CN116834814A

CN116834814A - Material feeding equipment with double repositioning structure for aluminum plate processing

Info

Publication number: CN116834814A
Application number: CN202311127616.0A
Authority: CN
Inventors: 黄波
Original assignee: Sichuan Superstar Mingchuang Technology Group Co ltd
Current assignee: Sichuan Superstar Mingchuang Technology Group Co ltd
Priority date: 2023-09-04
Filing date: 2023-09-04
Publication date: 2023-10-03

Abstract

The invention discloses feeding equipment with a double repositioning structure for aluminum plate processing, which relates to the technical field of aluminum plate processing, and particularly relates to feeding equipment with a double repositioning structure for aluminum plate processing.

Description

Material feeding equipment with double repositioning structure for aluminum plate processing

Technical Field

The invention relates to the technical field of aluminum plate processing, in particular to feeding equipment with a double-repositioning structure for aluminum plate processing.

Background

The aluminum plate is an aluminum material with a thickness of more than 0.2mm and less than 500mm, a width of more than 200mm and a length of less than 16m, which is called an aluminum plate or an aluminum sheet, and an aluminum material with a thickness of less than 0.2mm and a width of less than 200mm is a row material or a strip material (of course, with the progress of large equipment, the most wide aluminum plate of 600mm is more). The aluminum plate is a rectangular plate formed by rolling an aluminum ingot, and is divided into a pure aluminum plate, an alloy aluminum plate, a thin aluminum plate, a medium-thick aluminum plate and a patterned aluminum plate, the aluminum plate is sometimes required to be turned in the process of processing, the inner space of a processing plant is limited, a transport vehicle for carrying materials cannot enter, the materials are difficult to transport, the manual turning is not only time-consuming and labor-consuming, but also has lower efficiency, and the processing progress of the aluminum plate is influenced, so that an aluminum plate feeding device is required.

But current some feeding equipment fork frame is fixed, can not adjust according to aluminum plate width and length, and applicable aluminum plate pay-off application scene is less, and some feeding equipment can't fix a position fixed aluminum plate, and aluminum plate can drop when the pay-off, and feeding equipment's catch bar is fixed, can't height-adjusting, and staff's height is different, and when the pay-off, it is inconvenient probably to bring, can not satisfy drawbacks such as people's user demand well.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides feeding equipment with a double repositioning structure for aluminum plate processing, and solves the problems that the width and the length of a fork frame of the feeding equipment, the height of a push rod of the feeding equipment and the like cannot be adjusted in the prior art, and the feeding equipment cannot adjust the aluminum plate positioning structure and the push rod of the feeding equipment.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the feeding equipment with the double repositioning structures for aluminum plate processing comprises a moving structure, wherein a pushing rod is fixedly arranged at the top of the moving structure, a vertical adjusting structure is fixedly arranged at the top of the moving structure, a horizontal adjusting structure is fixedly arranged at one side of the vertical adjusting structure, a clamping structure is fixedly arranged at one side of the horizontal adjusting structure, a fixing structure is fixedly arranged at the rear end of the clamping structure, and a battery mounting box is fixedly arranged at the top of the moving structure;

the clamping structure comprises a T-shaped fork frame fixedly arranged on one side of a threaded sliding block, an L-shaped connecting rod is fixedly arranged at the front end of the T-shaped fork frame, a movable block is movably arranged on the outer wall of the L-shaped connecting rod, a supporting rod is fixedly arranged on one side of the movable block, a first mounting seat is movably arranged at the rear end of the supporting rod, a clamping plate is fixedly arranged at the rear end of the first mounting seat, a first connecting rod is fixedly arranged at the bottom of the supporting rod, a second mounting seat is fixedly arranged on one side of the first connecting rod, a first telescopic device is movably arranged on one side of the second mounting seat, and a third mounting seat is movably arranged on one side of the first telescopic device;

the fixed knot constructs including the second casing of the rear end fixed mounting of T type fork, one side fixed mounting of second casing has the third motor, the axle center department movable mounting of third motor has the second screw rod, one side fixed mounting of second screw rod has the second stopper, the outer wall screw thread of second screw rod installs the screw thread piece, the outer wall fixed mounting of screw thread piece has the sliding tube, one side fixed mounting of sliding tube has the installation piece, one side fixed mounting of installation piece has the second expansion bend, one side fixed mounting of second expansion bend has the fourth mount pad, the outer wall movable mounting of fourth mount pad has the fixed block, one side fixed mounting of fixed block has the connecting block, one side movable mounting of connecting block has the fifth mount pad.

