CN109049348B

CN109049348B - Toughened glass processing system and toughened glass processing method thereof

Info

Publication number: CN109049348B
Application number: CN201810909093.8A
Authority: CN
Inventors: 范满香
Original assignee: Fangding Technology Co Ltd
Current assignee: Fangding Technology Co., Ltd.
Priority date: 2018-08-10
Filing date: 2018-08-10
Publication date: 2020-04-17
Anticipated expiration: 2038-08-10
Also published as: CN109049348A

Abstract

The invention relates to a toughened glass processing system and a toughened glass processing method thereof, which comprise an execution support mechanism, an execution polishing mechanism and an execution cutting mechanism, wherein the execution polishing mechanism is arranged on the upper side of the bottom end of the execution support mechanism, the execution cutting mechanism is arranged on the lower side of the bottom end of the execution support mechanism, the execution support mechanism drives the execution polishing mechanism and the execution cutting mechanism to move to specified positions, the execution polishing mechanism performs edging processing on toughened glass, and the execution cutting mechanism performs cutting processing on the toughened glass.

Description

Toughened glass processing system and toughened glass processing method thereof

Technical Field

The invention relates to the technical field of toughened glass deep processing, in particular to a toughened glass processing system and a toughened glass processing method thereof.

Technical Field

The toughened glass deep processing comprises a series of deep processing processes such as cutting, edging, toughening, hollowing, doubling, packaging, delivery and the like, mechanical continuous batch production is realized in large toughened glass processing enterprises, but manual operation is still relied on in small enterprises, manual cutting and edging are needed when the toughened glass is cut and edged, edge breakage occurs due to the problem of uneven stress during cutting, waste materials generated during the processing process cannot be cleaned in time, a product needs to be transferred to the next station for processing when the edge is ground, different grinding tools need to be replaced according to different thicknesses of the toughened glass during the edge grinding, and time and labor are wasted; because toughened glass belongs to fragile article, cause the problem such as cracked edge or breakage easily because of misoperation, can cause the injury to operating personnel sometimes, bring economic loss for the enterprise, lead to staff's intensity of labour in the production process big simultaneously, work efficiency is low, degree of automation low grade problem.

Disclosure of Invention

In order to solve the problems, the invention provides a toughened glass processing system and a toughened glass processing method thereof, which can solve the problems that manual cutting and edge grinding are needed during cutting and edge grinding of toughened glass, edge breakage occurs due to uneven stress during cutting, waste materials generated by cutting cannot be cleaned in time during processing, a product needs to be transferred to the next station for processing during edge grinding, and different grinding tools need to be replaced according to different thicknesses of the toughened glass during edge grinding, so that time and labor are wasted; because the toughened glass belongs to fragile products, the problems of edge cracking or breaking and the like are easily caused by misoperation, sometimes the toughened glass causes damage to operators, economic loss is brought to enterprises, and simultaneously, the problems of high labor intensity of workers in the production process, low working efficiency, low automation degree and the like are caused.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a toughened glass processing system, including carrying out supporting mechanism, carry out grinding machanism and execution cutting mechanism, carry out grinding machanism is installed to carry out supporting mechanism's bottom upside, carry out cutting mechanism is installed to carry out supporting mechanism's bottom downside, carry out supporting mechanism and drive carry out grinding machanism and carry out cutting mechanism and move to the assigned position, carry out grinding machanism and carry out the edging processing to toughened glass, carry out cutting mechanism and carry out cutting process to toughened glass, need not manual operation in the course of working, avoided leading to toughened glass breakage because of misoperation, staff's intensity of labour has been reduced, the work efficiency is improved, thereby realize automatic operation.

