CN113334182B

CN113334182B - Edge grinding machine for automobile glass

Info

Publication number: CN113334182B
Application number: CN202110897868.6A
Authority: CN
Inventors: 韦震
Original assignee: Jiangsu Jinsheng Chessboard Glass Technology Development Co ltd
Current assignee: Jiangsu Jinsheng Chessboard Glass Technology Development Co ltd
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2021-11-16
Anticipated expiration: 2041-08-05
Also published as: CN113334182A

Abstract

The invention discloses an edge grinding machine for automobile glass, which comprises a platform, wherein two rotationally symmetrical supporting blocks are fixedly arranged on the top surface of the platform, a limiting frame is fixedly arranged on the upper side of the platform, the top surfaces of the two supporting blocks are both fixed with the bottom surface of the limiting frame, a cavity is formed in the top surface of the platform, two bilaterally symmetrical first grinding plates are slidably arranged on the top surface of the platform, two first limiting rods which are symmetrical front and back are fixedly arranged on the top surfaces of the two first grinding plates, two second grinding plates which are symmetrical front and back are slidably arranged on the top surface of the platform, two second limiting rods which are symmetrical left and right are fixedly arranged on the top surfaces of the two second grinding plates, through mounting two groups of positioning mechanisms, front window glass and rear window glass can be respectively and fixedly mounted, so that the application range of the edge grinding machine is expanded, and four edge grinding wheels are mounted for simultaneous processing, can promote the efficiency of car glass edging.

Description

Edge grinding machine for automobile glass

Technical Field

The invention relates to the technical field of glass edging, in particular to an automobile glass edging machine.

Background

The automobile glass edging is one indispensable in the automobile glass processing technology, and automobile glass can make the glass edge level and smooth through the edging, but only use a emery wheel to carry out the edging processing to glass usually when the glass edging for the time that processing was spent is long, and work efficiency is low, and a machine generally only installs a glass positioning mechanism moreover, makes a machine can only process the automobile glass of a size type, makes the processing work piece of machine have the limitation, and application range is not high.

Disclosure of Invention

The invention aims to provide an edge grinding machine for automobile glass, which is used for overcoming the defects in the prior art.

The invention relates to an automobile glass edge grinding machine, which comprises a platform, wherein two rotationally symmetrical supporting blocks are fixedly arranged on the top surface of the platform, a limiting frame is fixedly arranged on the upper side of the platform, the top surfaces of the two supporting blocks are both fixed with the bottom surface of the limiting frame, a through hole is formed in the top surface of the limiting frame, the through hole vertically penetrates through the limiting frame, a cavity is formed in the top surface of the platform, two first grinding plates which are bilaterally symmetrical are slidably arranged on the top surface of the platform, two first limiting rods which are symmetrical in the front-back direction are fixedly arranged on the top surfaces of the two first grinding plates, a first cooling plate is slidably arranged on the upper sides of the two first grinding plates, the front ends and the back ends of the two first cooling plates are respectively and correspondingly slidably inserted into the first limiting rods on the same side, first sliding cavities are formed in the top surfaces of the two first grinding plates, and first sliding blocks are slidably arranged in the two first sliding cavities, the platform top surface is provided with two symmetrical second grinding plates in the front-back direction in a sliding mode, the two second grinding plate top surfaces are fixedly provided with two second limiting rods in the bilateral symmetry mode, the two second grinding plate upper sides are provided with second cooling plates in a sliding mode, the two second cooling plates are arranged on the left end and the right end of the second cooling plates in the second limiting rods in a corresponding sliding insertion mode and on the same side, a second sliding cavity is formed in each second grinding plate top surface, and a second sliding block is arranged in each second sliding cavity in a sliding mode.

According to the technical scheme, the left and right symmetrical first limiting cavities are formed in the top face of the platform, the two grinding motors are fixedly arranged in the bottom faces of the first grinding plates, the two grinding motors are dynamically connected with first grinding shafts on the bottom faces of the first grinding motors, the first gears are fixedly arranged on the peripheries of the first grinding shafts, the two inner walls, close to each other, of the first limiting cavities are meshed with the first gears on the same side respectively, the four first limiting rods are perpendicularly inserted into the bottom faces of the limiting frames, the first grinding motors are started to enable the first gears to rotate, the first grinding plates can slide back and forth, and therefore the first limiting rods and the first cooling plates can move back and forth.