Optionally, the moving structure includes the fixed plate, the bottom fixed mounting of fixed plate has first supporting shoe, the bottom fixed mounting of first supporting shoe has the shock insulation pad, the bottom fixed mounting of shock insulation pad has the second supporting shoe, the bottom fixed mounting of second supporting shoe has the universal wheel.

Optionally, the push rod includes the top fixed mounting's of fixed plate mounting tube, and one side of mounting tube runs through and is equipped with first mounting hole, the inner wall slidable mounting of mounting tube has the slide bar, the top fixed mounting of slide bar has the handle, one side of slide bar runs through and is equipped with the second mounting hole, the inner wall movable mounting of second mounting hole has the bolt.

Optionally, the vertical structure of adjusting includes the fixed frame of the top fixed mounting of fixed plate, the inner wall of fixed frame is equipped with T type sliding tray, the top fixed mounting of fixed frame has first motor, the axle center department movable mounting of first motor has first screw rod, the outer wall screw thread of first screw rod installs the erection column, the front end fixed mounting of erection column has T type sliding block.

Optionally, the level adjustment structure includes one side fixed mounting of erection column has first casing, the inside fixed mounting of first casing has first stopper, the top fixed mounting of first casing has the second motor, the axle center department movable mounting of second motor has the output shaft, the bottom fixed mounting of output shaft has first straight bevel gear, second straight bevel gear is installed in the rear end meshing of first straight bevel gear, the front end of second straight bevel gear runs through fixed mounting has two-way screw rod, the outer wall screw thread of two-way screw rod is installed the screw slider.

Optionally, the second motor and the first straight bevel gear form a rotating mechanism through an output shaft, the first straight bevel gear and the second straight bevel gear form a straight bevel gear transmission mechanism, and the second straight bevel gear and the threaded slider form a spiral transmission mechanism through a bidirectional screw; the bidirectional screw rod can drive the threaded sliding block to move left and right, and simultaneously drives the clamping structure and the fixing structure to move left and right.

Optionally, the bracing piece constitutes rotary mechanism through movable block, head rod, second mount pad, first expansion bend and third mount pad and L type connecting rod, and the grip block passes through first mount pad and bracing piece constitution rotary mechanism.

Optionally, the third motor forms the screw drive structure through second screw rod and screw thread piece, and the second screw rod forms limit structure through second stopper and screw thread piece to the screw thread piece forms slide mechanism through sliding tube and second casing body, and the outside size structure of sliding tube is consistent with the inside size structure of second casing simultaneously.

Optionally, the fixed block and the fifth installation seat form a rotating mechanism through the second telescopic device, the fourth installation seat and the connecting block.

Optionally, the clamping structures and the fixing structures are symmetrically distributed about a vertical center line of the first housing.

The invention provides feeding equipment with a double repositioning structure for aluminum plate processing, which has the following beneficial effects:

1. this aluminium plate processing is with feeding equipment that has two repositioning structures, including the fixed plate through the moving structure, the bottom fixed mounting of fixed plate has first supporting shoe, and the bottom fixed mounting of first supporting shoe has the shock insulation pad, and the bottom fixed mounting of shock insulation pad has the second supporting shoe, and the bottom fixed mounting of second supporting shoe has the universal wheel, and the universal wheel is convenient for remove feeding equipment, and the shock that the shock insulation pad produced when can absorbing the device removal.

2. This aluminium plate processing is with feeding equipment that has two repositioning structures, the installation pipe of top fixed mounting through the catch bar including the fixed plate, one side of installation pipe runs through and is equipped with first mounting hole, the inner wall slidable mounting of installation pipe has the slide bar, the top fixed mounting of slide bar has the handle, one side of slide bar runs through and is equipped with the second mounting hole, the inner wall movable mounting of second mounting hole has the bolt, installation pipe and slide bar constitute slide mechanism, can be according to the demand, with first mounting hole and the second mounting hole that corresponds, insert the bolt, the height of adjustment handle.