The execution support mechanism comprises an execution support frame, a support rotating motor, a rotating rod, a rotating plate, a positioning cylinder, a positioning column and a positioning chute, wherein the execution support frame is of an inverted U-shaped structure, the support rotating motor is installed on the outer wall of the lower end of the execution support frame through a motor base, an output shaft of the support rotating motor is connected with the left end of the rotating rod through a coupling, the right end of the rotating rod is installed on the execution support frame through a bearing, the rotating plate is installed on the rotating rod, the positioning cylinders are symmetrically installed on the side walls of the left end and the right end of the rotating plate, the positioning column is installed at the top end of the positioning cylinder through; the inboard symmetry of lower extreme of carrying out the support frame is installed and is fixed a position the spout, opens along its circumference in the spout of fixing a position the locating hole, supports the rotation that the motor passes through the dwang and drives the rotor plate, and when the rotor plate rotated the assigned position, the location cylinder drove the reference column and stretches out and draws back and pass the locating hole to fix a position the rotor plate, whole process need not manual operation, has improved work efficiency, has reduced staff's intensity of labour, has realized automatic operation.

The polishing device comprises an execution polishing mechanism and a polishing mechanism, wherein the execution polishing mechanism comprises a polishing driving motor, a polishing driving roller, a polishing branched chain, a sliding driving motor and a sliding gear, the polishing driving motor is installed on a rotating plate through a motor base, an output shaft of the polishing driving motor is connected with the polishing driving roller through a coupler, the polishing driving roller is of a hollow structure, sliding grooves are symmetrically formed in the side wall of the polishing driving roller, the polishing branched chain is arranged in the sliding grooves, the sliding driving motor is installed on the inner wall of the polishing driving roller through the motor base, and the sliding gear is installed on the output; the polishing branched chain comprises a polishing connecting rod, a sliding rack, a polishing annular plate, a polishing electric push rod, a polishing arc plate, a pressing air cylinder, a pressing supporting plate, a sliding motor supporting plate, a pressing electric slider, a pressing electric push rod, a pressing motor fixing plate, a pressing motor and a pressing bolt sleeve, wherein the polishing connecting rod is positioned in a sliding groove, one end of the polishing connecting rod positioned in the sliding groove is arranged on the sliding rack, the sliding rack is connected with a sliding gear in a meshing mode, the sliding rack is arranged on the inner wall of the polishing driving roller in a sliding fit mode, the polishing annular plate is arranged at one end of the polishing connecting rod positioned outside the sliding groove and is of a hollow annular structure, the polishing electric push rod is arranged at the upper end of the polishing annular plate through a pin shaft, the bottom end of the polishing electric push rod is arranged on the polishing, the polishing device comprises a polishing annular plate, a polishing motor, a sliding motor supporting plate, a pressing electric slider, a pressing electric push rod, a pressing motor fixing plate, a pressing bolt sleeve and a pressing bolt sleeve, wherein the polishing annular plate is installed on the polishing annular plate through a pin shaft; mounting holes with threads are formed in the pressing support plates at equal intervals, pressing bolts are mounted in the mounting holes in a threaded meshing mode, the pressing bolts are of an outer hexagonal structure, tooth-shaped pressing plates are mounted on the pressing bolts, and the upper ends of the tooth-shaped pressing plates are of tooth-shaped structures; the polishing driving motor drives the polishing branch chain to rotate through the polishing driving roller during working, toughened glass edge polishing processing is carried out, the sliding driving motor drives the polishing connecting rod arranged on the sliding rack to move up and down through the sliding gear, the polishing connecting rod drives the polishing annular plate to move up and down, thereby toughened glass with different thicknesses is polished, the polishing electric push rod drives the polishing arc plate to do arc motion for adjusting the polishing angle, the pressing electric slide block arranged on the supporting plate of the sliding motor drives the pressing electric push rod to move, the pressing electric push rod and the pressing motor are mutually matched to move to drive the pressing bolt sleeve to further fix the pressing bolt, the pressing bolt supports polishing abrasive paper on the polishing arc plate through the tooth-shaped pressing plate in the moving process, the magic tape can prevent the polishing abrasive paper from falling off, and is favorable for improving the polishing effect, the whole process does not need manual operation, the working efficiency is improved, the labor intensity of workers is reduced, and automatic operation is realized.

