CN114536144B - A machine tooling edging machine that is used for photovoltaic to make can automatic feed side cut - Google Patents

Abstract

The invention relates to the technical field of machining edge grinding machines, in particular to a machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing, which comprises an edge grinding machine body, wherein an adjusting mechanism is arranged on the edge grinding machine body in a sliding manner; the adjusting mechanism is matched and clamped with a fixing mechanism; a workbench is fixed on the edge grinding machine body; a guide mechanism is arranged on the workbench in a matching way; a conveying mechanism is fixed on the workbench; the workbench is connected with a driving mechanism; a storage mechanism is arranged on the workbench in a sliding manner; the glass is placed on the conveying mechanism, then the guide mechanism is rotated by hands, so that the guide mechanism is convenient to clamp the glass when sliding, and a control switch of the guide mechanism is turned on, so that the glass is convenient to automatically feed; open actuating mechanism's control switch, and then can cut edge its when transport mechanism drives glass and remove, the glass leftover bits after the excision drop to receive in the mechanism, and then be convenient for to it handles to collecting the back and concentrating again.

Description

A machine tooling edging machine that is used for photovoltaic to make can automatic feed side cut

Technical Field

The invention relates to the technical field of machining edge grinding machines, in particular to a machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing.

Background

The edge grinding machine has the characteristics of finishing rough grinding, fine grinding and polishing at one time, is suitable for grinding the inclined surfaces and the straight edges of metal strips with different sizes and thicknesses, is provided with a grinding wheel in a matched mode for standby application, and has the advantages of long service life, regular forming, high efficiency and the like. In the production and processing process of optical fiber glass, an edge grinding machine is generally needed to process the edge of the glass.

However, in the existing optical fiber glass processing process, an operator can firstly cut the glass according to the required size and then edge-grind the cut glass, such an operation mode is not favorable for improving the processing speed of the glass, and the glass is easy to damage during back-and-forth transportation, so that the processing effect is not favorable for improving; in addition, when the edge of the glass is cut, the cut waste materials still need to be manually taken and stored by operators, the operators can be easily cut in the taking process, certain potential safety hazards exist, and then the efficiency of the operators is not improved.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a machining edge grinding machine which is used for photovoltaic manufacturing and can automatically feed and cut edges.

The technical scheme adopted by the invention for solving the technical problem is as follows: a machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing comprises an edge grinding machine body, wherein an adjusting mechanism is arranged on the edge grinding machine body in a sliding mode; the adjusting mechanism is matched and clamped with a fixing mechanism; a workbench is fixed on the edge grinding machine body; a guide mechanism is arranged on the workbench in a matching way; a conveying mechanism is fixed on the workbench; the workbench is connected with a driving mechanism; a storage mechanism is arranged on the workbench in a sliding manner;

adjustment mechanism includes the support, the cooperation slides on the edging machine body has the support, the cooperation block has the connecting plate on the support, fixed establishment includes the pull rod, it has the pull rod to contradict on the support, fixedly connected with supports the pole on the pull rod, support and has cup jointed first pressure spring on the pole, support fixed mounting has the department of support on the pole, support the board and be connected through first pressure spring and support cooperation, be equipped with the draw-in groove in the support, draw-in groove position cooperation block has the fixture block, the block is connected between fixture block and the connecting plate.

The adjustable edge grinding machine is characterized in that the adjusting mechanism further comprises a fixed plate, a fixed plate is fixedly connected to the connecting plate, a plurality of first connecting shafts are fixedly mounted on the fixed plate at equal intervals, first guide wheels are connected to the first connecting shafts in a rotating mode, the first guide wheels are connected to the fixed plate in a rotating mode, a sliding block is fixedly connected to the support, a sliding groove is formed in the edge grinding machine body, the sliding block is matched with the sliding groove in the sliding mode, the sliding block is connected with the sliding rod in a threaded mode, a lead screw is connected to the edge grinding machine body in a rotating mode, a handle is fixedly connected to the lead screw, and the handle is connected to the edge grinding machine body in a rotating mode.

