CN114769907A - Laser cutting equipment is used in cabinet body production and processing - Google Patents
Laser cutting equipment is used in cabinet body production and processing Download PDFInfo
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- CN114769907A CN114769907A CN202210695330.1A CN202210695330A CN114769907A CN 114769907 A CN114769907 A CN 114769907A CN 202210695330 A CN202210695330 A CN 202210695330A CN 114769907 A CN114769907 A CN 114769907A
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- sliding
- rod
- laser cutting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K26/00—Working by laser beam, e.g. welding, cutting or boring
- B23K26/36—Removing material
- B23K26/38—Removing material by boring or cutting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K26/00—Working by laser beam, e.g. welding, cutting or boring
- B23K26/70—Auxiliary operations or equipment
- B23K26/702—Auxiliary equipment
Abstract
The invention relates to the technical field of laser cutting equipment, in particular to laser cutting equipment for producing and processing cabinets, which comprises a shell, wherein a sliding structure for controlling the movement of a laser cutting structure is arranged on the shell, a fixing structure for simultaneously installing two power distribution cabinet plates is arranged on the shell, and a driving structure for driving the fixing structure is arranged on the shell; the fixed structure is provided with a positioning structure for positioning the power distribution cabinet plate, and the laser cutting structure is provided with an unlocking structure for driving the positioning structure; the shell is provided with a shaking structure for mounting the collecting box, and the shaking structure can be abutted against the fixed structure; the fixing structure is driven by the driving structure to control the two power distribution cabinet plates to move alternately, so that another power distribution cabinet plate can be fixed while one power distribution cabinet plate is processed, the operation efficiency is greatly improved, the unlocking structure is arranged to effectively prevent the positioning structure from blocking the laser cutting structure, and the cutting efficiency and quality are greatly improved.
Description
Technical Field
The invention relates to the technical field of laser cutting equipment, in particular to laser cutting equipment for producing and processing cabinets.
Background
The laser cutting machine focuses laser emitted from a laser into a laser beam with high power density through an optical path system, and when a power distribution cabinet is machined, the laser cutting machine cuts a power distribution cabinet plate of the power distribution cabinet, and then the cut power distribution cabinet plate is assembled.
However, place switch board panel back on laser cutting machine, need wait switch board panel complete cutting and accomplish the back and just can install new switch board panel, influenced the efficiency of the processing of switch board panel, and in the switch board panel installation of switch board, most all directly place, the installation effectiveness is low, if set up locating component and influence the motion of laser cutting head easily, and the abandonment leftover bits that the cutting was accomplished directly abandons and take a bridge easily in the collection box, influence collection efficiency.
Disclosure of Invention
Aiming at the problems in the prior art, the invention provides laser cutting equipment for producing and processing cabinets.
The technical scheme adopted by the invention for solving the technical problems is as follows: a laser cutting device for cabinet production and processing comprises a shell, wherein a sliding structure for controlling the movement of a laser cutting structure is arranged on the shell, a fixing structure for simultaneously installing two power distribution cabinet plates is arranged on the shell, and a driving structure for driving the fixing structure is arranged on the shell; the fixed structure is provided with a positioning structure for positioning the power distribution cabinet plate, and the laser cutting structure is provided with an unlocking structure for driving the positioning structure; the shell is provided with a shaking structure for mounting the collecting box, and the shaking structure can be abutted against the fixed structure;
the fixing structure comprises two mounting frames, two mounting frames with opposite sliding directions are arranged on the shell, cutting frames for supporting the plates of the power distribution cabinet are arranged on the mounting frames, two second supporting frames are arranged on one mounting frame at the top end, a first supporting frame is arranged on the other mounting frame at the bottom end, and first universal wheels are arranged on the first supporting frame and the second supporting frame;
the driving structure comprises a rotating shaft, the shell is rotatably connected with two rotating shafts, a belt wheel is fixed on the rotating shaft, a belt is wound on the belt wheel, two connecting shafts are arranged on the belt and connected to the two mounting frames respectively, a second motor is fixed on the shell, and an output shaft of the second motor is connected to one of the rotating shafts.