In a further technical scheme, short grinding motors are fixedly arranged in the top surfaces of the two first sliding blocks, short grinding shafts are dynamically connected to the top surfaces of the two short grinding motors, short grinding wheels are fixedly arranged on the peripheries of the two short grinding shafts, the top surfaces of the two short grinding wheels are respectively inserted into the bottom surfaces of the first cooling plates on the same side, two short sliding shafts which are bilaterally symmetrical are rotatably arranged in the bottom surfaces of the two first sliding blocks, short sliding gears are fixedly arranged on the peripheries of the four short sliding shafts, the four short sliding gears are respectively meshed with the bottom walls of the first sliding cavities on the same side, two short sliding motors which are bilaterally symmetrical are fixedly arranged in the bottom surfaces of the two first sliding blocks, the four short sliding motors are respectively and dynamically connected with the short sliding shafts on the same side, the short sliding motors are started to rotate the short sliding gears, so that the two first sliding blocks and the first cooling plates can slide close to each other, and starting the short grinding motor to enable the short grinding shaft and the short grinding wheel to rotate.

According to the technical scheme, two symmetrical second limiting cavities are formed in the top surface of the platform, two grinding motors are fixedly arranged in the bottom surfaces of the second grinding plates, two grinding shafts are dynamically connected to the bottom surfaces of the two grinding motors, two second gears are fixedly arranged on the peripheries of the second grinding shafts, two inner walls, close to each other, of the second limiting cavities are meshed with the second gears on the same side respectively, the four second limiting rods are perpendicularly inserted into the bottom surfaces of the limiting frames, the two grinding motors are started to enable the second gears to rotate, the second grinding plates can slide back and forth, and therefore the second limiting rods and the second cooling plate can move back and forth.

In a further technical scheme, long grinding motors are fixedly arranged in the top surfaces of the two second sliding blocks, long grinding shafts are dynamically connected to the top surfaces of the two long grinding motors, long grinding wheels are fixedly arranged on the peripheries of the two long grinding shafts, the top surfaces of the two long grinding wheels are respectively inserted into the bottom surfaces of the second cooling plates on the same side, two long sliding shafts which are bilaterally symmetrical are rotatably arranged in the bottom surfaces of the two second sliding blocks, long sliding gears are fixedly arranged on the peripheries of the four long sliding shafts, the four long sliding gears are respectively meshed with the bottom walls of the second sliding cavities on the same side, two long sliding motors which are bilaterally symmetrical are fixedly arranged in the bottom surfaces of the two second sliding blocks, the four long sliding motors are respectively and dynamically connected with the long sliding shafts on the same side, the long sliding motors are started to rotate, so that the two second sliding blocks and the second cooling plates can slide close to each other, and starting the long grinding motor to enable the long grinding shaft and the long grinding wheel to rotate.

The technical scheme is that two first limiting plates which are bilaterally symmetrical are arranged in the top surface of the platform in a sliding manner, the two first limiting plates can slide out upwards from the platform, two bilaterally symmetrical short limiting shafts are arranged in the platform in a rotating manner, short limiting gears are fixedly arranged on the peripheries of the two short limiting shafts, the two short limiting gears are respectively meshed with the first limiting plates on the same side, two bilaterally symmetrical short limiting motors are fixedly arranged in the platform, the two short limiting motors are respectively in power connection with the short limiting shafts on the same side, a first baffle is arranged in the top surface of the platform in a sliding manner, the first baffle can slide out upwards from the platform, a short plate shaft is arranged in the platform in a rotating manner, a short plate gear is fixedly arranged on the periphery of the short plate shaft and meshed with the first baffle, a short plate motor is fixedly arranged in the platform, the short plate motor is in power connection with the short plate shaft, and the short plate motor is started to rotate the short plate gear, so that the first baffle slides upwards, the short limit motor is started to rotate the short limit gear, and the first limit plate slides upwards.

