CN114573220B - Glass cutting machine with material pile up neatly function - Google Patents

Abstract

The invention relates to the technical field of glass cutting machines, in particular to a glass cutting machine with a material stacking function, which comprises a glass cutting machine main body, wherein a positioning structure is connected to the glass cutting machine main body, an adjusting structure is connected to the positioning structure, an adsorption structure is connected to the glass cutting machine main body, a stacking structure is connected to the glass cutting machine main body, a collision structure is connected to the stacking structure, and a carrying structure is arranged on the stacking structure; the glass that needs to cut is convenient for make through location structure promote the centre of glass-cutting machine main part mesa, promotes glass slip when being convenient for location structure to glass location through adjustment structure, and on the pile up neatly structure was carried to glass after being convenient for cut through the adsorption structure, pile up neatly structure was convenient for place glass after the cutting, the pile up neatly structure motion when the glass transport can be avoided to the conflict structure, is convenient for carry the glass that the pile up neatly is good through carrying structure, avoids glass fish tail hand.

Description

Glass cutting machine with material pile up neatly function

Technical Field

The invention relates to the technical field of glass cutting machines, in particular to a glass cutting machine with a material stacking function.

Background

The glass cutting machine is a special processing machine for glass processing and blanking, and comprises an air-floating type sheet feeding table and a double-bridge overpass cutting table which are arranged end to end, and the efficiency of glass cutting is greatly improved through automatic control.

At present, the glass is usually required to be manually placed on the center position of a table top of a glass cutting machine, the glass cutting machine is used for positioning and cutting, the operation is troublesome, the glass cutting machine is used for stacking the glass by a common placing rack, after the cut glass is broken off, the glass is required to be placed on the placing rack by hands, the glass is easy to scratch, when the glass is placed on the placing rack, the glass is required to be manually aligned and transported, the glass edge is sharp, and the glass is dangerous during manual operation.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a glass cutting machine with a material stacking function.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a glass-cutting machine with material pile up neatly function, includes the glass-cutting machine main part, be connected with the location structure that is used for carrying out the location to glass on the glass-cutting machine main part, be connected with the adjustment structure that is used for adjusting glass position on the location structure, be connected with the adsorption structure that is used for adsorbing glass on the glass-cutting machine main part, be connected with the pile up neatly structure that is used for carrying out the pile up neatly to glass on the glass-cutting machine main part, be connected with the conflict structure that is used for preventing the slip on the pile up neatly structure, the pile up neatly structure is furnished with the transport structure that is used for carrying;

the positioning structure comprises a moving block, a pair of moving blocks are slidably connected inside a glass cutter main body, one end of the glass cutter main body is rotationally connected with a screw rod, one end of the screw rod, which is located on the outer side of the glass cutter main body, is fixedly connected with a handle, one end of the screw rod, which is located inside the glass cutter main body, is in threaded connection with one moving block, a rack is fixedly connected to the moving block, the rack is slidably connected with the glass cutter main body, the rack is respectively meshed with two sides of a gear, the inner part of the glass cutter main body is rotationally connected with the gear, the top end of the moving block is fixedly connected with a pushing rod, the pushing rod is slidably connected with the glass cutter main body, one end, which is opposite to the pushing rod, of the screw rod is fixedly connected with a plurality of positioning blocks, the positioning blocks are rectangular, and the positioning blocks are made of rubber materials.

Specifically, the adjustment structure includes the carriage release lever, sliding connection has many pairs of carriage release levers on the carriage release lever, every pair the carriage release lever is close to the equal fixedly connected with rubber wheel in the one end of locating piece, the base end and the carriage release lever fixedly connected with of rubber wheel are a pair of third spring, the activity cup joints between third spring and the carriage release lever.

Specifically, pile up neatly structure includes the slide bar, the one end fixedly connected with of glass-cutting machine main part is two pairs of slide bars, every pair of the one end sliding connection of slide bar is on placing the case, the one end of glass-cutting machine main part is furnished with a pair of case of placing, the bottom of placing the case is installed two pairs of movable wheels, the inside of placing the case is equipped with two pairs of spouts, the inner wall of placing the case has the rack through two pairs of spout sliding connection, the equal fixedly connected with fixture block in both ends of rack, the inside top fixedly connected with extension spring of rack and placing case both sides lateral wall, the inside equal rotation of rack and the inside card strip that is connected with of placing case both sides lateral wall, the card strip is saw blade shape structure, fixture block and card strip joint, fixedly connected with second spring between card strip and the placing the case, the equal sliding connection in place case top both sides is pressed the piece, the first spring of fixedly connected with between pressing the piece and the placing the case, the one end and the card strip of pressing the piece are contradicted, the tangent plane of fixture block is right trapezoid structure, the tangent plane is pressed to the piece, the end is the inclined plane of pressing piece and card strip.