3. This aluminium plate processing is with feeding equipment who has two repositioning structures constitutes screw drive mechanism through first screw rod and erection column through first motor, and the erection column passes through T type sliding block and T type sliding tray constitutes slide mechanism to the outside size structure of T type sliding block is unanimous with the inside size structure of T type sliding tray, and first screw rod is rotatory, can adjust the height of erection column, adjusts the height of level adjustment structure, clamping structure and fixed knot structure simultaneously.

4. This aluminium plate processing is with feeding equipment who has two repositioning structures, constitutes rotary mechanism through output shaft and first straight bevel gear through the second motor, and first straight bevel gear and second straight bevel gear constitute straight bevel gear drive mechanism to second straight bevel gear constitutes screw drive mechanism through two-way screw rod and screw slider, and two-way screw rod can drive the screw slider and move about, drives clamping structure and fixed knot structure simultaneously and moves about, adjusts the interval between the clamping structure.

5. This aluminium plate processing is with feeding equipment who has two repositioning structures constitutes spiral transmission structure through second screw rod and thread block through the third motor, and the second screw rod passes through second stopper and thread block constitutes limit structure, and the thread block passes through slide tube and second casing body constitution slide mechanism, slide tube's external dimension structure is unanimous with the internal dimension structure of second casing simultaneously, slide tube can be stable slide in the second casing, the second stopper can prevent that slide tube from moving excessively to the left, drop from the second casing, remove the installation piece until flush with aluminium plate's left side, when aluminium plate length exceeded T type fork, the installation piece also can support aluminium plate.

6. This aluminium plate processing is with feeding equipment who has two repositioning structures constitutes rotary mechanism through movable block, head rod, second mount pad, first expansion bend and third mount pad and L type connecting rod through the bracing piece, and the grip block constitutes rotary mechanism through first mount pad and bracing piece, first expansion bend is flexible, can drive the grip block and rotate, can fix a position aluminium plate one end, the fixed block passes through second expansion bend, fourth mount pad and connecting block and constitutes rotary mechanism with the fifth mount pad, the second expansion bend is flexible, can make the fixed block fix a position one side of aluminium plate, vertical central line symmetric distribution about first casing between grip structure and the fixed structure can fix a position aluminium plate at aluminium plate's both ends, fix a position aluminium plate from aluminium plate's both ends.

Drawings

FIG. 1 is a schematic diagram of a front elevational view in full section of a feeding device with a double repositioning structure for processing an aluminum plate;

fig. 2 is a schematic diagram of a front-view full-section structure of a moving structure of a feeding device with a double repositioning structure for processing the aluminum plate;

FIG. 3 is a schematic diagram of a side view of a push rod of a feeding device with a double repositioning structure for aluminum plate processing;

fig. 4 is a schematic diagram of a side view in full section of a vertical adjusting structure of a feeding device with a double repositioning structure for aluminum plate processing;

fig. 5 is a schematic top view of a top view full section of a vertical adjusting structure of a feeding device with a double repositioning structure for aluminum plate processing;

fig. 6 is a schematic top view of a horizontal adjusting structure of a feeding device with a double repositioning structure for processing the aluminum plate;

fig. 7 is a schematic diagram of a front view in full section of a clamping structure of a feeding device with a double repositioning structure for aluminum plate processing;

fig. 8 is a schematic top view of a full section of a clamping structure of a feeding device with a double repositioning structure for aluminum plate processing;

fig. 9 is a schematic diagram of a front view in full section of a fixing structure of a feeding device with a double repositioning structure for processing the aluminum plate.

In the figure: 1. a moving structure; 101. a fixing plate; 102. a first support block; 103. a shock insulation pad; 104. a second support block; 105. a universal wheel; 2. a push rod; 201. installing a pipe; 202. a first mounting hole; 203. a slide bar; 204. a handle; 205. a second mounting hole; 206. a plug pin; 3. a vertical adjustment structure; 301. a fixed frame; 302. a T-shaped sliding groove; 303. a first motor; 304. a first screw; 305. a mounting column; 306. a T-shaped sliding block; 4. a horizontal adjustment structure; 401. a first housing; 402. a first limiting block; 403. a second motor; 404. an output shaft; 405. a first straight bevel gear; 406. a second spur gear; 407. a bidirectional screw; 408. a thread slider; 5. a clamping structure; 501. a T-shaped fork; 502. an L-shaped connecting rod; 503. a movable block; 504. a support rod; 505. a first mount; 506. a clamping plate; 507. a first connecting rod; 508. a second mounting base; 509. a first telescopic device; 5010. a third mount; 6. a fixed structure; 601. a second housing; 602. a third motor; 603. a second screw; 604. a second limiting block; 605. a screw block; 606. a sliding tube; 607. a mounting block; 608. a second telescopic device; 609. a fourth mount; 6010. a fixed block; 6011. a connecting block; 6012. a fifth mount; 7. and a battery mounting case.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 9, the present invention provides the following technical solutions: the feeding equipment with the double repositioning structures for aluminum plate processing comprises a moving structure 1, wherein a pushing rod 2 is fixedly arranged at the top of the moving structure 1, a vertical adjusting structure 3 is fixedly arranged at the top of the moving structure 1, a horizontal adjusting structure 4 is fixedly arranged at one side of the vertical adjusting structure 3, a clamping structure 5 is fixedly arranged at one side of the horizontal adjusting structure 4, a fixing structure 6 is fixedly arranged at the rear end of the clamping structure 5, and a battery mounting box 7 is fixedly arranged at the top of the moving structure 1;