The utility model discloses a guide mechanism, the slide bar is connected with the slide bar, and the slide bar is connected with the dead lever cooperation through expansion spring, fixed connection between slide bar and the mounting panel, the last fixed mounting of workstation has the turning block, threaded connection has the loop bar on the first screw rod, fixedly connected with mounting panel on the loop bar, equidistance fixedly connected with a plurality of second links the axle on the mounting panel, the second links epaxial rotation and is connected with the second leading wheel, just rotate between second leading wheel and the mounting panel and be connected, two dead levers of symmetry fixedly connected with on the workstation, sliding connection has the slide bar on the dead lever, expansion spring has been cup jointed on the slide bar, the slide bar passes through expansion spring and is connected with the dead lever cooperation, fixed connection between slide bar and the mounting panel.

Concretely, transport mechanism includes the backup pad, fixedly connected with backup pad on the workstation, first motor is installed in the cooperation in the backup pad, shaft coupling fixedly connected with bull stick is passed through to the output of first motor, fixedly connected with belt pulley on the bull stick, and two the belt pulley is the symmetry setting, rotate between bull stick and the backup pad and be connected, the winding has the conveyer belt on the belt pulley.

Specifically, actuating mechanism includes the second motor, the cooperation is installed the second motor on the workstation, the output of second motor passes through shaft coupling fixedly connected with second screw rod, threaded connection has the slide on the second screw rod, sliding connection between slide and the workstation, it has places the board to slide on the slide, place fixed mounting on the board and have the laser cutting head, it is equipped with a plurality of slot to place the equidistance on the board, the slide passes through inserted bar and slot cooperation connection.

Specifically, receiving mechanism is including depositing the case, sliding connection has on the workstation deposits the case, be equipped with the dead slot on the workstation, deposit case and dead slot intercommunication, sliding connection has the cardboard on depositing the case, the cardboard passes through the second pressure spring and deposits the case cooperation and be connected, it has the backing plate to bond on the cardboard, the cooperation rotates on the workstation and has the gyro wheel, the gyro wheel with deposit roll connection between the case, deposit fixedly connected with pull block on the case.

The beneficial effects of the invention are:

(1) According to the machining edge grinding machine capable of automatically feeding and trimming for photovoltaic manufacturing, disclosed by the invention, an operator places optical fiber glass to be cut on a conveying mechanism, then rotates a guide mechanism by hand, so that the guide mechanism is convenient to clamp the glass when sliding, a control switch of the guide mechanism is turned on, and the glass is convenient to guide and automatically fed, namely: an operator can place glass to be processed on a conveyor belt, after the glass is flatly placed, the rotary block can be rotated by hands, a first screw rod is fixed on the rotary block, the first screw rod rotates in a workbench, a loop bar is connected to the first screw rod in a threaded manner, the loop bar is fixedly connected with a mounting plate, when the rotary block drives the first screw rod to rotate, a slide bar slides in a fixed rod installed on the workbench, and then the loop bar moves along the first screw rod, the slide bar can slide in the fixed rod, a telescopic spring is sleeved on the slide bar, the telescopic spring can be extruded when the slide bar slides, and further the loop bar is conveniently guided, a plurality of second guide wheels are arranged in the mounting plate in a matched manner, when the mounting plate slides to enable the second guide wheels to be in conflict with the glass, so that the glass can be conveniently limited, then the operator can open a control switch of a first motor, an output end of the first motor is fixedly connected with the rotary bar through a coupler, a belt pulley is rotated on the rotary bar, conveyor belts are wound on two belt pulleys, when the first motor is started, and then the second conveyor belt is conveniently conveyed, and the glass can conveniently, and the second guide wheels can conveniently move, and the glass can also improve the conveying effect of the glass.