Specifically, the sliding structure includes a first motor, the housing is fixed with the first motor, an output shaft of the first motor is connected with a first lead screw, the first lead screw is rotatably connected with the housing, the first lead screw is in threaded connection with the carriage, and the carriage is in sliding connection with the housing.
The laser cutting structure comprises a fourth motor, the fourth motor is fixed on a sliding frame, a second lead screw is fixed on an output shaft of the fourth motor, the second lead screw is connected with the sliding frame in a rotating mode, the second lead screw is connected with a first sliding block in a threaded mode, the first sliding block is connected with the sliding frame in a sliding mode, the sliding direction of the first sliding block is perpendicular to the sliding direction of the sliding frame, a first sliding sleeve is fixed on the first sliding block, a second sliding block is connected on the first sliding sleeve in a sliding mode, a laser cutting head is arranged at the bottom end of the second sliding block, a third motor is fixed on the first sliding sleeve, a third lead screw is fixed on an output shaft of the third motor, and the third lead screw is connected with the second sliding block in a threaded mode.
Specifically, the positioning structure comprises a pressure rod, the mounting frame is rotatably provided with the pressure rod, the pressure rod is fixedly provided with a transmission rod, one end of the transmission rod, which is far away from the pressure rod, is provided with a positioning rod with an L-shaped structure, the pressure rod is fixedly provided with a limiting block and a threaded rib, the limiting block is rectangular, the threaded rib can be in threaded connection with the mounting frame, the limiting block is not in contact with the mounting frame when being positioned in a groove, the pressure rod is rotatably connected with the connecting sleeve, a torsion spring is arranged between the connecting sleeve and the pressure rod, the connecting sleeve is in sliding connection with the mounting frame, a third spring is arranged between the connecting sleeve and the mounting frame, the mounting frame is provided with a clamping block in sliding connection, a second spring is abutted between the clamping block and the connecting sleeve, the connecting sleeve is slidably provided with a sliding rod with a trapezoidal end part, and the sliding rod is abutted against the clamping block, the push rod is connected with a drive rod in a sliding mode, a first spring is abutted between the drive rod and the push rod, and the drive rod is abutted with the slide rod.
Specifically, the unlocking structure includes the dead lever, be equipped with the dead lever on the balladeur train, be fixed with the pneumatic cylinder on the dead lever, the bottom of pneumatic cylinder is equipped with the driving head, the driving head drive actuating lever removes.
The shaking structure comprises a second sliding sleeve, a second sliding sleeve is fixed on the shell, a sliding frame in sliding connection is arranged on the second sliding sleeve, a fourth spring is installed between the sliding frame and the second sliding sleeve, a third sliding sleeve is arranged on the sliding frame, a third sliding block in sliding connection is arranged on the third sliding sleeve, a fourth lead screw is connected to the third sliding block in a threaded mode, the fourth lead screw is connected with the third sliding sleeve in a rotating mode, a baffle is fixed on the third sliding block, a second universal wheel is arranged at the bottom end of the sliding frame, a triangular driving plate is arranged on the third sliding sleeve, and a guide wheel which is connected in a rotating mode and is abutted against the driving plate is arranged on the second supporting frame.
The beneficial effects of the invention are:
(1) according to the laser cutting equipment for producing and processing the cabinet body, the fixing structure for simultaneously installing the two power distribution cabinet plates is arranged on the shell, the driving structure for driving the fixing structure is arranged on the shell, the driving structure drives the fixing structure to control the two power distribution cabinet plates to move alternately, so that the other power distribution cabinet plate can be conveniently fixed while one power distribution cabinet plate is processed, and the operation efficiency is greatly improved.