the clamping structure 5 comprises a T-shaped fork frame 501 fixedly arranged on one side of a threaded sliding block 408, an L-shaped connecting rod 502 fixedly arranged at the front end of the T-shaped fork frame 501, a movable block 503 movably arranged on the outer wall of the L-shaped connecting rod 502, a supporting rod 504 fixedly arranged on one side of the movable block 503, a first mounting seat 505 movably arranged at the rear end of the supporting rod 504, a clamping plate 506 fixedly arranged at the rear end of the first mounting seat 505, a first connecting rod 507 fixedly arranged at the bottom of the supporting rod 504, a second mounting seat 508 fixedly arranged on one side of the first connecting rod 507, a first telescopic device 509 movably arranged on one side of the second mounting seat 508, and a third mounting seat 5010 movably arranged on one side of the first telescopic device 509;

the fixed structure 6 comprises a second shell 601 fixedly mounted at the rear end of the T-shaped fork 501, a third motor 602 is fixedly mounted on one side of the second shell 601, a second screw 603 is movably mounted at the axis of the third motor 602, a second limiting block 604 is fixedly mounted on one side of the second screw 603, a threaded block 605 is mounted on the outer wall of the second screw 603 in a threaded manner, a sliding tube 606 is fixedly mounted on the outer wall of the threaded block 605, a mounting block 607 is fixedly mounted on one side of the sliding tube 606, a second telescopic device 608 is fixedly mounted on one side of the mounting block 607, a fourth mounting seat 609 is fixedly mounted on one side of the second telescopic device 608, a fixing block 6010 is movably mounted on the outer wall of the fourth mounting seat 609, a connecting block 6011 is fixedly mounted on one side of the fixing block 6011, and a fifth mounting seat 6012 is movably mounted on one side of the connecting block 6011.

In this embodiment, as shown in fig. 1 and 2, the moving structure 1 includes a fixed plate 101, a first supporting block 102 is fixedly installed at the bottom of the fixed plate 101, a shock insulation pad 103 is fixedly installed at the bottom of the first supporting block 102, a second supporting block 104 is fixedly installed at the bottom of the shock insulation pad 103, and a universal wheel 105 is fixedly installed at the bottom of the second supporting block 104; the universal wheels 105 facilitate the movement of the feeding device, and the shock insulation pad 103 can absorb shock generated when the device moves.

In this embodiment, as shown in fig. 1 and 3, the push rod 2 includes a mounting tube 201 fixedly mounted on the top of the fixing plate 101, a first mounting hole 202 is penetrated on one side of the mounting tube 201, a sliding rod 203 is slidably mounted on the inner wall of the mounting tube 201, a handle 204 is fixedly mounted on the top of the sliding rod 203, a second mounting hole 205 is penetrated on one side of the sliding rod 203, and a latch 206 is movably mounted on the inner wall of the second mounting hole 205; the mounting tube 201 and the sliding rod 203 form a sliding mechanism, and the first mounting hole 202 and the corresponding second mounting hole 205 can be inserted into the plug 206 to adjust the height of the handle 204 according to the requirement.