Specifically, the conflict structure includes conflict groove, the slide bar is located the inside one end of placing the case and is equipped with conflict groove, the one end sliding connection who places the case and be located conflict groove has a pair of ball, the one end of ball can stretch into conflict groove, it has the fourth spring to contradict between ball and the placing the case, conflict groove is hemispherical structure, the diameter of ball is the same with the diameter in conflict groove.

Specifically, the transport structure includes the carrier, place case sliding connection has the carrier, a pair of universal wheel is installed to the bottom of carrier, the one end sliding connection of carrier has two pairs of slide columns, two pairs of the top fixedly connected with loading board of slide column, the carrier is located the below rotation of loading board and is connected with the pinch bar, the one end of pinch bar runs through carrier and with carrier sliding connection, the pinch bar runs through the one end fixedly connected with footboard of carrier, the pinch bar deviates from the one end of footboard and contradicts with the bottom of loading board, the one end of loading board is equipped with the locking groove, the inner wall fixedly connected with locking piece of placing the case, the locking piece can be through locking groove and loading board joint, the locking piece is "L" shape structure, the locking groove is rectangular structure.

Specifically, the adsorption structure comprises a vacuum pump, wherein the vacuum pump is arranged at one end of the glass cutting machine body, and one side of the vacuum pump is connected with a sucker through an air pipe.

The beneficial effects of the invention are as follows:

(1) According to the glass cutting machine with the material stacking function, the positioning structure for positioning glass is connected to the glass cutting machine main body, the adjusting structure for adjusting the position of the glass is connected to the positioning structure, the glass to be cut is conveniently pushed to the middle of the table top of the glass cutting machine main body through the positioning structure, and the glass is conveniently pushed to slide when the glass is positioned by the positioning structure through the adjusting structure, namely: when glass is required to be cut, the glass is placed on a table top of a glass cutting machine main body, a handle is rotated, the handle drives a screw rod to rotate, the screw rod drives a moving block in threaded connection with the screw rod to move towards a gear, under the cooperation of a pair of racks and gears, the pair of moving blocks move towards each other, so that a pair of pushing rods are driven to move towards each other, the pair of pushing rods are close to each other, when the glass is required to be fixed, the handle is continuously rotated, a third spring is compressed, a rubber wheel is continuously moved towards the direction of the pushing rods, a positioning block is tightly abutted against the glass, so that the glass is limited to move, the glass is fixedly and is conveniently positioned by the glass cutting machine during cutting, the rubber wheel is abutted against the side edge of the glass, the rubber wheel pushes the glass to move to the middle of the table top of the glass cutting machine main body, the rubber wheels on the two sides are abutted against the glass, the moving rods move towards the inside the pushing rods, the third spring is compressed, when the glass is required to be adjusted at a transverse position, the glass can be pushed to slide along a straight line, and the rubber wheel is rotated, so that the glass is convenient to slide.

(2) According to the glass cutting machine with the material stacking function, the adsorption structure for adsorbing glass is connected to the glass cutting machine main body, the stacking structure for stacking glass is connected to the glass cutting machine main body, the sliding preventing structure is connected to the stacking structure, the glass after cutting is convenient to carry to the stacking structure through the adsorption structure, the stacking structure is convenient to place the glass after cutting, and the stacking structure can avoid movement of the stacking structure during glass carrying, namely: when glass cutting is good, place the case outward pulling, place the case and will outwards slide under the effect of removing the wheel, the one end of slide bar will stretch out and place the case, under the promotion of fourth spring, the one end of ball will enter into the conflict groove that the diameter is the same, thereby the random slip of restriction slide bar, thereby place the case and rock when the pile up neatly, break off with the fingers and thumb the glass that will cut, start the vacuum pump, alright carry the inside of placing the case to glass through the sucking disc, make the steady and rack upper surface of glass's bottom surface contradict, at the unclamp sucking disc, thereby alright carry glass, avoid glass fish tail hand, when glass is put more and more, under the action of gravity, the rack will follow spout downward movement, the extension of extension spring, right trapezoid fixture block will promote the card strip slightly to rotate, second spring promotes saw bar card strip and conflict, thereby make the fixture block can only unidirectional downward movement, thereby make the glass upper strata that holds to be close to the top of placing the case, thereby be convenient for glass to place.