(2) According to the laser cutting equipment for producing and processing the cabinet body, the fixing structure is provided with the positioning structure for positioning the power distribution cabinet plate, the laser cutting structure is provided with the unlocking structure for driving the positioning structure, the power distribution cabinet plate is further fixed and positioned through the positioning structure, then the unlocking structure is driven to unlock the positioning structure through the unlocking structure, the power distribution cabinet plate is not limited, the laser cutting structure is effectively prevented from being blocked, and the cutting efficiency and the cutting quality are greatly improved.
(3) According to the laser cutting equipment for producing and processing the cabinet body, the shaking structure for mounting the collecting box is arranged on the shell and can be abutted to the fixing structure, the collecting box is fixed through the shaking structure, then the shaking structure is driven to shake through the movement of the fixing structure, bridging of the leftover materials of the power distribution cabinet plates in the collecting box is reduced, and the leftover materials of the power distribution cabinet plates can be stored more conveniently and rapidly.
Drawings
The invention is further illustrated by the following examples in conjunction with the drawings.
Fig. 1 is a schematic overall structural diagram of a preferred embodiment of a laser cutting apparatus for manufacturing and processing a cabinet 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 structure of the portion B shown in FIG. 1;
FIG. 4 is an enlarged view of the structure of the section C shown in FIG. 1;
FIG. 5 is a schematic view of a connection structure of the carriage and the first slider according to the present invention;
FIG. 6 is a schematic view of a connection structure of the fixing rod and the driving head according to the present invention;
FIG. 7 is a schematic view of a connection structure between the driving structure and the mounting frame according to the present invention;
FIG. 8 is a schematic view of the connection structure of the mounting frame and the connection sleeve of the present invention;
FIG. 9 is a schematic view of a connecting structure of the pressing rod and the limiting block according to the present invention;
fig. 10 is a schematic view of a connection structure of the sliding frame and the second sliding sleeve of the present invention.
In the figure: 1. a housing; 2. a sliding structure; 201. a first lead screw; 202. a carriage; 203. a first motor; 3. a drive structure; 301. a second motor; 302. a connecting shaft; 303. a belt; 304. a rotating shaft; 305. a pulley; 4. a positioning structure; 401. a transmission rod; 402. positioning a rod; 403. a drive rod; 404. a pressure lever; 405. a first spring; 406. a groove; 407. a clamping block; 408. a second spring; 409. a third spring; 410. connecting sleeves; 411. a torsion spring; 412. a limiting block; 413. a threaded rib; 414. a slide bar; 5. a fixed structure; 501. a cutting frame; 502. installing a frame; 503. a first support frame; 504. a first universal wheel; 505. a second support frame; 506. a guide wheel; 6. cutting the structure by laser; 601. a third motor; 602. a first sliding sleeve; 603. a laser cutting head; 604. a second lead screw; 605. a fourth motor; 606. a first slider; 607. a third screw rod; 608. a second slider; 7. a dithering structure; 701. a second sliding sleeve; 702. a sliding frame; 703. a baffle plate; 704. a second universal wheel; 705. a third sliding sleeve; 706. a fourth screw rod; 707. a drive plate; 708. a third slider; 709. a fourth spring; 8. an unlocking structure; 801. a hydraulic cylinder; 802. a fixing rod; 803. a drive 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. 1-10, the laser cutting equipment for producing and processing the cabinet body comprises a housing 1, wherein a sliding structure 2 for controlling a laser cutting structure 6 to move is arranged on the housing 1, a fixing structure 5 for simultaneously mounting two power distribution cabinet plates is arranged on the housing 1, and a driving structure 3 for driving the fixing structure 5 is arranged on the housing 1; the fixed structure 5 is provided with a positioning structure 4 for positioning the power distribution cabinet plate, and the laser cutting structure 6 is provided with an unlocking structure 8 for driving the positioning structure 4; the shell 1 is provided with a shaking structure 7 for installing a collecting box, and the shaking structure 7 can be abutted against the fixed structure 5;
the fixing structure 5 comprises two mounting frames 502, two mounting frames 502 with opposite sliding directions are arranged on the housing 1, a cutting frame 501 for supporting a power distribution cabinet plate is arranged on each mounting frame 502, two second support frames 505 are arranged on one mounting frame 502 at the top end, a first support frame 503 is arranged on the other mounting frame 502 at the bottom end, and first universal wheels 504 are arranged on the first support frame 503 and the second support frames 505;