The polishing protection cover is arranged on the rotating plate through a protection supporting plate, the polishing protection cover is arranged on an output shaft of the polishing driving motor through a bearing, the polishing protection cover is of a hollow cylindrical structure, a polishing groove is formed in the side wall of the polishing protection cover, a dust outlet is formed in the top end of the polishing protection cover, and a polishing dust collector is arranged on the dust outlet of the polishing protection cover; the upper end and the lower end of the side wall of the polishing protective cover are symmetrically provided with the polishing arc protective cover through pin shafts, the polishing arc protective cover is provided with a protection electric push rod through a pin shaft, the protection electric push rod is arranged on a protection fixing plate through the pin shaft, and the protection fixing plate is arranged on the side wall of the polishing protective cover; during operation protection electric putter control arc protection casing of polishing removes the assigned position, and the diffusion of dust when the protection casing of polishing and the arc protection casing of polishing mutually support and can prevent the edging, and the dust catcher is collected piece and dust, prevents that the dust from to environmental pollution on every side, reaches the effect of environmental protection.

As a preferred technical scheme of the invention, the executing cutting mechanism comprises a cutting electric push rod, a cutting fixing plate, a cutting knife, an auxiliary telescopic rod and a positioning ball, the bottom end of the cutting electric push rod is arranged on the rotating plate, the top end of the cutting electric push rod is provided with a cutting fixed plate through a flange, the middle part of the cutting fixed plate is provided with a cutting knife, two ends of the cutting fixed plate are symmetrically provided with auxiliary telescopic rods, the auxiliary telescopic rods are provided with positioning balls through flanges, the cutting electric push rod drives the cutting knife to move to a specified position to cut the toughened glass, the positioning balls effectively abut against the toughened glass in the process of cutting the toughened glass, thereby prevent that toughened glass from influencing toughened glass's cutting effect because of the shake in cutting process, the stability of toughened glass cutting can be ensured at work to the location ball, solves the problem that the limit collapses because of vibrations or atress inequality production during the cutting.

According to the preferred technical scheme, the magic tape is arranged on the outer wall of the polishing arc-shaped plate, polishing abrasive paper is arranged on the magic tape in an adhesion mode, the polishing abrasive paper is prevented from falling off during working, and the polishing effect is improved.

In addition, the invention also provides a toughened glass processing method of the toughened glass processing system, which comprises the following steps:

1. the supporting rotating motor drives the rotating plate to rotate through the rotating rod, and when the rotating plate rotates to a specified position, the positioning cylinder drives the positioning column to stretch and penetrate through the positioning hole, so that the rotating plate is positioned;

2. when the toughened glass is cut, the cutting electric push rod drives the cutting knife to move to a specified position to cut the toughened glass, and the positioning ball is effectively abutted against the toughened glass in the process of cutting the toughened glass, so that the cutting effect of the toughened glass is prevented from being influenced by shaking in the cutting process of the toughened glass, and the cutting stability of the toughened glass can be ensured by the positioning ball in work;

3. when the toughened glass is edged, the polishing driving motor drives the polishing branched chain to rotate through the polishing driving roller so as to perform toughened glass edging, the sliding driving motor drives the polishing connecting rod arranged on the sliding rack to move up and down through the sliding gear, the polishing connecting rod drives the polishing annular plate to move up and down so as to polish the toughened glass with different thicknesses, and the polishing electric push rod drives the polishing arc plate to do arc motion so as to adjust the polishing angle;

4. the pressing electric sliding block arranged on the sliding motor supporting plate drives the pressing electric push rod to move, the pressing electric push rod and the pressing motor are matched with each other to move to drive the pressing bolt sleeve to further fix the pressing bolt, the pressing bolt abuts polishing abrasive paper on the polishing arc-shaped plate through the tooth-shaped pressing plate in the moving process, and the magic tape can prevent the polishing abrasive paper from falling off;

5. protection electric putter control arc protection casing of polishing removes the assigned position, and the diffusion of dust when the protection casing of polishing and the arc protection casing of polishing mutually support and can prevent the edging, and the dust catcher is collected piece and dust, and whole process need not manual operation, has improved work efficiency, has reduced staff's intensity of labour, can realize the function of cutting and edging homophase continuity processing in toughened glass deep-processing process.