(3) The invention relates to a glass cutting machine with a material stacking function, wherein a stacking structure is provided with a carrying structure for carrying, the carrying structure is convenient for carrying the stacked glass, and the glass is prevented from being scratched by hands, namely: after the cut glass is stacked, the pedal is stepped on by feet, the pedal drives the pry bar to rotate, the rotating end of the pry bar is close to the bearing plate, the labor-saving effect is achieved, the bearing plate is pushed to move upwards, the stacked glass is supported by the bearing plate, the glass at the bottom is separated from the bearing rack, the sliding column is driven to slide upwards, the locking groove is separated from the locking block, the locking block is not limited to the bearing plate any more, the carrier is pulled outwards while the pedal is stepped on, under the action of the universal wheels, the carrier can be pulled out of the bearing box, the pedal is slowly released, the bearing plate is slowly moved downwards to reset, the carrier is convenient to carry the glass, after the glass is detached, the pedal is stepped on, the carrier is pushed into the bearing box, the pedal is released, the bearing plate is moved downwards, and the carrier is prevented from being pulled into the locking groove, so that the carrier is limited again.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the whole structure of a glass cutter with material stacking function according to a preferred embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is a schematic view of a connection structure between a glass cutter body and a wire rod according to the present invention;

FIG. 5 is a schematic view of the connection structure of the placement box and the slide bar of the present invention;

FIG. 6 is a schematic diagram of a connection structure between a rack and a clamping block according to the present invention;

FIG. 7 is a schematic view of a connection structure between a holding box and a clip strip according to the present invention;

FIG. 8 is an enlarged schematic view of the structure of the portion C shown in FIG. 7;

FIG. 9 is a schematic view of a connection structure of a truck and a strut according to the present invention;

fig. 10 is a schematic diagram of a connection structure between a truck and a pry bar according to the present invention.

In the figure: 1. a glass cutter body; 2. a positioning structure; 201. a handle; 202. a push rod; 203. a positioning block; 204. a screw rod; 205. a rack; 206. a gear; 207. a moving block; 3. an adsorption structure; 301. a vacuum pump; 302. a suction cup; 4. a stacking structure; 401. placing a box; 402. a slide bar; 403. a moving wheel; 404. a chute; 405. a placing rack; 406. a clamping block; 407. clamping strips; 408. a tension spring; 409. a first spring; 410. a pressing block; 411. a second spring; 5. a carrying structure; 501. a carrier; 502. a universal wheel; 503. a pedal; 504. a locking block; 505. a carrying plate; 506. a spool; 507. a pry bar; 508. a locking groove; 6. adjusting the structure; 601. a rubber wheel; 602. a moving rod; 603. a third spring; 7. a collision structure; 701. a collision groove; 702. a ball; 703. and a fourth spring.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-10, the glass cutting machine with the material stacking function comprises a glass cutting machine main body 1, wherein a positioning structure 2 for positioning glass is connected to the glass cutting machine main body 1, an adjusting structure 6 for adjusting the position of the glass is connected to the positioning structure 2, an adsorption structure 3 for adsorbing the glass is connected to the glass cutting machine main body 1, a stacking structure 4 for stacking the glass is connected to the glass cutting machine main body 1, a sliding preventing interference structure 7 is connected to the stacking structure 4, and a carrying structure 5 for carrying is arranged on the stacking structure 4;