the driving structure 3 comprises a rotating shaft 304, the housing 1 is rotatably connected with two rotating shafts 304, a belt wheel 305 is fixed on the rotating shaft 304, a belt 303 is wound on the belt wheel 305, two connecting shafts 302 are arranged on the belt 303, the two connecting shafts 302 are respectively connected to two mounting frames 502, a second motor 301 is fixed on the housing 1, and an output shaft of the second motor 301 is connected to one of the rotating shafts 304; after the cutting is completed, the rotating shaft 304 is driven to rotate through the second motor 301, the belt wheel 305 is driven to rotate the belt 303, the belt 303 drives the connecting shaft 302, the sliding directions of the two installation frames 502 are opposite, the positions of the two installation frames 502 are changed, and therefore the other power distribution cabinet plate can be installed when one power distribution cabinet plate is processed conveniently, the processing efficiency and the quality of the power distribution cabinet are greatly improved, meanwhile, the first universal wheels 504 are arranged at the bottom ends of the first support frame 503 and the second support frame 505, the installation frames 502 can be supported conveniently, and the installation frames 502 can slide more stably and flexibly.
Specifically, the sliding structure 2 includes a first motor 203, the first motor 203 is fixed on the housing 1, an output shaft of the first motor 203 is connected with a first lead screw 201, the first lead screw 201 is rotatably connected with the housing 1, the first lead screw 201 is in threaded connection with the carriage 202, and the carriage 202 is in sliding connection with the housing 1, so as to facilitate driving the carriage 202 to move.
Specifically, the laser cutting structure 6 includes a fourth motor 605, the fourth motor 605 is fixed on the carriage 202, a second lead screw 604 is fixed on the output shaft of the fourth motor 605, the second lead screw 604 is connected with the carriage 202 in a rotating way, the second lead screw 604 is in threaded connection with the first sliding block 606, the first sliding block 606 is in sliding connection with the carriage 202, the sliding direction of the first sliding block 606 is perpendicular to the sliding direction of the sliding frame 202, a first sliding sleeve 602 is fixed on the first sliding block 606, a second sliding block 608 is slidably connected to the first sliding sleeve 602, a laser cutting head 603 is disposed at the bottom end of the second sliding block 608, a third motor 601 is fixed on the first sliding sleeve 602, a third screw 607 is fixed on an output shaft of the third motor 601, the third screw 607 is in threaded connection with the second slider 608, so that the laser cutting head 603 can move more conveniently.
Specifically, the positioning structure 4 includes a pressing rod 404, the mounting frame 502 is rotatably provided with the pressing rod 404, the pressing rod 404 is fixed with a transmission rod 401, one end of the transmission rod 401, which is away from the pressing rod 404, is provided with an L-shaped positioning rod 402, the pressing rod 404 is fixed with a limiting block 412 and a threaded rib 413, the limiting block 412 is rectangular, the threaded rib 413 can be in threaded connection with the mounting frame 502, the limiting block 412 is not in contact with the mounting frame 502 when being located in the groove 406, the pressing rod 404 is rotatably connected with the connecting sleeve 410, a torsion spring 411 is arranged between the connecting sleeve 410 and the pressing rod 404, the connecting sleeve 410 is in sliding connection with the mounting frame 502, a third spring 409 is arranged between the connecting sleeve 410 and the mounting frame 502, the mounting frame 502 is provided with a slidably connected clamping block 407, and a second spring 408 is abutted between the clamping block 407 and the mounting frame 502, the clamping block 407 is clamped with the connecting sleeve 410, a sliding rod 414 with a trapezoidal end is slidably arranged on the connecting sleeve 410, the sliding rod 414 abuts against the clamping block 407, the pressing rod 404 is slidably connected with the driving rod 403, a first spring 405 abuts between the driving rod 403 and the pressing rod 404, and the driving rod 403 abuts against the sliding rod 414; when the laser cutting head 603 cuts the power distribution cabinet plate at the bottom, another power distribution cabinet plate is placed on the cutting frame 501 on another mounting frame 502, then the transmission rod 401 is pressed, when the threaded rib 413 on the pressing rod 404 is in threaded connection with the mounting frame 502 