CN117548927B

CN117548927B - Rotary cultivator arbor welding equipment

Info

Publication number: CN117548927B
Application number: CN202410031452.XA
Authority: CN
Inventors: 田作方; 张连怀
Original assignee: Lianyungang Jiuqian Machinery Manufacturing Co ltd
Current assignee: Lianyungang Jiuqian Machinery Manufacturing Co ltd
Priority date: 2024-01-09
Filing date: 2024-01-09
Publication date: 2024-03-08
Anticipated expiration: 2044-01-09
Also published as: CN117548927A

Abstract

The invention relates to the technical field of welding equipment, in particular to rotary cultivator cutter shaft welding equipment which comprises a workbench, a sliding plate, a feeding structure, a storage structure, a carrying structure, a withstanding structure and a mounting structure, wherein the carrying structure is used for realizing automatic feeding of cutter shafts, so that feeding difficulty is reduced, cutter shafts with different lengths and diameters are conveniently fed, cutter holders with different widths are conveniently fixed by the feeding structure, flexibility is improved, the cutter holders are simultaneously fed, the cutter holders can be welded by matching with a welding gun, a storage box and the sliding plate are conveniently and rapidly mounted and dismounted by the mounting structure, dismounting efficiency of the storage box is improved, the storage structure is convenient for storing the cutter holders so as to be matched with the feeding structure to feed, and the withstanding structure can enable right ends of the cutter holders with different lengths to be exposed to the outer side of a placing plate so that the cutter holders can be in conflict with the cutter shafts in a vertical state, and the cutter holders can be conveniently welded.

Description

Rotary cultivator arbor welding equipment

Technical Field

The invention relates to the technical field of welding equipment, in particular to rotary cultivator cutter shaft welding equipment.

Background

The rotary cultivator is a cultivator matched with a tractor to complete the tillage and harrowing operation. The rotary cultivator has the characteristics of strong soil breaking capacity, flat ground surface after tillage and the like, can cut up the stubble buried below the ground surface, is convenient for the operation of the seeder, provides a good seed bed for later sowing, and mainly comprises a frame, a transmission system, a rotary cultivator cutter shaft, a blade and a housing, wherein the cutter shaft of the rotary cultivator can weld the cutter seat and the cutter shaft through welding equipment in the processing process.

However, traditional welding equipment is when welding the blade holder, drive the cylinder through the connecting axle on the slide usually and place the board and rotate, fix the blade holder through placing the board, because place the board and only can fix the blade holder of same model, when leading to meetting the blade holder of equidimension, still need to change placing the board, the flexibility is relatively poor, the blade holder stores through the storage box simultaneously, the storage box is installed on the slide through the bolt generally, when need carry out the dismouting to the storage box, the dismouting inefficiency, and the arbor generally needs operating personnel to remove to two backing wheels on the workstation, because the weight of arbor is heavier, lead to the material loading degree of difficulty great.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides rotary cultivator cutter shaft welding equipment.

The technical scheme adopted for solving the technical problems is as follows: the rotary cultivator cutter shaft welding equipment comprises a workbench, a sliding plate arranged on the workbench, a mounting structure arranged on the sliding plate, a feeding structure arranged on the sliding plate, a storage structure arranged on the sliding plate and a carrying structure arranged on the workbench;

be equipped with the feeding structure on the slide, the feeding structure includes the connecting axle, rotate on the slide and be connected with the connecting axle, the last fixedly connected with first cylinder of connecting axle, the flexible end fixedly connected with of first cylinder places the board, it is connected with first lead screw to place on the board to rotate, threaded connection has two fixed plates on the first lead screw, sliding connection between the fixed plate and the board of placing, first lead screw both ends screw thread opposite direction, place and install first motor on the board, install the second motor on the slide.

Specifically, fixed connection between the output shaft of first motor and the first lead screw, fixed connection between the output shaft of second motor and the connecting axle, install the second cylinder on the slide, the telescopic end fixedly connected with push pedal of second cylinder, sliding connection between push pedal and the slide.