The invention has the beneficial effects that:

1. the invention can solve the problems that manual cutting and edge grinding are needed when the toughened glass is cut and edged, edge breakage occurs due to uneven stress and the like when the toughened glass is cut, waste materials generated by cutting cannot be cleaned in time in the processing process, a product needs to be transferred to the next station for processing when the edge is ground, and different grinding tools need to be replaced according to different thicknesses of the toughened glass during edge grinding, so that time and labor are wasted; because toughened glass belongs to fragile article, cause the problem such as split limit or breakage easily because of misoperation, can cause the injury to operating personnel sometimes, bring economic loss for the enterprise, it is big to lead to staff's intensity of labour in the production process simultaneously, work efficiency is low, the low scheduling problem of degree of automation, can realize the function of cutting and edging simultaneous working position continuity processing in toughened glass deep-processing process, whole process need not manual operation, effectively prevent in the cutting process because the uneven scheduling problem of atress produces the edge breakage, the edging adds can be adjusted according to the requirement of different thickness automatically, need not to change grinding tool, cutting and edging process can simultaneous working position continuous processing, staff's intensity of labour has been reduced simultaneously, work efficiency is improved, thereby realize advantages such as automatic work.

2. The invention designs the execution polishing mechanism, when the toughened glass is polished, the execution polishing mechanism can be automatically adjusted according to the different thicknesses and polishing angles of the toughened glass, the whole process does not need manual adjustment and polishing tool replacement, the labor intensity of workers is reduced, the working efficiency is improved, and automation is realized.

3. The invention designs the executing cutting mechanism, and the positioning ball and the cutting knife move together when the toughened glass is cut, thereby solving the problem of edge breakage caused by vibration or uneven stress and the like when the toughened glass is cut.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of the polishing branch (excluding the polishing connecting rod, the sliding rack, the compressing electric slider, the compressing electric push rod, the compressing motor fixing plate, the compressing motor and the compressing bolt sleeve) of the present invention;

FIG. 4 is a schematic sectional view of the electric compressing slider, the electric compressing push rod, the fixing plate of the compressing motor, the compressing motor and the compressing bolt sleeve.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

As shown in fig. 1 to 4, a tempered glass processing system includes an execution support mechanism (52), an execution polishing mechanism (53) and an execution cutting mechanism (54), the execution polishing mechanism 53 is installed on the upper side of the bottom end of the execution support mechanism 52, the execution cutting mechanism 54 is installed on the lower side of the bottom end of the execution support mechanism 52, the execution support mechanism 52 drives the execution polishing mechanism 53 and the execution cutting mechanism 54 to move to the specified position, the execution polishing mechanism 53 performs edge polishing processing on tempered glass, the execution cutting mechanism 54 performs cutting processing on tempered glass, manual operation is not needed in the processing process, breakage of tempered glass caused by misoperation is avoided, labor intensity of workers is reduced, working efficiency is improved, and automatic operation is realized.

The execution supporting mechanism 52 comprises an execution supporting frame 522, a supporting rotating motor 523, a rotating rod 524, a rotating plate 525, a positioning cylinder 526, a positioning column 527 and a positioning chute 528, wherein the execution supporting frame 522 is of an inverted U-shaped structure, the supporting rotating motor 523 is installed on the outer wall of the lower end of the execution supporting frame 522 through a motor base, an output shaft of the supporting rotating motor 523 is connected with the left end of the rotating rod 524 through a coupler, the right end of the rotating rod 524 is installed on the execution supporting frame 522 through a bearing, the rotating plate 525 is installed on the rotating rod 524, the positioning cylinders 526 are symmetrically installed on the side walls of the left end and the right end of the rotating plate 525, the positioning column 527 is installed at the top end of the positioning cylinder 526 through a flange; carry out the inboard symmetry of lower extreme of support frame 522 and install location spout 528, it has the locating hole to open along its circumference in the spout 528 to fix a position, supports rotation motor 523 and drives the rotation of rotor plate 525 through dwang 524, when rotor plate 525 rotated the assigned position, location cylinder 526 drove reference column 527 and passed the locating hole to the location to rotor plate 525, whole process need not manual operation, has improved work efficiency, has reduced staff's intensity of labour, has realized automated operation.