to drive the transmission rod 401 to rotate, and the torsion spring 411 is reset to pull the power distribution cabinet plate, so that the corner of the rectangular power distribution cabinet plate is abutted against the positioning rod 402 to limit the power distribution cabinet plate, the positioning rod 402 is continuously pressed, the connecting sleeve 410 and the limiting block 412 thereof are both slid with the mounting frame 502 to effectively prevent the pressing rod 404 from rotating, at this time, the connecting sleeve 410 is abutted against the third spring 409 to be compressed, when the clamping block 407 is aligned with the hole on the connecting sleeve 410, the clamping block 407 is clamped with the connecting sleeve 410, so that the positioning rod is abutted against the power distribution cabinet plate, thereby effectively preventing the power distribution cabinet plate from being deviated in the moving process and effectively avoiding secondary positioning, the cutting efficiency and the quality are greatly improved.
Specifically, the unlocking structure 8 includes a fixing rod 802, the fixing rod 802 is disposed on the carriage 202, a hydraulic cylinder 801 is fixed on the fixing rod 802, a driving head 803 is disposed at the bottom end of the hydraulic cylinder 801, and the driving head 803 drives the driving rod 403 to move; when the driving head 803 is located at the top end of the driving rod 403, the hydraulic cylinder 801 extends to drive the driving head 803 to abut against the driving rod 403, the driving rod 403 abuts against the sliding rod 414, the sliding rod 414 abuts against the sliding rod 414, the end of the sliding rod 414 facing the driving rod 403 is trapezoidal, so that the sliding direction of the driving rod 403 and the sliding direction of the sliding rod 414 are opposite, the sliding rod 414 slides with the connecting sleeve 410, the sliding rod 414 abuts against the clamping block 407 to slide with the mounting frame 502, and drives the second spring 408 to compress, when the clamping block 407 does not limit the connecting sleeve 410, the third spring 409 extends to drive the connecting sleeve 410 to slide upwards, when the limiting block 412 slides into the groove 406, the limiting block 412 does not limit the pressing rod 404, the pressing rod 404 drives the threaded rib 413 to be in threaded connection with the mounting frame 502, so that the height of the pressing rod 404 is increased, and simultaneously rotates ninety degrees clockwise to deform the torsion spring 411, so that the driving rod 401 on the pressing rod 404 drives the positioning rod 402 to stagger with the panel of the power distribution cabinet, thereby effectively preventing the positioning rod 402 from blocking the movement of the laser cutting head 603.
Specifically, the shaking structure 7 includes a second sliding sleeve 701, a second sliding sleeve 701 is fixed on the housing 1, a sliding frame 702 in sliding connection is arranged on the second sliding sleeve 701, a fourth spring 709 is installed between the sliding frame 702 and the second sliding sleeve 701, a third sliding sleeve 705 is arranged on the sliding frame 702, a third sliding block 708 in sliding connection is arranged on the third sliding sleeve 705, a fourth lead screw 706 is connected to the third sliding block 708 in a threaded manner, the fourth lead screw 706 is connected to the third sliding sleeve 705 in a rotating manner, a baffle 703 is fixed on the third sliding block 708, a second universal wheel 704 is arranged at the bottom end of the sliding frame 702, a driving plate 707 with a triangular end portion is arranged on the third sliding sleeve 705, and a guide wheel 506 which is in sliding connection and is abutted against the driving plate is arranged on the second supporting frame 505; in the process that the mounting frame 502 drives the second support frame 505 to move, the guide wheel 506 on the second support frame 505 abuts against the drive plate 707, one side of the drive plate 707 is triangular, the drive plate 707 is pushed to move left and right, the drive plate 707 drives the third sliding sleeve 705, the third sliding sleeve 705 drives the sliding frame 702 to slide with the second sliding sleeve 701, the fourth spring 709 extends, when the guide wheel 506 is not in contact with the drive plate 707, the fourth spring 709 deforms to drive the sliding frame 702 to slide with the second sliding sleeve 701 in a reciprocating manner, bridging of sheet leftover materials in the collection box is effectively prevented, collection efficiency and quality of the leftover materials are greatly improved, friction is effectively reduced due to the arrangement of the guide wheel 506, the drive plate 707 is more convenient to move, the fourth lead screw 706 is rotated to drive the third sliding block 708 to slide with the third sliding sleeve 705, and the collection box is conveniently mounted and fixed by the driving baffle 703.