In this embodiment, as shown in fig. 1, 4 and 5, the vertical adjustment structure 3 includes a fixing frame 301 fixedly mounted on the top of the fixing plate 101, a T-shaped sliding groove 302 is provided on the inner wall of the fixing frame 301, a first motor 303 is fixedly mounted on the top of the fixing frame 301, a first screw rod 304 is movably mounted at the axis of the first motor 303, a mounting column 305 is mounted on the outer wall of the first screw rod 304 through threads, and a T-shaped sliding block 306 is fixedly mounted at the front end of the mounting column 305; the first motor 303 forms a screw transmission mechanism with the mounting column 305 through the first screw 304, the mounting column 305 forms a sliding mechanism with the T-shaped sliding groove 302 through the T-shaped sliding block 306, the external dimension structure of the T-shaped sliding block 306 is consistent with the internal dimension structure of the T-shaped sliding groove 302, and the height of the mounting column 305 can be adjusted by rotating the first screw 304.

In this embodiment, as shown in fig. 1 and 6, the horizontal adjusting structure 4 includes a first housing 401 fixedly installed on one side of a mounting post 305, a first limiting block 402 fixedly installed inside the first housing 401, a second motor 403 fixedly installed on the top of the first housing 401, an output shaft 404 movably installed at the axis of the second motor 403, a first straight bevel gear 405 fixedly installed at the bottom of the output shaft 404, a second straight bevel gear 406 installed at the rear end of the first straight bevel gear 405 in a meshed manner, a bidirectional screw 407 fixedly installed at the front end of the second straight bevel gear 406 in a penetrating manner, and a threaded slider 408 installed on the outer wall of the bidirectional screw 407 in a threaded manner; the thread sliders 408 are symmetrically distributed about the vertical center line of the bi-directional screw 407, and the bi-directional screw 407 rotates to drive the thread sliders 408 on both sides of the bi-directional screw 407 to move inwards or outwards simultaneously.

In this embodiment, as shown in fig. 1 and 6, the second motor 403 forms a rotation mechanism with the first straight bevel gear 405 through the output shaft 404, the first straight bevel gear 405 forms a straight bevel gear transmission mechanism with the second straight bevel gear 406, and the second straight bevel gear 406 forms a screw transmission mechanism with the screw slider 408 through the bi-directional screw 407; the bi-directional screw 407 can drive the threaded slider 408 to move left and right, and simultaneously drive the clamping structure 5 and the fixing structure 6 to move left and right.

In this embodiment, as shown in fig. 1, 7 and 8, the supporting rod 504 forms a rotating mechanism with the L-shaped connecting rod 502 through the movable block 503, the first connecting rod 507, the second mounting seat 508, the first telescopic device 509 and the third mounting seat 5010, and the clamping plate 506 forms a rotating mechanism with the supporting rod 504 through the first mounting seat 505; the first telescopic device 509 stretches and contracts to drive the clamping plate 506 to rotate, and one end of the aluminum plate can be positioned.

In this embodiment, as shown in fig. 1 and 9, the third motor 602 forms a screw transmission structure with the screw block 605 through the second screw 603, the second screw 603 forms a limit structure with the screw block 605 through the second limit block 604, and the screw block 605 forms a sliding mechanism with the second housing 601 body through the sliding tube 606, and at the same time, the external dimension structure of the sliding tube 606 is consistent with the internal dimension structure of the second housing 601; the sliding tube 606 can stably slide in the second housing 601, and the second stopper 604 can prevent the sliding tube 606 from moving excessively leftwards and falling off from the second housing 601.

In the present embodiment, as shown in fig. 1, a fixed block 6010 and a fifth mount 6012 constitute a rotation mechanism through a second telescopic device 608, a fourth mount 609, and a connection block 6011; the second telescopic device 608 can enable the fixing block 6010 to position one side of the aluminum plate.

In this embodiment, as shown in fig. 1, the clamping structures 5 and the fixing structures 6 are symmetrically distributed about the vertical center line of the first housing 401; the aluminum plate can be positioned at both ends of the aluminum plate, and the aluminum plate is positioned from both ends of one side of the aluminum plate.