The cutting executing mechanism 54 comprises a cutting electric push rod 541, a cutting fixing plate 542, a cutting knife 543, an auxiliary telescopic rod 544 and a positioning ball 545, the bottom end of the cutting electric push rod 541 is installed on the rotating plate 525, the top end of the cutting electric push rod 541 is provided with a cutting fixing plate 542 through a flange, the middle part of the cutting fixing plate 542 is provided with a cutting knife 543, two ends of the cutting fixing plate 542 are symmetrically provided with auxiliary telescopic rods 544, the auxiliary telescopic rods 544 are provided with positioning balls 545 through flanges, the cutting electric push rod 541 drives the cutting knife 543 to move to a designated position to cut the toughened glass, the positioning balls 545 are effectively abutted against the toughened glass in the process of the toughened glass cutting operation, therefore, the cutting effect of the toughened glass is prevented from being influenced by shaking in the cutting process of the toughened glass, the cutting stability of the toughened glass can be ensured by the positioning balls 545 in work, and the problem of edge breakage caused by vibration or uneven stress during cutting is solved.

The execution polishing mechanism 53 comprises a polishing driving motor 531, a polishing driving roller 532, a polishing branched chain 533, a sliding driving motor 534 and a sliding gear 535, wherein the polishing driving motor 531 is installed on the rotating plate 525 through a motor base, an output shaft of the polishing driving motor 531 is connected with the polishing driving roller 532 through a coupler, the polishing driving roller 532 is of a hollow structure, sliding grooves are symmetrically formed in the side wall of the polishing driving roller 532, the polishing branched chain 533 is arranged in the sliding grooves, the sliding driving motor 534 is installed on the inner wall of the polishing driving roller 532 through the motor base, and the sliding gear 535 is installed on the output shaft of the sliding driving motor 534; the polishing branched chain 533 comprises a polishing connecting rod 53301, a sliding rack 53302, a polishing annular plate 53303, a polishing electric push rod 53304, a polishing arc plate 53305, a pressing cylinder 53306, a pressing support plate 53307, a sliding motor support plate 53308, a pressing electric slider 53309, a pressing electric push rod 53310, a pressing motor fixing plate 53311, a pressing motor 53312, a pressing bolt sleeve 53313, a pressing bolt 53314 and a tooth-shaped pressing plate 53315, wherein the polishing connecting rod 53301 is located in a sliding groove, one end of the polishing connecting rod 53301 located in the sliding groove is mounted on the sliding rack 53302, the sliding rack 53302 is connected with a sliding gear 535 in a meshing manner, the sliding rack 53302 is mounted on the inner wall of a polishing drive roller 532 in a sliding fit manner, the polishing annular plate 53303 is mounted at one end of the polishing connecting rod 53301 located outside the sliding groove, the polishing annular plate 53303 is of a hollow annular structure, the polishing electric push rod 53304 is mounted at the upper, the bottom end of a polishing electric push rod 53304 is mounted on a polishing arc plate 53305 through a pin shaft, the polishing arc plate 53305 is of an arc structure, a polishing arc plate 53305 is mounted on a polishing annular plate 53303 through a pin shaft, a pressing air cylinder 53306 is uniformly mounted on the polishing arc plate 53305 along the circumferential direction of the polishing arc plate, a pressing support plate 53307 is mounted at the top end of the pressing air cylinder 53306 through a flange, a sliding motor support plate 53308 is mounted on the outer wall of the pressing support plate 53307, a pressing electric slider 53309 is mounted on the sliding motor support plate 53308, a pressing electric push rod 53310 is mounted on the pressing electric slider 53309, a pressing motor fixing plate 53311 is mounted at the top end of the pressing electric push rod 53310 through a flange, a pressing motor 53312 is mounted on the pressing motor fixing plate 53311, a pressing bolt sleeve 53313 is mounted on an output; the pressing support plate 53307 is provided with mounting holes with threads at equal intervals, pressing bolts 53314 are mounted in the mounting holes in a thread meshing mode, the pressing bolts 53314 are of an outer hexagonal structure, a tooth-shaped pressing plate 53315 is mounted on the pressing bolts 53314, and the upper end of a tooth-shaped pressing plate 53315 is of a tooth-shaped structure; the outer wall of the polishing arc-shaped plate 53305 is provided with a magic tape 53322, the magic tape 53322 is provided with polishing sand paper 53323 in an adhesive mode, a polishing driving motor 531 drives a polishing branch chain 533 to rotate through a polishing driving roller 532 to polish toughened glass, a sliding driving motor 534 drives a polishing connecting rod 53301 arranged on a sliding rack 53302 to move up and down through a sliding gear 535, the polishing connecting rod 53301 drives a polishing annular plate 53303 to move up and down, so that toughened glass with different thicknesses is polished, a polishing electric push rod 53304 drives a polishing arc-shaped plate 53305 to do arc motion for adjusting polishing angles, a compression electric slider 53309 arranged on a sliding motor supporting plate 53308 drives a compression electric push rod 53310 to move, the compression electric push rod 53310 and the compression motor 53312 are matched with each other to move to drive a compression bolt sleeve 53313 to further fix a compression bolt 53314, and the compression bolt 53314 abuts against the polishing sand paper 53323 against the arc-shaped compression plate 53315 in the moving process of On the board 53305, magic subsides 53322 can prevent that the abrasive paper 53323 of polishing from droing, helps improving the effect of polishing, and whole process need not manual operation, has improved work efficiency, has reduced staff's intensity of labour, has realized automated operation.