When the invention is used, when two mounting frames 502 are in an unfolded state, the first motor 203 drives the first lead screw 201 to drive the sliding frame 202 and the shell 1 to slide in a threaded manner, when the driving head 803 is positioned at the top end of the driving rod 403, the hydraulic cylinder 801 extends to drive the driving head 803 to abut against the driving rod 403, the driving rod 403 to abut against the sliding rod 414, one end of the sliding rod 414 facing the driving rod 403 is trapezoidal, so that the sliding directions of the driving rod 403 and the sliding rod 414 are opposite, the sliding rod 414 slides with the connecting sleeve 410, the sliding rod 414 abuts against the fixture block 407 to slide with the mounting frame 502 and drives the second spring 408 to compress, when the fixture block 407 does not limit the connecting sleeve 410, the third spring 409 extends to drive the connecting sleeve 410 to slide upwards, when the limit block 412 slides into the groove 406, the limit block 412 does not limit the position the compression rod 404, the compression rod 404 drives the threaded connection between the threaded rib 413 and the mounting frame 502, so that the height of the compression rod 404 is increased, meanwhile, the clockwise rotation is ninety degrees, so that the torsion spring 411 deforms, the transmission rod 401 on the compression bar 404 drives the positioning rod 402 to be staggered with the plate of the power distribution cabinet, the positioning rod 402 is effectively prevented from blocking the movement of the laser cutting head 603, then the first motor 203 drives the first lead screw 201 to drive the sliding frame 202 to slide with the shell 1 in a threaded manner, the third motor 601 drives the third lead screw 607 to drive the second sliding block 608 to slide in the first sliding sleeve 602 in a threaded manner, the laser cutting head 603 is driven to move up and down, and the fourth motor 605 drives the second lead screw 604 to drive the first sliding block 606 to slide with the sliding frame 202 in a threaded manner, so that the plate of the power distribution cabinet can be cut rapidly;
when the laser cutting head 603 cuts the power distribution cabinet plate at the bottom, another power distribution cabinet plate is placed on the cutting frame 501 on another mounting frame 502, then the transmission rod 401 is pressed, when the threaded rib 413 on the pressing rod 404 is in threaded connection with the mounting frame 502 to drive the transmission rod 401 to rotate, and the torsion spring 411 is reset to pull the power distribution cabinet plate, so that the corner of the rectangular power distribution cabinet plate is abutted against the positioning rod 402 to limit the power distribution cabinet plate, the positioning rod 402 is continuously pressed, the connecting sleeve 410 and the limiting block 412 thereof are both slid with the mounting frame 502 to effectively prevent the pressing rod 404 from rotating, at this time, the connecting sleeve 410 is abutted against the third spring 409 to be compressed, when the clamping block 407 is aligned with the hole on the connecting sleeve 410, the clamping block 407 is clamped with the connecting sleeve 410, so that the positioning rod is abutted against the power distribution cabinet plate, thereby effectively preventing the power distribution cabinet plate from being deviated in the moving process and effectively avoiding secondary positioning, the cutting efficiency and the cutting quality are greatly improved;
after cutting is finished, the second motor 301 drives the rotating shaft 304 to rotate, the belt wheel 305 drives the belt 303 to rotate, the belt 303 drives the connecting shaft 302, the sliding directions of the two mounting frames 502 are opposite, the positions of the two mounting frames 502 are changed, and therefore another power distribution cabinet plate can be conveniently mounted when one power distribution cabinet plate is processed, the processing efficiency and the quality of the power distribution cabinet are greatly improved, meanwhile, the first universal wheels 504 are arranged at the bottom ends of the first supporting frame 503 and the second supporting frame 505, the mounting frames 502 can be conveniently supported, and the mounting frames 502 can slide more stably and flexibly;