the positioning structure 2 comprises a moving block 207, a pair of moving blocks 207 are slidably connected inside the glass cutter body 1, a screw rod 204 is rotatably connected to one end of the glass cutter body 1, a handle 201 is fixedly connected to one end of the screw rod 204, which is located outside the glass cutter body 1, one end of the screw rod 204, which is located inside the glass cutter body 1, is in threaded connection with one of the moving blocks 207, a rack 205 is fixedly connected to the moving blocks 207, the rack 205 is slidably connected with the glass cutter body 1, a pair of racks 205 are respectively meshed with two sides of a gear 206, the inside of the glass cutter body 1 is rotatably connected with the gear 206, a push rod 202 is fixedly connected to the top end of the moving block 207, the push rod 202 is slidably connected with the glass cutter body 1, a plurality of positioning blocks 203 are fixedly connected to opposite ends of the push rod 202, the positioning blocks 203 are rectangular, and the positioning blocks 203 are made of rubber materials; when glass needs to be cut, the glass is placed on a table top of the glass cutting machine main body 1, the handle 201 is rotated, the handle 201 drives the screw rod 204 to rotate, the screw rod 204 drives the moving block 207 in threaded connection with the screw rod 204 to move towards the gear 206, under the cooperation of the pair of racks 205 and the gear 206, the pair of moving blocks 207 move towards each other, so that the pair of pushing rods 202 are driven to move towards each other, the pair of pushing rods 202 approach the placed glass, when the glass needs to be fixed, the handle 201 is continuously rotated, the third spring 603 compresses, the rubber wheel 601 continuously moves towards the pushing rods 202, the positioning block 203 tightly abuts against the glass, so that glass movement is limited, the glass is firmly fixed, and the glass is conveniently positioned when the glass cutting machine is used for cutting.

Specifically, the adjusting structure 6 includes a moving rod 602, a plurality of pairs of moving rods 602 are slidably connected to the pushing rod 202, a rubber wheel 601 is fixedly connected to one end of each pair of moving rods 602, which is close to the positioning block 203, a pair of third springs 603 are fixedly connected to the base end of the rubber wheel 601 and the pushing rod 202, and the third springs 603 are movably sleeved with the moving rods 602; rubber wheel 601 will be contradicted with the glass side earlier, and rubber wheel 601 promotes glass motion to the centre of glass cutting machine main part 1 mesa, and the rubber wheel 601 on both sides will be contradicted with glass, and movable rod 602 will be to the inside motion of push rod 202, and third spring 603 will compress, can promote glass when needs adjust glass in horizontal position, and glass will slide along the straight line, and rubber wheel 601 will rotate to the slip of glass is convenient for.

Specifically, the stacking structure 4 includes a slide bar 402, one end of the glass cutter body 1 is fixedly connected with two pairs of slide bars 402, one end of each pair of slide bars 402 is slidably connected to the placement box 401, one end of the glass cutter body 1 is provided with a pair of placement boxes 401, two pairs of moving wheels 403 are mounted at the bottom ends of the placement boxes 401, two pairs of sliding grooves 404 are formed in the placement boxes 401, the inner walls of the placement boxes 401 are slidably connected with placement frames 405 through the two pairs of sliding grooves 404, two ends of the placement frames 405 are fixedly connected with clamping blocks 406, the top ends of the inner side walls of the two sides of the placement frames 405 are fixedly connected with tension springs 408, the inner sides of the side walls of the two sides of the placement boxes 401 are rotatably connected with clamping strips 407, the clamping strips 407 are in a saw blade structure, the clamping blocks 406 are clamped with the clamping strips 407, a second spring 411 is fixedly connected between the clamping strips 407, two sides of the top ends of the placement boxes 401 are slidably connected with pressing blocks 410, the pressing blocks 410 are fixedly connected with the first spring blocks 409 between the pressing blocks 410 and the placement boxes 401, and the pressing blocks are in a right-angle shape of a trapezoid shape, and the clamping strips 410 are in a collision section; when more and more glass is placed, under the action of gravity, the placing frame 405 moves downwards along the sliding groove 404, the tension spring 408 stretches, the right-angle trapezoid clamping block 406 pushes the clamping strip 407 to slightly rotate, the second spring 411 pushes the saw-shaped clamping strip 407 to abut against the clamping block 406, so that the clamping block 406 can only move downwards in one direction, the upper layer of the stacked glass is kept close to the top end of the placing box 401, the placing of the glass is facilitated, when the placing frame 405 needs to be reset, the pressing block 410 is pressed, the first spring 409 compresses, the inclined surface end of the pressing block 410 pushes the clamping strip 407 to rotate, the second spring 411 compresses, the clamping strip 407 and the clamping block 406 are separated, and the placing frame 405 moves upwards to reset under the pulling of the tension spring 408, so that the next work is facilitated.