A polishing protective cover 53316 is arranged on the rotating plate 525 through a protective supporting plate 53321, the polishing protective cover 53316 is arranged on an output shaft of the polishing driving motor 531 through a bearing, the polishing protective cover 53316 is of a hollow cylindrical structure, a polishing groove is formed in the side wall of the polishing protective cover 53316, a dust outlet is formed in the top end of the polishing protective cover 53316, and a polishing dust collector 53317 is arranged on the dust outlet of the polishing protective cover 53316; the upper end and the lower end of the side wall of the polishing protective cover 53316 are symmetrically provided with a polishing arc protective cover 53318 through pin shafts, the polishing arc protective cover 53318 is provided with a protective electric push rod 53319 through a pin shaft, the protective electric push rod 53319 is arranged on a protective fixing plate 53320 through a pin shaft, and the protective fixing plate 53320 is arranged on the side wall of the polishing protective cover 53316; the protection electric push rod 53319 controls the polishing arc-shaped protective cover 53318 to move to a designated position, the polishing protective cover 53316 and the polishing arc-shaped protective cover 53318 are matched with each other to prevent dust from diffusing during edge polishing, and the polishing dust collector 53317 collects scraps and dust to prevent the dust from polluting the surrounding environment, so that the environment is protected.

1. the supporting rotating motor 523 drives the rotating plate 525 to rotate through the rotating rod 524, and when the rotating plate 525 rotates to a specified position, the positioning cylinder 526 drives the positioning column 527 to stretch and retract to pass through the positioning hole, so that the rotating plate 525 is positioned;

2. when the toughened glass is cut, the cutting electric push rod 541 drives the cutting knife 543 to move to a specified position to cut the toughened glass, and the positioning ball 545 effectively abuts against the toughened glass in the cutting operation process of the toughened glass, so that the cutting effect of the toughened glass is prevented from being influenced by shaking in the cutting process of the toughened glass, and the positioning ball 545 can ensure the cutting stability of the toughened glass in working;

3. when the toughened glass is edged, the grinding driving motor 531 drives the grinding branch chain 533 to rotate through the grinding driving roller 532, the toughened glass is edged, the sliding driving motor 534 drives the grinding connecting rod 53301 installed on the sliding rack 53302 to move up and down through the sliding gear 535, the grinding connecting rod 53301 drives the grinding annular plate 53303 to move up and down, so that the toughened glass with different thicknesses is ground, and the grinding electric push rod 53304 drives the grinding arc plate 53305 to do arc motion for adjusting the grinding angle;