Specifically, be equipped with the structure of resisting on placing the board, the structure of resisting includes the baffle, sliding connection has the baffle on placing the board, sliding connection has the gag lever post on the baffle, be equipped with a plurality of spacing grooves on placing the board, the block between two of them spacing grooves on gag lever post and the board of placing.

Specifically, the stop lever is fixedly connected with an anti-falling block, the anti-falling block is in sliding connection with the placing plate, and a first reset spring is fixedly connected between the anti-falling block and the baffle.

Specifically, the storage structure includes the storage box, can dismantle on the slide and be connected with the storage box, sliding connection has the board of preventing falling on the storage box, sliding connection has the fixed block on the board of preventing falling, contradict between fixed block and the storage box.

Specifically, the anti-falling plate is rotationally connected with a knob, and the knob is in threaded connection with the fixed block.

Specifically, mounting structure includes the installation pole, sliding connection has a plurality of installation poles on the slide, a plurality of fixed connection between installation pole and the slide bar, sliding connection between slide bar and the slide, fixedly connected with two installation pieces on the storage box, two the block between two of them constant head tanks on installation piece and the slide, the block between the installation groove on one of them installation pole and the place ahead installation piece.

Specifically, rotate on the slide bar and connect the arm-tie, sliding connection between arm-tie and the slide, fixedly connected with second reset spring between slide bar and the slide, be equipped with a plurality of constant head tanks on the slide, be equipped with the dog that uses with the arm-tie cooperation on the slide.

Specifically, the transport structure includes the pole setting, rotate in the pole setting and be connected with the second lead screw, threaded connection has the slider on the second lead screw, sliding connection between slider and the pole setting, install the third cylinder on the slider, the flexible end fixedly connected with horizontal pole of third cylinder, install two transport poles on the horizontal pole.

Specifically, sliding connection has the dead lever on the carrier bar, contradict between dead lever and the horizontal pole, it is connected with the third lead screw to rotate on the carrier bar, threaded connection between dead lever and the third lead screw, install the third motor in the pole setting, fixed connection between the output shaft of third motor and the second lead screw.

The beneficial effects of the invention are as follows:

(1) According to the rotary cultivator cutter shaft welding equipment, the carrying structure is arranged on the workbench, so that the cutter shafts are automatically fed, the feeding difficulty is reduced, and meanwhile, the cutter shafts with different lengths and diameters are conveniently fed.

(2) According to the rotary cultivator cutter shaft welding equipment, the feeding structure is arranged on the sliding plate, the cutter holders with different widths are conveniently fixed by the aid of the feeding structure, flexibility is improved, the cutter holders are fed, and the cutter holders can be welded by matching with the welding gun.

(3) According to the rotary cultivator cutter shaft welding equipment, the storage structure is arranged on the sliding plate, the installation structure is convenient for quickly installing and detaching the storage box and the sliding plate, the disassembly and assembly efficiency of the storage box is improved, and the storage structure is convenient for storing the cutter holder so as to be matched with the feeding structure for feeding.

(4) According to the rotary cultivator cutter shaft welding equipment, the retaining structure is arranged on the placing plate, and the right ends of the cutter holders with different lengths can be exposed to one point outside the placing plate, so that the cutter holders can be abutted against the cutter shaft in a vertical state, and the cutter holders can be welded conveniently.