(2) According to the machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing, disclosed by the invention, the control switch of the driving mechanism is turned on, so that the edges of the glass can be cut when the conveying mechanism drives the glass to move, the cut glass leftover materials fall into the accommodating mechanism, and then the glass leftover materials are conveniently accommodated and then are intensively processed, namely: when the glass moves, an operator can open a control switch of the second motor, the second screw rod is fixed with the second motor, a sliding plate is connected to the second screw rod in a threaded mode, when the second motor drives the second screw rod to rotate, the sliding plate drives the placing plate to slide along the second screw rod, and then the laser cutting head mounted on the placing plate cuts the edge of the glass; the cut leftover bits drop to depositing the incasement through the dead slot that is equipped with on the workstation, owing to deposit the incasement and slide there is the cardboard, and be fixed with the backing plate on the cardboard, when glass leftover bits fall on the backing plate, the cardboard is extrudeed the second pressure spring by the impact force effect, and then be convenient for carry out pressure release and protection to the cardboard, and the cooperation rotates on the workstation has the gyro wheel, thereby the operating personnel of being convenient for can be fast will deposit the case and take out from the workstation when handling glass leftover bits.

(3) According to the machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing, provided by the invention, the cut glass is conveyed into the edge grinding machine body through the conveying mechanism, the adjusting mechanism is rotated when edge grinding is carried out, so that the distance of the adjusting mechanism can be conveniently adjusted according to the size of the glass, and meanwhile, the adjusting mechanism can be conveniently mounted and dismounted through the fixing mechanism, so that the use effect of the edge grinding machine body is favorably improved, namely: the glass after edge cutting is conveyed into the edge grinding machine body through the conveying belt, before the edge grinding machine body is used, an operator can rotate the rotating handle by hands, a lead screw is fixed on the rotating handle, a sliding block is connected to the lead screw in a threaded mode and fixedly connected with the support, when the lead screw rotates along with the rotating handle, the sliding block drives the support to slide, the distance between the support and the edge grinding machine body can be adjusted conveniently according to the size of the glass, a connecting plate is clamped on the support, a fixing plate is fixed on the connecting plate, a plurality of first guide wheels are matched and rotated on the fixing plate, when the edge grinding machine body grinds the edge of the glass, the glass can be guided through the first guide wheels, and therefore the processing speed of the edge grinding machine body can be improved; when operating personnel need replace the first leading wheel in the fixed plate, can stimulate the pull rod with the hand, the pull rod drives and supports the pole and slide, and then makes and support the board and extrude the first pressure spring that cup joints on supporting the pole, and then makes and support the pole and drive the fixture block and slide to the draw-in groove in, and then is convenient for make the fixture block install the dismantlement to the fixed plate when following the inside roll-off of connecting plate to be favorable to improving operating personnel's maintenance efficiency.

Drawings

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

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of a machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing according to the present invention;

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

FIG. 3 is an enlarged view of the part B shown in FIG. 1;

FIG. 4 is a schematic view of the connection structure of the fixing plate and the connecting plate according to the present invention;

FIG. 5 is an enlarged view of the structure of the portion C shown in FIG. 4;

FIG. 6 is a schematic view of the connection structure of the slider and the bracket according to the present invention;

FIG. 7 is a schematic view of the connection structure of the storage box and the pull block of the present invention;

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

fig. 9 is an enlarged view of the structure of the portion E shown in fig. 7.