In summary, this aluminum plate processing is with the feeding equipment that has two repositioning structures, when using, according to the height, adjust push rod 2, mount tube 201 and slide bar 203 constitute slide mechanism, can be according to the demand, with first mounting hole 202 and corresponding second mounting hole 205, insert bolt 206, adjust the height of handle 204, afterwards can carry out the removal feeding equipment through universal wheel 105, simultaneously vibration insulating pad 103 can absorb the vibrations that produce when the device removes, when loading aluminum plate, can start first motor 303, first motor 303 constitutes screw drive mechanism through first screw 304 and mount post 305, and mount post 305 constitutes slide mechanism through T-shaped sliding block 306 and T-shaped sliding groove 302, and the outside dimension structure of T-shaped sliding block 306 is unanimous with the inside dimension structure of T-shaped sliding groove 302, first screw 304 is rotatory, can adjust the height of mount post 305, can conveniently carry out the material loading or unload, afterwards according to the width of universal wheel 105, start second motor 403, second motor 403 constitutes rotary mechanism through output shaft 404 and first straight bevel gear 405, and second motor 403 constitutes rotary drive mechanism through first straight bevel gear 405, and second screw 605 constitutes screw drive mechanism through second gear 605 and second gear 605, screw 605 constitutes screw drive mechanism through the clearance between the straight gear wheel 605 and second screw 605, and the straight thread body 602 constitute screw drive mechanism through screw drive mechanism of a limit gear 602, and second screw 605, and the clearance between the straight thread profile of screw 605 is adjusted, and the screw joint profile of screw 605 is adjusted, simultaneously, the external dimension structure of the sliding tube 606 is consistent with the internal dimension structure of the second shell 601, the sliding tube 606 can stably slide in the second shell 601, the second limiting block 604 can prevent the sliding tube 606 from moving excessively leftwards, the mounting block 607 is moved until the sliding tube is flush with the left side of the aluminum plate, when the length of the aluminum plate exceeds the T-shaped fork frame 501, the mounting block 607 can also support the aluminum plate, the first telescopic device 509 is started after the supporting rod 504 forms a rotating mechanism with the L-shaped connecting rod 502 through the movable block 503, the first connecting rod 507, the second mounting seat 508, the first telescopic device 509 and the third mounting seat 5010, and the clamping plate 506 forms a rotating mechanism with the supporting rod 504 through the first mounting seat 505, the first telescopic device 509 stretches and contracts to drive the clamping plate 506 to rotate, one end of the aluminum plate can be positioned, the second telescopic device 608 is started after the aluminum plate is positioned, the second telescopic device 608 is formed by the second telescopic device 608, one side of the aluminum plate 6010 is positioned by the movable block 503, the fourth mounting seat 609 and the connecting block 6011, the aluminum plate is positioned by the third telescopic device, the aluminum plate is positioned by the first telescopic device, the two ends of the aluminum plate are positioned by the two sides of the aluminum plate 401, and the two sides of the aluminum plate are positioned by the two sides of the aluminum plate 401 and the two sides are positioned by the two sides, and the two sides of the aluminum plate 401 are positioned firmly and can be positioned by the two and firmly and positioned by the two sides and well by the positioning and the positioning of the aluminum plate.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. Aluminum plate processing is with feeding equipment who has two repositioning structures, including moving structure (1), its characterized in that: the mobile device comprises a mobile structure (1), wherein a pushing rod (2) is fixedly arranged at the top of the mobile structure (1), a vertical adjusting structure (3) is fixedly arranged at the top of the mobile structure (1), a horizontal adjusting structure (4) is fixedly arranged at one side of the vertical adjusting structure (3), a clamping structure (5) is fixedly arranged at one side of the horizontal adjusting structure (4), a fixing structure (6) is fixedly arranged at the rear end of the clamping structure (5), and a battery mounting box (7) is fixedly arranged at the top of the mobile structure (1);

the clamping structure (5) comprises a T-shaped fork frame (501) fixedly arranged on one side of a threaded sliding block (408), an L-shaped connecting rod (502) is fixedly arranged at the front end of the T-shaped fork frame (501), a movable block (503) is movably arranged on the outer wall of the L-shaped connecting rod (502), a supporting rod (504) is fixedly arranged on one side of the movable block (503), a first mounting seat (505) is movably arranged at the rear end of the supporting rod (504), a clamping plate (506) is fixedly arranged at the rear end of the first mounting seat (505), a first connecting rod (507) is fixedly arranged at the bottom of the supporting rod (504), a second mounting seat (508) is fixedly arranged on one side of the first connecting rod (507), a first telescopic device (509) is movably arranged on one side of the second mounting seat (508), and a third mounting seat (5010) is movably arranged on one side of the first telescopic device (509).