Specifically, the abutting structure 7 includes an abutting groove 701, an abutting groove 701 is formed at one end of the sliding rod 402 located inside the placement box 401, a pair of balls 702 are slidably connected to one end of the placement box 401 located inside the abutting groove 701, one end of each ball 702 can extend into the abutting groove 701, a fourth spring 703 abuts against the space between each ball 702 and the placement box 401, the abutting groove 701 is in a hemispherical structure, and the diameters of the balls 702 and the abutting groove 701 are the same; when the glass is cut, the placing box 401 is pulled outwards, the placing box 401 slides outwards under the action of the moving wheel 403, one end of the sliding rod 402 extends out of the placing box 401, and under the pushing of the fourth spring 703, one end of the ball 702 enters into the abutting groove 701 with the same diameter, so that random sliding of the sliding rod 402 is limited, and shaking of the placing box 401 during stacking is avoided.

Specifically, the carrying structure 5 includes a carrier 501, the placing box 401 is slidably connected with the carrier 501, a pair of universal wheels 502 are installed at the bottom end of the carrier 501, one end of the carrier 501 is slidably connected with two pairs of sliding columns 506, the top ends of the two pairs of sliding columns 506 are fixedly connected with a bearing plate 505, the carrier 501 is located below the bearing plate 505 and is rotatably connected with a pry bar 507, one end of the pry bar 507 penetrates through the carrier 501 and is slidably connected with the carrier 501, one end of the pry bar 507 penetrates through the carrier 501 and is fixedly connected with a pedal 503, one end of the pry bar 507 deviating from the pedal 503 is abutted against the bottom end of the bearing plate 505, one end of the bearing plate 505 is provided with a locking groove 508, the inner wall of the placing box 401 is fixedly connected with a locking block 504, the locking block 504 can be clamped with the bearing plate 505 through the locking groove 508, the locking block 504 is in an L-shaped structure, and the locking groove 508 is in a rectangular structure; after the cut glass is stacked, the pedal 503 is stepped on by feet, the pedal 503 drives the pry bar 507 to rotate, the rotating end of the pry bar 507 is close to the bearing plate 505, the labor-saving effect is achieved, the bearing plate 505 is pushed to move upwards, the stacked glass is supported by the bearing plate 505, the glass at the bottom and the bearing rack 405 are separated, the sliding column 506 is driven to slide upwards, the locking groove 508 is separated from the locking block 504, the locking block 504 is not limited to the bearing plate 505 any more, the carrier 501 is pulled outwards while the pedal 503 is stepped on, the pedal 503 is slowly released under the action of the universal wheel 502, the carrier 501 can be pulled out of the bearing box 401, the carrier 503 is slowly moved downwards to reset under the gravity of the glass, the carrier 501 is conveniently carried by the carrier 501, the pedal 503 is lifted after the glass is detached, the carrier 501 is pushed into the placing box 401, the pedal 503 is released, the carrier 505 is moved downwards, and the carrier 501 is pulled into the locking groove 508, and the carrier 501 is again limited.

Specifically, the adsorption structure 3 includes a vacuum pump 301, one end of the glass cutter body 1 is provided with the vacuum pump 301, and one side of the vacuum pump 301 is connected with a sucker 302 through an air pipe; breaking off the cut glass off with the fingers and thumb, start vacuum pump 301, alright carry the inside of placing case 401 to glass through sucking disc 302, make the steady and rack 405 upper surface of glass's bottom surface conflict, loosen sucking disc 302 to alright carry glass, avoid glass fish tail hand.