In the figure: 1. an edge grinding machine body; 2. an adjustment mechanism; 201. turning a handle; 202. a chute; 203. a slider; 204. a support; 205. a fixing plate; 206. a first guide wheel; 207. a connecting plate; 208. a first coupling shaft; 209. a screw rod; 3. a fixing mechanism; 301. a pull rod; 302. a support rod; 303. a first pressure spring; 304. a resisting plate; 305. a card slot; 306. a clamping block; 4. a work table; 5. a guide mechanism; 501. rotating the block; 502. a first screw; 503. mounting a plate; 504. a second guide wheel; 505. a second coupling shaft; 506. a loop bar; 507. fixing the rod; 508. a tension spring; 509. a slide bar; 6. a transfer mechanism; 601. a support plate; 602. a belt pulley; 603. a conveyor belt; 604. a rotating rod; 605. a first motor; 7. a storage mechanism; 701. a storage box; 702. pulling the block; 703. an empty groove; 704. a base plate; 705. clamping a plate; 706. a second pressure spring; 707. a roller; 8. a drive mechanism; 801. a second motor; 802. a second screw; 803. a slide plate; 804. inserting a rod; 805. a slot; 806. placing the plate; 807. laser cutting head.

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 described with the specific embodiments.

As shown in fig. 1-9, the machining edge grinding machine for photovoltaic manufacturing and capable of automatically feeding and cutting edges according to the present invention comprises an edge grinding machine body 1, wherein an adjusting mechanism 2 slides on the edge grinding machine body 1; the adjusting mechanism 2 is matched and clamped with a fixing mechanism 3; a workbench 4 is fixed on the edge grinding machine body 1; a guide mechanism 5 is arranged on the workbench 4 in a matching way; a conveying mechanism 6 is fixed on the workbench 4; the workbench 4 is connected with a driving mechanism 8; a storage mechanism 7 is arranged on the workbench 4 in a sliding manner;

adjustment mechanism 2 includes support 204, the cooperation slides on the edging machine body 1 and has support 204, the cooperation block has connecting plate 207 on the support 204, fixed establishment 3 includes pull rod 301, it has pull rod 301 to contradict on the support 204, fixedly connected with supports pole 302 on the pull rod 301, support and cup jointed first pressure spring 303 on the pole 302, support and fixedly mounted on the pole 302 and support board 304, support board 304 and be connected through first pressure spring 303 and support 204 cooperation, be equipped with draw-in groove 305 in the support 204, draw-in groove 305 position cooperation block has fixture block 306, the block is connected between fixture block 306 and the connecting plate 207.

Concretely, adjustment mechanism 2 still includes fixed plate 205, fixedly connected with fixed plate 205 on connecting plate 207, equidistant fixed mounting has the first axis 208 of a plurality of on the fixed plate 205, it is connected with first leading wheel 206 to rotate on the first axis 208, just it is connected to rotate between first leading wheel 206 and the fixed plate 205, fixedly connected with slider 203 on the support 204, this internal spout 202 that is equipped with of edging machine, the spout 202 fit-in slides and has slider 203, threaded connection between slider 203 and the lead screw 209, it is connected with lead screw 209 to rotate on the edging machine body 1, fixedly connected with changes 201 on the lead screw 209, just it is connected to rotate between 201 and the edging machine body 1, and glass after the side cut passes through transport mechanism 6 and carries in edging machine body 1, when edging, rotates adjustment mechanism 2, and then be convenient for according to glass's size adjustment mechanism 2's distance, also be convenient for simultaneously install adjustment mechanism 2 through fixed mechanism 3 to be favorable to improving the result of use of edging machine body 1, promptly: the glass after edge cutting is conveyed into the edge grinding machine body 1 through the conveying belt 603, before the edge grinding machine body 1 is used, an operator can rotate the rotating handle 201 by hand, a screw rod 209 is fixed on the rotating handle 201, a sliding block 203 is connected to the screw rod 209 in a threaded manner, the sliding block 203 is fixedly connected with the support 204, when the screw rod 209 rotates along with the rotating handle 201, the sliding block 203 drives the support 204 to slide, so that the distance between the support 204 and the edge grinding machine body 1 can be conveniently adjusted according to the size of the glass, a connecting plate 207 is clamped on the support 204, a fixing plate 205 is fixed on the connecting plate 207, a plurality of first guide wheels 206 are matched and rotated on the fixing plate 205, when the edge grinding machine body 1 grinds the glass, the glass can be guided through the first guide wheels 206, and the processing speed of the edge grinding machine body 1 can be improved; when an operator needs to replace the first guide wheel 206 in the fixing plate 205, the pull rod 301 can be pulled by hand, the pull rod 301 drives the abutting rod 302 to slide, so that the abutting plate 304 extrudes the first pressure spring 303 sleeved on the abutting rod 302, the abutting rod 302 drives the fixture block 306 to slide into the fixture groove 305, the fixture block 306 is convenient to mount and dismount the fixing plate 205 when sliding out from the inside of the connecting plate 207, and the overhauling efficiency of the operator is improved.