According to a further technical scheme, two bilaterally symmetrical second limiting plates are slidably arranged on the top surface of the platform, the two second limiting plates can slide out upwards from the platform, two bilaterally symmetrical long limiting shafts are arranged in the platform in a rotating mode, long limiting gears are fixedly arranged on the peripheries of the two long limiting shafts, the two long limiting gears are respectively meshed with the second limiting plates on the same side, two bilaterally symmetrical long limiting motors are fixedly arranged in the platform, the two long limiting motors are respectively in power connection with the long limiting shafts on the same side, a second baffle is slidably arranged on the top surface of the platform, the second baffle can slide out upwards from the platform, a long plate shaft is rotatably arranged in the platform, a long plate gear is fixedly arranged on the periphery of the long plate shaft and meshed with the second baffle, a long plate motor is fixedly arranged in the platform, the long plate motor is in power connection with the long plate shaft, the long plate motor is started to enable the long plate gear to rotate, the second baffle is enabled to slide upwards, the long limit motor is started to enable the long limit gear to rotate, and the second limit plate is enabled to slide upwards.

According to the technical scheme, cooling cavities are formed in the two first cooling plates and the two second cooling plates, water inlets are formed in the top walls of the four cooling cavities, water outlets are formed in the bottom walls of the four cooling cavities, two first suction columns which are bilaterally symmetrical are fixedly arranged on the top surface of the platform, two second suction columns which are bilaterally symmetrical are fixedly arranged on the front sides of the first suction columns, the bottom ends of the two second suction columns are fixed to the top surface of the platform, two suction cups are fixedly arranged on the top surfaces of the first suction columns and the two second suction columns, the suction cups can suck automobile glass, the automobile glass cannot slide, cooling water flows into the cooling cavities through the water inlets, and then the cooling water can flow out of the water outlets.

The invention relates to an automobile glass edge grinding machine, which comprises the following working processes:

step one, fixing glass:

when the workpiece is the automobile rear window glass, the short plate motor is started, the short plate gear is rotated, the first baffle is made to slide upwards, the two short limit motors are started, the two short limit gears are rotated, the two first limit plates are made to slide upwards, then the front side surface of the rear window glass is attached to the rear side surface of the first baffle, the left side surface and the right side surface of the rear window glass are respectively attached to the first limit plates on the same side, meanwhile, the bottom surface of the rear window glass is attached to the bottom surface of the sucking disc, and the sucking disc can suck the rear window glass, so that the rear window glass is fixed;

when the workpiece is the automobile windshield glass, the long plate motor is started, the long plate gear is rotated, the second baffle is made to slide upwards, the two long limit motors are started, the two long limit gears are rotated, the two second limit plates are made to slide upwards, then the front side surface of the windshield glass is attached to the rear side surface of the second baffle, the left side surface and the right side surface of the windshield glass are respectively attached to the second limit plates on the same side, and meanwhile, the bottom surface of the windshield glass is attached to the bottom surface of the suction cup, so that the suction cup can suck the windshield glass, and the windshield glass is fixed;

step two, cooling treatment:

cooling water flows into the four cooling cavities through the four water inlets respectively, so that the cooling water can correspondingly flow out of the four water outlets respectively, the cooling water is sprayed on the surfaces of the two short grinding wheels and the two long grinding wheels respectively, and the cooling water can cool the short grinding wheels and the long grinding wheels;

step three, edge pasting of a grinding wheel:

starting the two long grinding motors to enable the two long grinding shafts and the two long grinding wheels to rotate, then starting the four long sliding motors to enable the four long sliding gears to rotate, and enabling the two second sliding blocks and the second cooling plate to slide close to each other until the two long grinding wheels are correspondingly attached to the side faces of the automobile glass on the same side respectively;