When the glass cutting machine is used, firstly, when glass is required to be cut, the glass is placed on the table top of the glass cutting machine main body 1, the handle 201 is rotated, the handle 201 drives the screw rod 204 to rotate, the screw rod 204 drives the moving block 207 which is in threaded connection with the screw rod 204 to move towards the gear 206, under the cooperation of the pair of racks 205 and the gear 206, the pair of moving blocks 207 move towards each other, so as to drive the pair of pushing rods 202 to move towards each other, the pair of pushing rods 202 approach the placed glass, the rubber wheel 601 firstly abuts against the side edge of the glass, the rubber wheel 601 pushes the glass to move to the middle of the table top of the glass cutting machine main body 1, the rubber wheels 601 at the two sides abut against the glass, the moving rod 602 moves towards the inside of the pushing rods 202, the third spring 603 compresses, the glass can be pushed to slide along a straight line when the glass is required to be adjusted at the transverse position, thereby facilitating the sliding of the glass, when the glass needs to be fixed, the handle 201 is continuously rotated, the third spring 603 is compressed, the rubber wheel 601 is continuously moved towards the direction of the push rod 202, the positioning block 203 is tightly abutted against the glass, thereby limiting the movement of the glass, the glass is firmly fixed, thereby being convenient for the glass cutting machine to position the glass when cutting, when the glass is cut, the placing box 401 is pulled outwards, the placing box 401 is slid outwards under the action of the moving wheel 403, one end of the sliding rod 402 extends out of the placing box 401, under the pushing of the fourth spring 703, one end of the rolling ball 702 enters into the abutting groove 701 with the same diameter, thereby limiting the random sliding of the sliding rod 402, avoiding the shaking of the placing box 401 during stacking, breaking the cut glass off, starting the vacuum pump 301, and carrying the glass into the placing box 401 through the sucker 302, the bottom surface of the glass is enabled to be stably abutted against the upper surface of the placing frame 405, the sucker 302 is loosened, so that the glass can be carried, the glass is prevented from being scratched, when the glass is placed more and more, the placing frame 405 moves downwards along the sliding groove 404 under the action of gravity, the tension spring 408 stretches, the right-angle trapezoid clamping block 406 pushes the clamping bar 407 to slightly rotate, the second spring 411 pushes the saw-bar clamping bar 407 to abut against the clamping block 406, the clamping block 406 can only move downwards unidirectionally, the upper layer of the placed glass is kept close to the top end of the placing box 401, the placing of the glass is facilitated, after the cut glass is placed completely, the pedal 503 is stepped on by feet, the pedal 503 drives the prying bar 507 to rotate, the rotating end of the prying bar 507 is close to the bearing plate 505, the labor-saving effect is achieved, the bearing plate 505 is pushed to move upwards, the placed glass is lifted by the bearing plate 505, the glass at the bottom and the placing frame 405 is separated, thereby driving the sliding column 506 to slide upwards, the locking groove 508 is separated from the locking block 504, the locking block 504 is not limited to the bearing plate 505 any more, the carrier 501 is pulled outwards while the pedal 503 is stepped on, under the action of the universal wheel 502, the carrier 501 can be pulled out of the placement box 401, the pedal 503 is slowly released, the bearing plate 505 is slowly moved downwards and reset under the gravity of glass, so that the carrier 501 is convenient for carrying glass, after the glass is removed, the pedal 503 is stepped on to lift the bearing plate 505, the carrier 501 is pushed into the placement box 401, the pedal 503 is released, the bearing plate 505 moves downwards, the locking block 504 enters the locking groove 508, so that the pulling out of the carrier 501 is limited again, when the placement frame 405 needs to be reset, the pressing block 410 is pressed, the first spring 409 is compressed, the inclined surface end of the pressing block 410 is pushed to rotate the clamping strip 407, the second spring 411 is compressed, the clamping strip 407 is separated from the clamping block 406, and the rack 405 moves upwards to reset under the pulling of the tension spring 408, so that the next work is facilitated.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (4)

1. The utility model provides a glass-cutting machine with material pile up neatly function, its characterized in that includes glass-cutting machine main part (1), be connected with on glass-cutting machine main part (1) and be used for carrying out location structure (2) to glass, be connected with on location structure (2) and be used for adjusting adjustment structure (6) of glass position, be connected with on glass-cutting machine main part (1) and be used for adsorbing glass's adsorption structure (3), be connected with on glass-cutting machine main part (1) and be used for carrying out pile up neatly structure (4) to glass, be connected with on pile up neatly structure (4) and be used for preventing sliding conflict structure (7), pile up neatly structure (4) are furnished with handling structure (5) that are used for carrying;