Specifically, guiding mechanism 5 includes first screw rod 502, the last swivelling joint of workstation 4 has first screw rod 502, fixed mounting has turning block 501 on first screw rod 502, threaded connection has loop bar 506 on first screw rod 502, fixedly connected with mounting panel 503 on the loop bar 506, even axle 505 of equidistant fixedly connected with a plurality of second on the mounting panel 503, swivelling joint has second leading wheel 504 on the second links axle 505, just rotate between second leading wheel 504 and the mounting panel 503 and be connected, two dead levers 507 of symmetry fixedly connected with on workstation 4, sliding connection has slide bar 509 on the dead lever 507, telescopic spring 508 has been cup jointed on the slide bar 509, the slide bar passes through telescopic spring 508 and is connected with the dead lever 507 cooperation, fixed connection between slide bar 509 and the mounting panel 503.

Specifically, transport mechanism 6 includes backup pad 601, fixedly connected with backup pad 601 on workstation 4, first motor 605 is installed in the cooperation on the backup pad 601, the output of first motor 605 passes through shaft coupling fixedly connected with bull stick 604, fixedly connected with belt pulley 602 on the bull stick 604, and two belt pulley 602 is the symmetry and sets up, rotate between bull stick 604 and the backup pad 601 and be connected, the winding has conveyer belt 603 on the belt pulley 602, and operating personnel places the optical fiber glass that needs the cutting on transport mechanism 6, then rotates guiding mechanism 5 with the hand, and then be convenient for make guiding mechanism 5 carry out the centre gripping to glass when sliding, open guiding mechanism 5's control switch, and then also be convenient for make its automatic feed when being convenient for lead to glass, promptly: an operator can place glass to be processed on a conveyor belt 603, after the glass is flatly placed, the rotating block 501 can be rotated by hands, a first screw 502 is fixed on the rotating block 501, the first screw 502 rotates in the workbench 4, a sleeve rod 506 is connected to the first screw 502 in a threaded manner, the sleeve rod 506 is fixedly connected with a mounting plate 503, when the rotating block 501 drives the first screw 502 to rotate, a sliding rod 509 slides in a fixing rod 507 installed on the workbench 4, and further when the sleeve rod 506 moves along the first screw 502, the sliding rod 509 can slide in the fixing rod 507, as the sliding rod 509 is sleeved with a telescopic spring 508, when the sliding rod 509 slides, the telescopic spring 508 can be extruded when the sliding rod 509 slides, so that the sleeve rod 506 is conveniently guided, a plurality of second guide wheels 504 are matched and rotated in the mounting plate 503, when the mounting plate 503 slides to enable the second guide wheels 504 to be in cooperation with the glass, so that the glass is conveniently limited, then the operator can open a control switch of the first motor 605, the output end of the first motor is fixedly connected with the rotating rod 604 through a coupler, the rotating rod 604, and further, when two belt pulleys 604 on the glass conveyor belt 602 move, and the second belt pulleys 603, and the conveyor belt 603 is conveniently, and when the second belt 603 is driven by the second belt wheel 603, and the second belt 602, and the conveyor belt 603, and the conveyor belt 604, and the conveyor belt 603 is conveniently move.