4. the pressing electric sliding block 53309 arranged on the sliding motor supporting plate 53308 drives the pressing electric push rod 53310 to move, the pressing electric push rod 53310 and the pressing motor 53312 are matched with each other to move to drive the pressing bolt sleeve 53313 to further fix the pressing bolt 53314, the pressing bolt 53314 abuts the polishing sand paper 53323 against the polishing arc-shaped plate 53305 through the tooth-shaped pressing plate 53315 in the moving process, and the magic tape 53322 can prevent the polishing sand paper 53323 from falling off;

5. the protective electric push rod 53319 controls the polishing arc-shaped protective cover 53318 to move to a designated position, the polishing protective cover 53316 and the polishing arc-shaped protective cover 53318 are matched with each other to prevent dust diffusion during edge polishing, the polishing dust collector 53317 collects scraps and dust, manual operation is not needed in the whole process, the continuous processing function of the same station of cutting and edge polishing in the toughened glass deep processing process can be realized, the problems that manual cutting and edge polishing are needed during toughened glass cutting and edge polishing, edge breakage occurs due to uneven stress during cutting, waste materials generated during processing due to cutting cannot be cleaned in time, products need to be transferred to the next station for processing during edge polishing, different polishing tools need to be replaced according to different thicknesses of toughened glass during edge polishing, and time and labor are wasted; because toughened glass belongs to fragile article, cause the problem such as cracked edge or breakage easily because of misoperation, can cause the injury to operating personnel sometimes, bring economic loss for the enterprise, lead to staff's intensity of labour in the production process big simultaneously, work efficiency is low, degree of automation low grade difficult problem.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A tempered glass processing system comprising an execution support mechanism (52), an execution polishing mechanism (53) and an execution cutting mechanism (54), characterized in that: an execution polishing mechanism (53) is installed on the upper side of the bottom end of the execution supporting mechanism (52), and an execution cutting mechanism (54) is installed on the lower side of the bottom end of the execution supporting mechanism (52);

the execution supporting mechanism (52) comprises an execution supporting frame (522), a supporting rotating motor (523), a rotating rod (524), a rotating plate (525), a positioning cylinder (526), a positioning column (527) and a positioning chute (528), the execution support frame (522) is of an inverted U-shaped structure, a support rotating motor (523) is installed on the outer wall of the lower end of the execution support frame (522) through a motor base, an output shaft of the support rotating motor (523) is connected with the left end of a rotating rod (524) through a coupler, the right end of the rotating rod (524) is installed on the execution support frame (522) through a bearing, a rotating plate (525) is installed on the rotating rod (524), positioning cylinders (526) are symmetrically installed on the side walls of the left end and the right end of the rotating plate (525), a positioning column (527) is installed at the top end of each positioning cylinder (526) through a flange, and the positioning column (527) is installed in a positioning sliding;

the polishing device comprises an execution polishing mechanism (53), a polishing driving mechanism and a polishing mechanism, wherein the execution polishing mechanism (53) comprises a polishing driving motor (531), a polishing driving roller (532), a polishing branched chain (533), a sliding driving motor (534) and a sliding gear (535), the polishing driving motor (531) is installed on a rotating plate (525) through a motor base, an output shaft of the polishing driving motor (531) is connected with the polishing driving roller (532) through a coupler, the polishing driving roller (532) is of a hollow structure, sliding grooves are symmetrically formed in the side wall of the polishing driving roller (532), the polishing branched chain (533) is arranged in each sliding groove, the sliding driving motor (534) is installed on the inner wall of the polishing driving roller (532) through the motor base, and the sliding gear (535;