in the process that the mounting frame 502 drives the second support frame 505 to move, the guide wheel 506 on the second support frame 505 abuts against the drive plate 707, one side of the drive plate 707 is triangular, the drive plate 707 is pushed to move left and right, the drive plate 707 drives the third sliding sleeve 705, the third sliding sleeve 705 drives the sliding frame 702 to slide with the second sliding sleeve 701, the fourth spring 709 extends, when the guide wheel 506 is not in contact with the drive plate 707, the fourth spring 709 deforms to drive the sliding frame 702 to slide back and forth with the second sliding sleeve 701, bridging of the sheet leftover materials in the collection box is effectively prevented, collection efficiency and quality of the leftover materials are greatly improved, friction is effectively reduced by the guide wheel 506, the drive plate 706 is driven to slide the third sliding block 708 with the third sliding sleeve 705 by rotating the fourth screw rod 706, and the collection box is conveniently installed and fixed by the drive plate 703.
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 (10)
1. The laser cutting equipment for producing and processing the cabinet body is characterized by comprising a shell (1), wherein a sliding structure (2) for controlling a laser cutting structure (6) to move is arranged on the shell (1), a fixing structure (5) for simultaneously mounting two power distribution cabinet plates is arranged on the shell (1), and a driving structure (3) for driving the fixing structure (5) is arranged on the shell (1); the fixed structure (5) is provided with a positioning structure (4) for positioning the power distribution cabinet plate, and the laser cutting structure (6) is provided with an unlocking structure (8) for driving the positioning structure (4); the shell (1) is provided with a shaking structure (7) for installing a collecting box, and the shaking structure (7) can be abutted against the fixed structure (5);
the fixing structure (5) comprises two mounting frames (502), the two mounting frames (502) with opposite sliding directions are arranged on the shell (1), a cutting frame (501) for supporting the plates of the power distribution cabinet is arranged on each mounting frame (502), two second support frames (505) are arranged on one mounting frame (502) at the top end, a first support frame (503) is arranged on the other mounting frame (502) at the bottom end, and first universal wheels (504) are arranged on the first support frame (503) and the second support frames (505);
drive structure (3) are including pivot (304), it is connected with two pivots (304) to rotate on shell (1), be fixed with band pulley (305) on pivot (304), the winding has belt (303) on band pulley (305), be equipped with two connecting axles (302) on belt (303), two connecting axle (302) is connected respectively in two installing frames (502), be fixed with second motor (301) on shell (1), the output shaft of second motor (301) is in one of them pivot (304).
2. The laser cutting equipment for cabinet production and processing according to claim 1, wherein: the sliding structure (2) comprises a first motor (203), the first motor (203) is fixed on the shell (1), an output shaft of the first motor (203) is connected with a first screw rod (201), the first screw rod (201) is rotatably connected with the shell (1), the first screw rod (201) is in threaded connection with the sliding frame (202), and the sliding frame (202) is in sliding connection with the shell (1).