Fixed knot constructs (6) including the second casing (601) of the rear end fixed mounting of T type fork (501), one side fixed mounting of second casing (601) has third motor (602), the axle center department movable mounting of third motor (602) has second screw rod (603), one side fixed mounting of second screw rod (603) has second stopper (604), threaded block (605) are installed to the outer wall screw thread of second screw rod (603), the outer wall fixed mounting of threaded block (605) has sliding tube (606), one side fixed mounting of sliding tube (606) has installation piece (607), one side fixed mounting of installation piece (607) has second expansion joint (608), one side fixed mounting of second expansion joint (608) has fourth mount pad (609), one side fixed mounting of fixed block (6010) has connecting block (6011), one side movable mounting of connecting block (6011) has fifth mount pad (6012).

2. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the movable structure (1) comprises a fixed plate (101), a first supporting block (102) is fixedly arranged at the bottom of the fixed plate (101), a shock insulation pad (103) is fixedly arranged at the bottom of the first supporting block (102), a second supporting block (104) is fixedly arranged at the bottom of the shock insulation pad (103), and universal wheels (105) are fixedly arranged at the bottom of the second supporting block (104).

3. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the push rod (2) comprises a mounting pipe (201) fixedly mounted at the top of the fixing plate (101), a first mounting hole (202) is formed in one side of the mounting pipe (201) in a penetrating mode, a sliding rod (203) is slidably mounted on the inner wall of the mounting pipe (201), a handle (204) is fixedly mounted at the top of the sliding rod (203), a second mounting hole (205) is formed in one side of the sliding rod (203) in a penetrating mode, and a bolt (206) is movably mounted on the inner wall of the second mounting hole (205).

4. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the vertical adjusting structure (3) comprises a fixed frame (301) fixedly installed at the top of a fixed plate (101), a T-shaped sliding groove (302) is formed in the inner wall of the fixed frame (301), a first motor (303) is fixedly installed at the top of the fixed frame (301), a first screw (304) is movably installed at the axis of the first motor (303), a mounting column (305) is installed on the outer wall of the first screw (304) in a threaded mode, and a T-shaped sliding block (306) is fixedly installed at the front end of the mounting column (305).

5. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the utility model provides a horizontal adjustment structure (4) is including one side fixed mounting of erection column (305) has first casing (401), the inside fixed mounting of first casing (401) has first stopper (402), the top fixed mounting of first casing (401) has second motor (403), the axle center department movable mounting of second motor (403) has output shaft (404), the bottom fixed mounting of output shaft (404) has first straight-tooth conical gear (405), second straight-tooth conical gear (406) are installed in the rear end meshing of first straight-tooth conical gear (405), the front end of second straight-tooth conical gear (406) runs through fixed mounting has bi-directional screw (407), screw thread slider (408) are installed to the outer wall screw thread of bi-directional screw (407).

6. The feeding apparatus with double repositioning structure for aluminum plate processing according to claim 5, wherein: the second motor (403) and the first straight-tooth conical gear (405) form a rotating mechanism through the output shaft (404), the first straight-tooth conical gear (405) and the second straight-tooth conical gear (406) form a straight-tooth conical gear transmission mechanism, and the second straight-tooth conical gear (406) and the thread sliding block (408) form a spiral transmission mechanism through the bidirectional screw (407); the bidirectional screw (407) can drive the threaded slider (408) to move left and right, and simultaneously drive the clamping structure (5) and the fixing structure (6) to move left and right.

7. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the support rod (504) forms a rotating mechanism with the L-shaped connecting rod (502) through the movable block (503), the first connecting rod (507), the second mounting seat (508), the first telescopic device (509) and the third mounting seat (5010), and the clamping plate (506) forms the rotating mechanism with the support rod (504) through the first mounting seat (505).

8. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the third motor (602) forms a spiral transmission structure with the threaded block (605) through the second screw (603), the second screw (603) forms a limiting structure with the threaded block (605) through the second limiting block (604), the threaded block (605) forms a sliding mechanism with the second shell (601) through the sliding tube (606), and meanwhile, the external size structure of the sliding tube (606) is consistent with the internal size structure of the second shell (601).

9. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the fixed block (6010) and the fifth mounting seat (6012) form a rotating mechanism through the second telescopic device (608), the fourth mounting seat (609) and the connecting block (6011).

10. The feeding apparatus with double repositioning structure for processing aluminum plate according to claim 1, wherein: the clamping structures (5) and the fixing structures (6) are symmetrically distributed about the vertical center line of the first shell (401).