meanwhile, the two short grinding motors are started to enable the two short grinding shafts and the two short grinding wheels to rotate, then the four short sliding motors are started to enable the four short sliding gears to rotate, and the two first sliding blocks and the first cooling plate can be enabled to slide close to each other until the two short grinding wheels are respectively correspondingly attached to the side faces of the automobile glass on the same side;

step four, grinding wheel edging:

starting the grinding motor to enable the first gear to rotate, so that the first grinding plate can slide back and forth, the first limiting rod and the first cooling plate can move back and forth, and the long grinding wheel can grind the side face of the automobile glass;

and meanwhile, the second grinding motor is started to rotate the second gear, so that the second grinding plate can slide back and forth, the second limiting rod and the second cooling plate can move back and forth, and the short grinding wheel can grind the side face of the automobile glass.

The invention has the beneficial effects that: the automobile glass edge grinding machine is provided with the two groups of positioning mechanisms, and can respectively fixedly install the front window glass and the rear window glass, so that the application range of the automobile glass edge grinding machine is expanded.

Drawings

FIG. 1 is a schematic view of the exterior of an automotive glass edge grinder of the present invention;

FIG. 2 is a schematic top view of an automotive glass edge grinding machine according to the present invention;

FIG. 3 is a schematic side view taken at A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic side view of the present invention at B-B of FIG. 2;

FIG. 5 is an enlarged, fragmentary, schematic view at C of FIG. 3 of the present invention;

fig. 6 is a schematic view of a portion of the mechanism of fig. 4 of the present invention.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one or several specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, as the terms up, down, left and right are not limited to their strict geometric definitions, but rather to include tolerances for machining or human error rationality and inconsistency, the specific features of which are set forth in detail below:

referring to the attached drawings, the edge grinding machine for automotive glass according to the embodiment of the invention comprises a platform 10, wherein two rotationally symmetric supporting blocks 11 are fixedly arranged on the top surface of the platform 10, a limiting frame 12 is fixedly arranged on the upper side of the platform 10, the top surfaces of the two supporting blocks 11 are both fixed with the bottom surface of a limiting frame 22, a through hole 20 is formed in the top surface of the limiting frame 12, the through hole 20 penetrates through the limiting frame 12 from top to bottom, a cavity 47 is formed in the top surface of the platform 10, two first grinding plates 15 which are bilaterally symmetric are slidably arranged on the top surface of the platform 10, two first limiting rods 19 which are symmetric from front to back are fixedly arranged on the top surfaces of the two first grinding plates 15, first cooling plates 48 are slidably arranged on the upper sides of the two first grinding plates 15, the front ends and the rear ends of the two first cooling plates 48 are respectively and slidably inserted into the first limiting rods 19 on the same side, first sliding cavities 17 are formed in the top surfaces of the two first grinding plates 15, two all slide in the first sliding cavity 17 and be equipped with first slider 39, slide on the platform 10 top surface and be equipped with two second mill boards 43 of longitudinal symmetry, two all fixed second limiting rod 46 that is equipped with two bilateral symmetry on the second mill board 43 top surface, two second mill board 43 upside all slides and is equipped with second cooling plate 49, two the end corresponds respectively about second cooling plate 49 and slides and insert the homonymy in the second limiting rod 46, two second sliding cavity 44, two have all been seted up on the second mill board 43 top surface all slide in the second sliding cavity 44 and be equipped with second slider 50.

Beneficially or exemplarily, two first limiting cavities 42 are formed in the top surface of the platform 10, which are bilaterally symmetrical, two grinding motors 31 are fixedly disposed in the bottom surfaces of the two first grinding plates 15, two first grinding shafts 32 are dynamically connected to the bottom surfaces of the two grinding motors 31, first gears 33 are fixedly disposed on the peripheries of the two first grinding shafts 32, inner walls, which are close to each other, of the two first limiting cavities 42 are respectively engaged with the first gears 33 on the same side, and the four first limiting rods 19 are vertically inserted into the bottom surfaces of the limiting frames 12, and the first grinding motors 31 are turned on to rotate the first gears 33, so that the first grinding plates 15 can slide back and forth, and the first limiting rods 19 and the first cooling plates 48 can move back and forth.