the positioning structure (2) comprises a moving block (207), a pair of moving blocks (207) are slidably connected inside the glass cutter body (1), one end of the glass cutter body (1) is rotationally connected with a screw rod (204), one end of the screw rod (204) located on the outer side of the glass cutter body (1) is fixedly connected with a handle (201), one end of the screw rod (204) located inside the glass cutter body (1) is in threaded connection with one of the moving blocks (207), racks (205) are fixedly connected on the moving blocks (207), the racks (205) are slidably connected with the glass cutter body (1), the racks (205) are meshed with two sides of a gear (206) respectively, the inside of the glass cutter body (1) is rotationally connected with the gear (206), the top end of the moving block (207) is fixedly connected with a pushing rod (202), and one end, opposite to the pushing rod (202), of each pushing rod (202) is slidably connected with a plurality of positioning blocks (203);

the adjusting structure (6) comprises a moving rod (602), a plurality of pairs of moving rods (602) are connected to the pushing rod (202) in a sliding manner, a rubber wheel (601) is fixedly connected to one end, close to the positioning block (203), of each pair of moving rods (602), a pair of third springs (603) are fixedly connected to the base end of the rubber wheel (601) and the pushing rod (202), and the third springs (603) are movably sleeved with the moving rods (602);

the stacking structure (4) comprises slide bars (402), one end of a glass cutting machine body (1) is fixedly connected with two pairs of slide bars (402), one end of each pair of slide bars (402) is connected onto a placement box (401) in a sliding mode, one end of the glass cutting machine body (1) is provided with a pair of placement boxes (401), two pairs of moving wheels (403) are mounted at the bottom end of each placement box (401), two pairs of sliding grooves (404) are arranged in each placement box (401), the inner wall of each placement box (401) is connected with a placement frame (405) in a sliding mode through the two pairs of sliding grooves (404), two ends of each placement frame (405) are fixedly connected with clamping blocks (406), clamping strips (407) are connected with the inner side walls of two sides of each placement box (401) in a sliding mode, clamping strips (407) are connected with the inner side walls of two sides of each placement box (401) in a rotating mode, the clamping strips (407) are in a saw blade-shaped structure, clamping strips (411) are clamped with the clamping strips (407), two sides of each clamping strip (401) are connected with one another in a sliding mode, two sides of each placement box (401) are fixedly connected with one side (410) in a sliding mode, two sides of each clamping block (401) are fixedly connected with one top end (410) is fixedly connected with one top end of each other, one end of the pressing block (410) is abutted against the clamping strip (407); the section of the clamping block (406) is in a right trapezoid structure, and the abutting ends of the pressing block (410) and the clamping strip (407) are in an inclined plane shape;

the abutting structure (7) comprises an abutting groove (701), the abutting groove (701) is formed in one end of the sliding rod (402) located inside the placing box (401), a pair of balls (702) are slidably connected to one end of the placing box (401) located inside the abutting groove (701), one end of each ball (702) can extend into the abutting groove (701), and a fourth spring (703) abuts against the other end of each ball (702) and the placing box (401); the abutting groove (701) is of a hemispherical structure, and the diameter of the ball (702) is the same as the diameter of the abutting groove (701);

the utility model provides a transport structure (5) includes carrier (501), place case (401) sliding connection has carrier (501), a pair of universal wheel (502) are installed to the bottom of carrier (501), the one end sliding connection of carrier (501) has two pairs of slide columns (506), two pairs of top fixedly connected with loading board (504) of slide column (506), carrier (501) are located the below rotation of loading board (505) and are connected with pinch bar (507), the one end of pinch bar (507) runs through carrier (501) and with carrier (501) sliding connection, the one end fixedly connected with footboard (503) of pinch bar (507) runs through carrier (501), the one end that pinch bar (507) deviates from in footboard (503) is contradicted with the bottom of loading board (505), the one end of loading board (505) is equipped with locking groove (508), the inner wall fixedly connected with locking piece (504) of placing case (401), locking piece (504) can pass through locking groove (508) and loading board (505) joint.

2. The glass cutting machine with material stacking function according to claim 1, wherein: the positioning block (203) is rectangular, and the positioning block (203) is made of rubber materials.

3. The glass cutting machine with material stacking function according to claim 1, wherein: the locking block (504) is of an L-shaped structure, and the locking groove (508) is of a rectangular structure.

4. The glass cutting machine with material stacking function according to claim 1, wherein: the adsorption structure (3) comprises a vacuum pump (301), wherein the vacuum pump (301) is arranged at one end of the glass cutting machine body (1), and one side of the vacuum pump (301) is connected with a sucker (302) through an air pipe.