3. The laser cutting equipment for cabinet production and processing according to claim 2, wherein the laser cutting equipment comprises: the laser cutting structure (6) comprises a fourth motor (605), the fourth motor (605) is fixed on the sliding frame (202), a second lead screw (604) is fixed on an output shaft of the fourth motor (605), the second lead screw (604) is rotatably connected with the sliding frame (202), the second lead screw (604) is in threaded connection with a first sliding block (606), the first sliding block (606) is in sliding connection with the sliding frame (202), the sliding direction of the first sliding block (606) is perpendicular to that of the sliding frame (202), a first sliding sleeve (602) is fixed on the first sliding block (606), a second sliding block (608) is slidably connected on the first sliding sleeve (602), and a laser cutting head (603) is arranged at the bottom end of the second sliding block (608).
4. The laser cutting equipment for cabinet production and processing according to claim 3, wherein the laser cutting equipment comprises: a third motor (601) is fixed on the first sliding sleeve (602), a third screw rod (607) is fixed on an output shaft of the third motor (601), and the third screw rod (607) is in threaded connection with the second sliding block (608).
5. The laser cutting equipment for cabinet production and processing according to claim 4, wherein the laser cutting equipment comprises: the positioning structure (4) comprises a pressing rod (404), the mounting frame (502) is provided with the pressing rod (404) in a rotating mode, the pressing rod (404) is fixedly provided with a transmission rod (401), and one end, departing from the pressing rod (404), of the transmission rod (401) is provided with a positioning rod (402) of an L-shaped structure.
6. The laser cutting equipment for cabinet production and processing according to claim 5, wherein the laser cutting equipment comprises: the limiting block (412) and the thread rib (413) are fixed on the pressing rod (404), the limiting block (412) is rectangular, the thread rib (413) can be in threaded connection with the installation frame (502), the limiting block (412) is not in contact with the installation frame (502) when located in the groove (406), the pressing rod (404) is in rotating connection with the connecting sleeve (410), a torsion spring (411) is arranged between the connecting sleeve (410) and the pressing rod (404), the connecting sleeve (410) is in sliding connection with the installation frame (502), a third spring (409) is arranged between the connecting sleeve (410) and the installation frame (502), a clamping block (407) in sliding connection is arranged on the installation frame (502), a second spring (408) is abutted against between the clamping block (407) and the installation frame (502), and the clamping block (407) is clamped with the connecting sleeve (410).
7. The laser cutting equipment for cabinet production and processing according to claim 6, wherein: the connecting sleeve (410) is provided with a sliding rod (414) with a trapezoidal end portion in a sliding mode, the sliding rod (414) is abutted to a clamping block (407), the pressing rod (404) is connected with a driving rod (403) in a sliding mode, a first spring (405) is abutted between the driving rod (403) and the pressing rod (404), and the driving rod (403) is abutted to the sliding rod (414).
8. The laser cutting device for cabinet production and processing according to claim 7, wherein: the unlocking structure (8) comprises a fixing rod (802), the fixing rod (802) is arranged on the sliding frame (202), a hydraulic cylinder (801) is fixed on the fixing rod (802), a driving head (803) is arranged at the bottom end of the hydraulic cylinder (801), and the driving head (803) drives a driving rod (403) to move.
9. The laser cutting equipment for cabinet production and processing according to claim 1, wherein: the shaking structure (7) comprises a second sliding sleeve (701), the second sliding sleeve (701) is fixed on the shell (1), a sliding frame (702) in sliding connection is arranged on the second sliding sleeve (701), a fourth spring (709) is installed between the sliding frame (702) and the second sliding sleeve (701), a third sliding sleeve (705) is arranged on the sliding frame (702), a third sliding block (708) in sliding connection is arranged on the third sliding sleeve (705), a fourth screw rod (706) is in threaded connection with the third sliding block (708), the fourth screw rod (706) is in rotating connection with the third sliding sleeve (705), and a baffle (703) is fixed on the third sliding block (708).
10. The laser cutting equipment for producing and processing the cabinet body according to claim 9, wherein: the bottom end of the sliding frame (702) is provided with a second universal wheel (704), the third sliding sleeve (705) is provided with a driving plate (707) with a triangular end, and the second supporting frame (505) is provided with a guide wheel (506) which is rotatably connected and is abutted against the driving plate (707).
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