Beneficially or exemplarily, two short-grinding motors 28 are fixedly arranged in the top surfaces of the two first sliding blocks 39, two short-grinding shafts 18 are dynamically connected to the top surfaces of the two short-grinding motors 28, two short-grinding wheels 16 are fixedly arranged on the peripheries of the two short-grinding shafts 18, the top surfaces of the two short-grinding wheels 16 are respectively inserted into the bottom surfaces of the first cooling plates 48 on the same side, two bilaterally symmetrical short-sliding shafts 30 are rotatably arranged in the bottom surfaces of the two first sliding blocks 39, short-sliding gears 29 are fixedly arranged on the peripheries of the four short-sliding shafts 30, the four short-sliding gears 29 are respectively meshed with the bottom walls of the first sliding cavities 17 on the same side, two bilaterally symmetrical short-sliding motors are fixedly arranged in the bottom surfaces of the two first sliding blocks 39, the four short-sliding motors are respectively and dynamically connected with the short-sliding shafts 30 on the same side, the short-sliding motors are started to rotate the short-sliding gears 29, the two first sliders 39 and the first cooling plate 48 can be slid close to each other, and the short grinding motor 28 is turned on to rotate the short grinding shaft 18 and the short grinding wheel 16.

Beneficially or exemplarily, two second limiting cavities 38 symmetrical to each other in the front-back direction are formed in the top surface of the platform 10, two grinding motors 52 are fixedly arranged in the bottom surfaces of the two second grinding plates 43, two second grinding shafts 53 are dynamically connected to the bottom surfaces of the two second grinding motors 52, second gears 54 are fixedly arranged on the peripheries of the two second grinding shafts 53, inner walls, close to each other, of the two second limiting cavities 38 are respectively engaged with the second gears 54 on the same side, and the four second limiting rods 46 are vertically inserted into the bottom surface of the limiting frame 12, and the two grinding motors 52 are turned on to rotate the second gears 54, so that the second grinding plates 43 can slide in the front-back direction, and the second limiting rods 46 and the second cooling plate 49 can move in the front-back direction.

Beneficially or exemplarily, two long grinding motors 55 are fixedly arranged in the top surfaces of the two second sliding blocks 50, two long grinding shafts 51 are dynamically connected to the top surfaces of the two long grinding motors 55, two long grinding wheels 45 are fixedly arranged on the peripheries of the two long grinding shafts 51, the top surfaces of the two long grinding wheels 45 are respectively inserted into the bottom surfaces of the second cooling plates 49 on the same side, two long sliding shafts 56 which are bilaterally symmetrical are rotatably arranged in the bottom surfaces of the two second sliding blocks 50, four long sliding gears 57 are fixedly arranged on the peripheries of the four long sliding shafts 56, the four long sliding gears 57 are respectively engaged with the bottom walls of the second sliding cavities 44 on the same side, two long sliding motors which are bilaterally symmetrical are fixedly arranged in the bottom surfaces of the two second sliding blocks 50, the four long sliding motors are respectively and dynamically connected with the long sliding shafts 51 on the same side, the long sliding motors are turned on to rotate the long sliding gears 57, the two second sliders 50 and the second cooling plate 49 can be slid close to each other, and the long grinding motor 55 is turned on to rotate the long grinding shaft 51 and the long grinding wheel 45.

Beneficially or exemplarily, two first limiting plates 23 which are bilaterally symmetrical are slidably arranged in the top surface of the platform 10, both the first limiting plates 23 can slide upwards from the platform 10, two short limiting shafts 26 which are bilaterally symmetrical are rotatably arranged in the platform 10, short limiting gears 27 are fixedly arranged on the peripheries of both the short limiting shafts 26, both the short limiting gears 27 are respectively engaged with the first limiting plates 23 on the same side, two short limiting motors which are bilaterally symmetrical are fixedly arranged in the platform 10, both the short limiting motors are respectively in power connection with the short limiting shafts 26 on the same side, a first baffle 35 is slidably arranged in the top surface of the platform 10, the first baffle 35 can slide upwards from the platform 10, a short plate shaft 59 is rotatably arranged in the platform 10, a short plate gear 58 is fixedly arranged on the periphery of the short plate shaft 59, and the short plate gear 58 is engaged with the first baffle 35, platform 10 internal fixation is equipped with the short slab motor, the short slab motor with short slab axle 59 power connection opens the short slab motor, makes short slab gear 58 rotates, makes first baffle 35 upwards slides, opens short limit motor, makes short limit gear 27 rotates, makes first limiting plate 23 upwards slides.