Specifically, the driving mechanism 8 includes a second motor 801, the second motor 801 is installed on the workbench 4 in a matching manner, an output end of the second motor 801 is fixedly connected with a second screw 802 through a coupler, a sliding plate 803 is connected to the second screw 802 in a threaded manner, the sliding plate 803 is connected to the workbench 4 in a sliding manner, a placing plate 806 slides on the sliding plate 803, a laser cutting head 807 is fixedly installed on the placing plate 806, a plurality of slots 805 are formed in the placing plate 806 at equal intervals, and the sliding plate 803 is connected with the slots 805 in a matching manner through an insertion rod 804.

Specifically, the accommodating mechanism 7 includes a storage box 701, a storage box 701 is connected to the workbench 4 in a sliding manner, a hollow groove 703 is formed in the workbench 4, the storage box 701 is communicated with the hollow groove 703, a clamping plate 705 is connected to the storage box 701 in a sliding manner, the clamping plate 705 is connected to the storage box 701 in a matching manner through a second pressure spring 706, a backing plate 704 is bonded to the clamping plate 705, a roller 707 is arranged on the workbench 4 in a matching and rotating manner, the roller 707 is connected to the storage box 701 in a rolling manner, a pull block 702 is fixedly connected to the storage box 701, a control switch of the driving mechanism 8 is turned on, the glass can be trimmed when the conveying mechanism 6 drives the glass to move, the cut glass scraps fall into the accommodating mechanism 7, and then the glass scraps can be conveniently collected and then processed, namely: when the glass moves, an operator can turn on a control switch of the second motor 801, the second screw 802 and the second motor 801 are fixed together, the second screw 802 is in threaded connection with a sliding plate 803, when the second motor 801 drives the second screw 802 to rotate, the sliding plate 803 drives the placing plate 806 to slide along the second screw 802, so that the laser cutting head 807 mounted on the placing plate 806 cuts the edge of the glass, when the laser cutting head 807 is mounted, because the placing plate 806 is provided with a plurality of slots 805, when the inserting rod 804 is clamped into the slot 805, the operator can adjust the position of the laser cutting head 807 according to the size of the glass, and the edge cutting effect of the glass is improved; the leftover bits that are amputated drop to depositing in the case 701 through the dead slot 703 that is equipped with on workstation 4, owing to deposit and to have cardboard 705 in the case 701, and be fixed with backing plate 704 on the cardboard 705, when glass leftover bits fall on backing plate 704, cardboard 705 receives the impact force effect to extrude second pressure spring 706, and then be convenient for carry out pressure release and protection to cardboard 705, and the cooperation rotates on workstation 4 has gyro wheel 707, thereby be convenient for operating personnel can take out from workstation 4 depositing case 701 when handling glass leftover bits fast.