the polishing branched chain (533) comprises a polishing connecting rod (53301), a sliding rack (53302), a polishing annular plate (53303), a polishing electric push rod (53304), a polishing arc plate (53305), a pressing cylinder (53306), a pressing support plate (53307), a sliding motor support plate (53308), a pressing electric slider (53309), a pressing electric push rod (53310), a pressing motor fixing plate (53311), a pressing motor (53312), a pressing bolt sleeve (53313), a pressing bolt (53314) and a tooth-shaped pressing plate (53315), the polishing connecting rod (53301) is located in a sliding groove, one end, located in the sliding groove, of the polishing connecting rod (53301) is installed on the sliding rack (53302), the sliding rack (53302) is connected with the sliding gear (535) in a meshing mode, the sliding rack (53302) is installed on the inner wall of the polishing drive roller (532) in a sliding fit mode, and one end, located outside the sliding groove, of the polishing connecting rod (53301) is provided with the polishing annular plate (, the polishing annular plate (53303) is of a hollow annular structure, a polishing electric push rod (53304) is mounted at the upper end of the polishing annular plate (53303) through a pin shaft, the bottom end of the polishing electric push rod (53304) is mounted on the polishing arc plate (53305) through a pin shaft, the polishing arc plate (53305) is of an arc-shaped structure, the polishing arc plate (53305) is mounted on the polishing annular plate (53303) through a pin shaft, a pressing cylinder (53306) is uniformly mounted on the polishing arc plate (53305) along the circumferential direction of the polishing arc plate, a pressing support plate (53307) is mounted at the top end of the pressing cylinder (53306) through a flange, a sliding motor support plate (53308) is mounted on the outer wall of the pressing support plate (53307), a pressing electric sliding slider (53309) is mounted on the sliding motor support plate (53308), a pressing electric push rod (53310) is mounted on the pressing electric slider (53309), a, a pressing motor (53312) is installed on the pressing motor fixing plate (53311), a pressing bolt sleeve (53313) is installed on an output shaft of the pressing motor (53312), and the pressing bolt sleeve (53313) is of an inner hexagonal structure;

the pressing support plate (53307) is provided with threaded mounting holes at equal intervals, a pressing bolt (53314) is mounted in the mounting holes in a threaded meshing mode, the pressing bolt (53314) is of an outer hexagonal structure, a toothed pressing plate (53315) is mounted on the pressing bolt (53314), and the upper end of the toothed pressing plate (53315) is of a toothed structure.

2. A tempered glass processing system according to claim 1, wherein: the inner side of the lower end of the execution support frame (522) is symmetrically provided with a positioning sliding groove (528), and a positioning hole is formed in the positioning sliding groove (528) along the circumferential direction of the positioning sliding groove.

3. A tempered glass processing system according to claim 1, wherein: carry out cutting mechanism (54) including cutting electric putter (541), cutting fixed plate (542), cutting knife (543), auxiliary telescopic rod (544) and location ball (545), install on rotor plate (525) cutting electric putter (541) bottom, cutting electric putter (541) top is installed cutting fixed plate (542) through the flange, the mid-mounting of cutting fixed plate (542) has cutting knife (543), auxiliary telescopic rod (544) are installed to cutting fixed plate (542) both ends symmetry, install location ball (545) through the flange on auxiliary telescopic rod (544).

4. A tempered glass processing system according to claim 1, wherein: the polishing dust collector is characterized in that a polishing protective cover (53316) is arranged on the rotating plate (525) through a protective supporting plate (53321), the polishing protective cover (53316) is arranged on an output shaft of the polishing driving motor (531) through a bearing, the polishing protective cover (53316) is of a hollow cylindrical structure, a polishing groove is formed in the side wall of the polishing protective cover (53316), a dust outlet is formed in the top end of the polishing protective cover (53316), and a polishing dust collector (53317) is arranged on the dust outlet of the polishing protective cover (53316).

5. A tempered glass processing system according to claim 4, wherein: the polishing protective cover is characterized in that polishing arc-shaped protective covers (53318) are symmetrically arranged at the upper end and the lower end of the side wall of each polishing protective cover (53316) through pins, a protection electric push rod (53319) is arranged on each polishing arc-shaped protective cover (53318) through a pin, the protection electric push rods (53319) are arranged on the protection fixing plates (53320) through pins, and the protection fixing plates (53320) are arranged on the side wall of each polishing protective cover (53316).

6. A tempered glass processing system according to claim 1, wherein: the outer wall of the polishing arc-shaped plate (53305) is provided with a magic tape (53322), and the magic tape (53322) is provided with polishing sand paper (53323) in an adhesive mode.