Beneficially or exemplarily, two bilaterally symmetrical second limiting plates 22 are slidably disposed in the top surface of the platform 10, both the two second limiting plates 22 can slide out from the platform 10 upwards, two bilaterally symmetrical long limiting shafts 25 are rotatably disposed in the platform 10, long limiting gears 24 are fixedly disposed on the peripheries of both the two long limiting shafts 25, both the two long limiting gears 24 are respectively engaged with the second limiting plates 22 on the same side, two bilaterally symmetrical long limiting motors are fixedly disposed in the platform 10, both the long limiting motors are respectively in power connection with the long limiting shafts 25 on the same side, a second baffle 34 is slidably disposed in the top surface of the platform 10, the second baffle 34 can slide out from the platform 10 upwards, a long plate shaft 36 is rotatably disposed in the platform 10, a long plate gear 37 is fixedly disposed on the periphery of the long plate shaft 36, the long plate gear 37 is engaged with the second baffle 34, the platform 10 internal fixation is equipped with the long slab motor, the long slab motor with long slab axle 36 power connection opens the long slab motor, makes long slab gear 37 rotate, makes second baffle 34 upwards slide, opens the long limit motor, makes long limit gear 24 rotate, makes second limiting plate 22 upwards slide.

Beneficially or exemplarily, two cooling plates 48 and two cooling plates 49 have cooling cavities 60 formed therein, four cooling cavities 60 have water inlets 61 formed on top walls of the four cooling cavities 60, four cooling cavities 60 have water outlets 62 formed on bottom walls of the four cooling cavities, two first suction pillars 13 that are bilaterally symmetrical are fixed on the top surface of the platform 10, two second suction pillars 14 that are bilaterally symmetrical are fixed on front sides of the two first suction pillars 13, bottom ends of the two second suction pillars 14 are fixed on the top surface of the platform 10, suction cups 21 are fixed on top surfaces of the two first suction pillars 13 and the two second suction pillars 14, and the suction cups 21 can suck the automobile glass to prevent the automobile glass from sliding, and the cooling water flows into the cooling cavities 60 through the water inlets 61, so that the cooling water can flow out of the water outlets 62.

step one, fixing glass:

when the workpiece is the rear window glass of an automobile, the short plate motor is started, the short plate gear 58 is rotated, the first baffle 35 is made to slide upwards, the two short limit motors are started, the two short limit gears 27 are rotated, the two first limit plates 23 are made to slide upwards, then the front side surface of the rear window glass is attached to the rear side surface of the first baffle 35, the left side surface and the right side surface of the rear window glass are respectively attached to the first limit plates 23 on the same side, and meanwhile, the bottom surface of the rear window glass is attached to the bottom surface of the suction cup 21, so that the suction cup 21 can suck the rear window glass, and the rear window glass is fixed;

when the workpiece is the automobile windshield, the long plate motor is started, the long plate gear 37 is rotated, the second baffle 34 is made to slide upwards, the two long limit motors are started, the two long limit gears 24 are rotated, the two second limit plates 22 are made to slide upwards, then the front side surface of the windshield is attached to the rear side surface of the second baffle 34, the left side surface and the right side surface of the windshield are respectively attached to the second limit plates 22 on the same side, and the bottom surface of the windshield is attached to the bottom surface of the suction cup 21, so that the suction cup 21 can suck the windshield, and the windshield is fixed;

step two, cooling treatment:

