second buffer (406) is fixed on the second connecting plate (405) and located on two sides of the second driver (403).

9. The glass breaking apparatus of claim 8, wherein the second pressing assembly further comprises a calibration block (407) for correcting a relative height of the glass sheet and the second stage (401).

10. The glass breaking apparatus of claim 9, wherein the rotating assembly further comprises an optoelectronic switch (310) for detecting a rotation angle of the first rotating shaft (302) and the second rotating shaft (304), the optoelectronic switch (310) being electrically connected to the controller.

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