When the glass conveying device is used, firstly, an operator can place glass to be treated on a conveying belt 603, after the glass is placed neatly, the rotating block 501 can be rotated by hands, a first screw 502 is fixed on the rotating block 501, the first screw 502 rotates in a workbench 4, a sleeve rod 506 is connected to the first screw 502 in a threaded manner, the sleeve rod 506 is fixedly connected with a mounting plate 503, when the rotating block 501 drives the first screw 502 to rotate, as a sliding rod 509 slides in a fixing rod 507 arranged on the workbench 4, and the sleeve rod 506 moves along the first screw 502, the sliding rod 509 can slide in the fixing rod 507, as the sliding rod 509 is sleeved with a telescopic spring 508, when the sliding rod 509 slides, the telescopic spring 508 can be extruded, so that the sleeve rod 506 is guided, a plurality of second guide wheels 504 are matched and rotated in the mounting plate 503, when the mounting plate 503 slides to enable the second guide wheels 504 to abut against the glass, so that the glass is limited, then the operator can open a control switch of the first motor, an output end of the first motor is connected with the rotating rod 605, the second guide wheels 504 are connected with a belt pulley 604, and when the glass conveying belt 602 is started, and the second belt pulleys 602 are both convenient to rotate; when the glass moves, an operator can turn on a control switch of the second motor 801, the second screw 802 and the second motor 801 are fixed together, the second screw 802 is in threaded connection with a sliding plate 803, when the second motor 801 drives the second screw 802 to rotate, the sliding plate 803 drives the placing plate 806 to slide along the second screw 802, so that the laser cutting head 807 mounted on the placing plate 806 cuts the edge of the glass, when the laser cutting head 807 is mounted, because the placing plate 806 is provided with a plurality of slots 805, when the inserting rod 804 is clamped into the slot 805, the operator can adjust the position of the laser cutting head 807 according to the size of the glass, and the edge cutting effect of the glass is improved; the cut leftover materials fall into a storage box 701 through an empty groove 703 formed in a workbench 4, a clamping plate 705 is arranged in the storage box 701 in a sliding mode, a backing plate 704 is fixed on the clamping plate 705, when the glass leftover materials fall onto the backing plate 704, the clamping plate 705 extrudes a second pressure spring 706 under the action of impact force, the clamping plate 705 is further conveniently decompressed and protected, and a roller 707 is matched and rotated on the workbench 4, so that an operator can conveniently and quickly take the storage box 701 out of the workbench 4 when processing the glass leftover materials; the glass after edge cutting is conveyed into the edge grinding machine body 1 through the conveying belt 603, before the edge grinding machine body 1 is used, an operator can rotate the rotating handle 201 by hand, a lead screw 209 is fixed on the rotating handle 201, a sliding block 203 is in threaded connection with the lead screw 209, the sliding block 203 is fixedly connected with the support 204, when the lead screw 209 rotates along with the rotating handle 201, the sliding block 203 drives the support 204 to slide, so that the distance between the support 204 and the edge grinding machine body 1 can be conveniently adjusted according to the size of the glass, a connecting plate 207 is clamped on the support 204, a fixing plate 205 is fixed on the connecting plate 207, a plurality of first guide wheels 206 are matched and rotated on the fixing plate 205, when the edge grinding machine body 1 grinds the glass, the glass can be guided through the first guide wheels 206, and the processing speed of the edge grinding machine body 1 can be improved; when an operator needs to replace the first guide wheel 206 in the fixing plate 205, the pull rod 301 can be pulled by a hand, the pull rod 301 drives the abutting rod 302 to slide, so that the abutting plate 304 extrudes the first pressure spring 303 sleeved on the abutting rod 302, the abutting rod 302 drives the fixture block 306 to slide into the fixture groove 305, the fixture block 306 is convenient to mount and dismount the fixing plate 205 when sliding out from the inside of the connecting plate 207, and the overhauling efficiency of the operator is improved.

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 attributes 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 specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (1)

1. The machining edge grinding machine capable of automatically feeding and cutting edges for photovoltaic manufacturing is characterized by comprising an edge grinding machine body (1), wherein an adjusting mechanism (2) slides on the edge grinding machine body (1); the adjusting mechanism (2) is matched and clamped with a fixing mechanism (3); a workbench (4) is fixed on the edge grinding machine body (1); a guide mechanism (5) is arranged on the workbench (4) in a matching way; a conveying mechanism (6) is fixed on the workbench (4); the workbench (4) is connected with a driving mechanism (8); a storage mechanism (7) is arranged on the workbench (4) in a sliding manner;

the adjusting mechanism (2) comprises a support (204), the edge grinding machine body (1) is provided with the support (204) in a matched sliding mode, the support (204) is provided with a connecting plate (207) in a matched clamping mode, the fixing mechanism (3) comprises a pull rod (301), the support (204) abuts against the pull rod (301), a resisting rod (302) is fixedly connected onto the pull rod (301), a first pressure spring (303) is sleeved on the resisting rod (302), a resisting plate (304) is fixedly installed on the resisting rod (302), the resisting plate (304) is connected with the support (204) in a matched mode through the first pressure spring (303), a clamping groove (305) is formed in the support (204), a clamping block (306) is clamped at the position of the clamping groove (305) in a matched mode, and the clamping block (306) is connected with the connecting plate (207) in a clamped mode;