cooling water flows into the four cooling cavities 60 through the four water inlets 61, and can correspondingly flow out of the four water outlets 62, so that the cooling water is sprayed on the surfaces of the two short grinding wheels 16 and the two long grinding wheels 45, and the cooling water can cool the short grinding wheels 16 and the long grinding wheels 45;

step three, edge pasting of a grinding wheel:

starting the two long grinding motors 55 to enable the two long grinding shafts 51 and the two long grinding wheels 45 to rotate, then starting the four long sliding motors to enable the four long sliding gears 57 to rotate, so that the two second sliding blocks 50 and the second cooling plate 49 can slide close to each other until the two long grinding wheels 45 are respectively attached to the side faces of the automobile glass on the same side;

meanwhile, two short grinding motors 28 are started to enable two short grinding shafts 18 and two short grinding wheels 16 to rotate, then four short sliding motors are started to enable four short sliding gears 29 to rotate, and then two first sliding blocks 39 and the first cooling plate 48 can be enabled to slide close to each other until the two short grinding wheels 16 are respectively correspondingly attached to the side faces of the automobile glass on the same side;

step four, grinding wheel edging:

turning on the first grinding motor 31 to rotate the first gear 33, so that the first grinding plate 15 can slide back and forth, and the first limiting rod 19 and the first cooling plate 48 can move back and forth, so that the long grinding wheel 45 can grind the side surface of the automobile glass;

meanwhile, the second grinding motor 52 is turned on to rotate the second gear 54, so that the second grinding plate 43 can slide back and forth, and the second limiting rod 46 and the second cooling plate 49 can move back and forth, so that the short grinding wheel 16 can grind the side surface of the automobile glass.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides an automobile glass edging machine, includes the platform, its characterized in that: the top surface of the platform is fixedly provided with two rotationally symmetrical supporting blocks, the upper side of the platform is fixedly provided with a limiting frame, the top surfaces of the two supporting blocks are fixed with the bottom surface of the limiting frame, the top surface of the limiting frame is provided with an opening which vertically penetrates through the limiting frame, the top surface of the platform is provided with a cavity, the top surface of the platform is slidably provided with two bilaterally symmetrical first grinding plates, the top surfaces of the two first grinding plates are fixedly provided with two front-back symmetrical first limiting rods, the upper sides of the two first grinding plates are slidably provided with first cooling plates, the front ends and the back ends of the two first cooling plates are respectively correspondingly slidably inserted into the first limiting rods on the same side, the top surfaces of the two first grinding plates are respectively provided with a first sliding cavity, the two first sliding cavities are respectively slidably provided with a first sliding block, and the top surface of the platform is slidably provided with two front-back symmetrical second grinding plates, two second limiting rods which are bilaterally symmetrical are fixedly arranged on the top surfaces of the two second grinding plates, second cooling plates are arranged on the upper sides of the two second grinding plates in a sliding mode, the left ends and the right ends of the two second cooling plates are correspondingly inserted into the second limiting rods on the same side in a sliding mode respectively, second sliding cavities are formed in the top surfaces of the two second grinding plates, and second sliding blocks are arranged in the two second sliding cavities in a sliding mode; short grinding motors are fixedly arranged in the top surfaces of the two first sliding blocks, short grinding shafts are dynamically connected to the top surfaces of the two short grinding motors, short grinding wheels are fixedly arranged on the peripheries of the two short grinding shafts, the top surfaces of the two short grinding wheels are respectively inserted into the bottom surfaces of the first cooling plates on the same side, two short sliding shafts which are bilaterally symmetrical are rotatably arranged in the bottom surfaces of the two first sliding blocks, short sliding gears are fixedly arranged on the peripheries of the four short sliding shafts, the four short sliding gears are respectively meshed with the bottom walls of the first sliding cavities on the same side, two short sliding motors which are bilaterally symmetrical are fixedly arranged in the bottom surfaces of the two first sliding blocks, and the four short sliding motors are respectively in power connection with the short sliding shafts on the same side; long grinding motors are fixedly arranged in the top surfaces of the two second sliding blocks, long grinding shafts are dynamically connected to the top surfaces of the two long grinding motors, long grinding wheels are fixedly arranged on the peripheries of the two long grinding shafts, the top surfaces of the two long grinding wheels are respectively inserted into the bottom surfaces of the second cooling plates on the same side, two long sliding shafts which are bilaterally symmetrical are rotatably arranged in the bottom surfaces of the two second sliding blocks, long sliding gears are fixedly arranged on the peripheries of the four long sliding shafts, the four long sliding gears are respectively meshed with the bottom walls of the second sliding cavities on the same side, two long sliding motors which are bilaterally symmetrical are fixedly arranged in the bottom surfaces of the two second sliding blocks, and the four long sliding motors are respectively in power connection with the long sliding shafts on the same side; the top surface of the platform is internally provided with two bilaterally symmetrical first limiting plates in a sliding manner, the two first limiting plates can slide out upwards from the inside of the platform, the platform is internally and rotatably provided with two bilaterally symmetrical short limiting shafts, short limiting gears are fixedly arranged on the peripheries of the two short limiting shafts, the two short limiting gears are respectively meshed with the first limiting plates on the same side, two bilaterally symmetrical short limiting motors are fixedly arranged in the platform, the two short limiting motors are respectively in dynamic connection with the short limiting shafts on the same side, a first baffle is arranged in the top surface of the platform in a sliding manner, and the first baffle can slide out upwards from the inside of the platform; the top surface of the platform is internally provided with two bilaterally symmetrical second limiting plates in a sliding manner, the two second limiting plates can slide out upwards from the inside of the platform, the platform is internally and rotatably provided with two bilaterally symmetrical long limiting shafts, long limiting gears are fixedly arranged on the peripheries of the two long limiting shafts, the two long limiting gears are respectively meshed with the second limiting plates on the same side, the platform is internally and fixedly provided with two bilaterally symmetrical long limiting motors, the two long limiting motors are respectively in dynamic connection with the long limiting shafts on the same side, a second baffle plate is arranged in the top surface of the platform in a sliding manner, and the second baffle plate can slide out upwards from the inside of the platform;