the adjusting mechanism (2) further comprises a fixing plate (205), the fixing plate (205) is fixedly connected to the connecting plate (207), a plurality of first connecting shafts (208) are fixedly mounted on the fixing plate (205) at equal intervals, a first guide wheel (206) is rotatably connected to each first connecting shaft (208), and the first guide wheel (206) is rotatably connected with the fixing plate (205); the edge grinding machine comprises a bracket (204), a sliding block (203), a sliding groove (202) is formed in an edge grinding machine body (1), the sliding block (203) is arranged in the sliding groove (202) in a matched and sliding mode, the sliding block (203) is in threaded connection with a screw rod (209), the edge grinding machine body (1) is rotatably connected with the screw rod (209), a rotating handle (201) is fixedly connected to the screw rod (209), and the rotating handle (201) is rotatably connected with the edge grinding machine body (1);

the guide mechanism (5) comprises a first screw rod (502), the workbench (4) is connected with the first screw rod (502) in a rotating mode, a rotating block (501) is fixedly installed on the first screw rod (502), a loop bar (506) is connected to the first screw rod (502) in a threaded mode, an installation plate (503) is fixedly connected to the loop bar (506), a plurality of second connecting shafts (505) are fixedly connected to the installation plate (503) in an equidistance mode, a second guide wheel (504) is connected to the second connecting shafts (505) in a rotating mode, and the second guide wheel (504) is connected with the installation plate (503) in a rotating mode; two fixing rods (507) are symmetrically and fixedly connected to the workbench (4), a sliding rod (509) is connected to the fixing rods (507) in a sliding mode, an expansion spring (508) is sleeved on the sliding rod (509), the sliding rod (509) is connected with the fixing rods (507) in a matched mode through the expansion spring (508), and the sliding rod (509) is fixedly connected with the mounting plate (503);

the conveying mechanism (6) comprises a supporting plate (601), the supporting plate (601) is fixedly connected to the workbench (4), a first motor (605) is installed on the supporting plate (601) in a matched mode, the output end of the first motor (605) is fixedly connected with a rotating rod (604) through a coupler, belt pulleys (602) are fixedly connected to the rotating rod (604), the two belt pulleys (602) are symmetrically arranged, the rotating rod (604) is rotatably connected with the supporting plate (601), and a conveying belt (603) is wound on the belt pulleys (602);

the driving mechanism (8) comprises a second motor (801), the second motor (801) is installed on the workbench (4) in a matched mode, the output end of the second motor (801) is fixedly connected with a second screw (802) through a coupler, a sliding plate (803) is connected to the second screw (802) in a threaded mode, the sliding plate (803) is connected with the workbench (4) in a sliding mode, a placing plate (806) is arranged on the sliding plate (803) in a sliding mode, and a laser cutting head (807) is fixedly installed on the placing plate (806); a plurality of slots (805) are equidistantly arranged on the placing plate (806), and the sliding plate (803) is connected with the slots (805) in a matched manner through inserting rods (804);

the storage mechanism (7) comprises a storage box (701), the storage box (701) is connected onto the workbench (4) in a sliding mode, an empty groove (703) is formed in the workbench (4), the storage box (701) is communicated with the empty groove (703), a clamping plate (705) is connected onto the storage box (701) in a sliding mode, and the clamping plate (705) is connected with the storage box (701) in a matching mode through a second pressure spring (706); a backing plate (704) is bonded on the clamping plate (705), a roller (707) is matched and rotated on the workbench (4), the roller (707) is in rolling connection with the storage box (701), and a pulling block (702) is fixedly connected to the storage box (701).

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