two first limiting cavities which are bilaterally symmetrical are formed in the top surface of the platform, a grinding motor is fixedly arranged in each of the two first grinding plate bottom surfaces, a first grinding shaft is dynamically connected to each of the two grinding motor bottom surfaces, first gears are fixedly arranged on the peripheries of the two first grinding shafts, the inner walls, close to each other, of the two first limiting cavities are respectively meshed with the first gears on the same side, and four first limiting rods are vertically inserted into the limiting frame bottom surfaces;

two second limiting cavities which are symmetrical in the front-back direction are formed in the top surface of the platform, two grinding motors are fixedly arranged in the bottom surfaces of the two second grinding plates, second grinding shafts are dynamically connected to the bottom surfaces of the two second grinding motors, second gears are fixedly arranged on the peripheries of the two second grinding shafts, the inner walls, close to each other, of the two second limiting cavities are respectively meshed with the second gears on the same side, and the four second limiting rods are vertically inserted into the bottom surfaces of the limiting frames;

a short plate shaft is rotationally arranged in the platform, a short plate gear is fixedly arranged on the periphery of the short plate shaft and is meshed with the first baffle, a short plate motor is fixedly arranged in the platform, and the short plate motor is in power connection with the short plate shaft;

the platform internal rotation is equipped with the long slab axle, fixed being equipped with the long slab gear on the long slab axle periphery, the long slab gear with the meshing of second baffle, the platform internal fixation is equipped with the long slab motor, the long slab motor with long slab axle power is connected.

2. The automotive glass edging machine according to claim 1, characterized in that: two cooling chamber, four have all been seted up in first cooling plate and two the second cooling plate the water inlet has all been seted up on the cooling chamber roof, four the delivery port has all been seted up on the cooling chamber diapire, the first suction column of two bilateral symmetry, two is fixed on the platform top surface the fixed second that is equipped with two bilateral symmetry in first suction column front side is inhaled the post, two the second inhale the post bottom all with the platform top surface is fixed, two first suction column and two all fixed sucking discs that are equipped with on the second suction column top surface.