Drawings

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

FIG. 1 is a schematic view of the whole structure of a preferred embodiment of a rotary cultivator cutter shaft welding apparatus provided by the invention;

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

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

FIG. 4 is an enlarged schematic view of the structure of the portion C shown in FIG. 1;

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

FIG. 6 is a schematic view of a connection structure of a fixing plate and a placement plate according to the present invention;

FIG. 7 is an enlarged schematic view of the E-section structure shown in FIG. 6;

FIG. 8 is a schematic view of a connection structure between a fixing plate and a first wire rod according to the present invention;

FIG. 9 is a schematic view of the construction of the mounting bar of the present invention;

FIG. 10 is a schematic view of a connection structure of a knob and a drop plate according to the present invention;

FIG. 11 is a schematic view of a connecting structure of a stop lever and a baffle plate according to the present invention;

FIG. 12 is a schematic view of the connection structure of the mounting bar and the skateboard of the present invention;

fig. 13 is an enlarged schematic view of the F-section structure shown in fig. 12;

FIG. 14 is a schematic view of a limiting groove according to the present invention;

FIG. 15 is a schematic view of a connecting structure of a carrier bar and a cross bar according to the present invention;

FIG. 16 is a schematic view of a connection structure between a storage box and a slide plate according to the present invention;

fig. 17 is an enlarged schematic view of the G portion structure shown in fig. 16.

In the figure: 1. a work table; 2. a slide plate; 3. a feeding structure; 301. a connecting shaft; 302. a first cylinder; 303. placing a plate; 304. a first screw rod; 305. a fixing plate; 306. a first motor; 307. a push plate; 308. a second cylinder; 309. a second motor; 4. a storage structure; 401. a storage box; 402. a falling-preventing plate; 403. a fixed block; 404. a knob; 405. a mounting block; 5. a carrying structure; 501. a vertical rod; 502. a second screw rod; 503. a slide block; 504. a third cylinder; 505. a cross bar; 506. a carrying rod; 507. a fixed rod; 508. a third screw rod; 509. a third motor; 6. a resisting structure; 601. a baffle; 602. a limit rod; 603. a limit groove; 604. an anti-falling block; 605. a first return spring; 7. a mounting structure; 701. a mounting rod; 702. a mounting groove; 703. a positioning groove; 704. a slide bar; 705. a second return spring; 706. pulling a plate; 707. and a stop block.

Detailed Description

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

As shown in fig. 1 to 17, the rotary cultivator cutter shaft welding equipment comprises a workbench 1, a sliding plate 2 arranged on the workbench 1, a mounting structure 7 arranged on the sliding plate 2, a feeding structure 3 arranged on the sliding plate 2, a storage structure 4 arranged on the sliding plate 2 and a carrying structure 5 arranged on the workbench 1; the feeding structure 3 comprises a connecting shaft 301, the connecting shaft 301 is rotationally connected to the sliding plate 2, a first air cylinder 302 is fixedly connected to the connecting shaft 301, a placing plate 303 is fixedly connected to the telescopic end of the first air cylinder 302, a first screw rod 304 is rotationally connected to the placing plate 303, two fixing plates 305 are connected to the first screw rod 304 in a threaded mode, the fixing plates 305 are slidingly connected with the placing plate 303, threads at two ends of the first screw rod 304 are opposite in direction, a first motor 306 is installed on the placing plate 303, and a second motor 309 is installed on the sliding plate 2.

Specifically, the output shaft of the first motor 306 is fixedly connected with the first screw rod 304, the output shaft of the second motor 309 is fixedly connected with the connecting shaft 301, the second cylinder 308 is installed on the sliding plate 2, the telescopic end of the second cylinder 308 is fixedly connected with the push plate 307, the push plate 307 is slidably connected with the sliding plate 2, the left end of the cutter shaft is placed in the three-jaw chuck on the workbench 1, the left end of the cutter shaft is clamped and fixed by the three-jaw chuck, the right end of the cutter shaft is fixed by the hydraulic cylinder on the right end of the workbench 1, then the push plate 307 is driven to slide leftwards when the telescopic end of the second cylinder 308 is started, the push plate 307 pushes the tool apron at the bottom of the storage box 401 between the two fixing plates 305, the left end of the tool apron is abutted against the baffle 601, at this time, the first motor 306 can be started, the output shaft of the first motor 306 can drive the first screw rod 304 to rotate when rotating, because the screw thread directions at the two ends of the first screw rod 304 are opposite, the first screw rod 304 drives the two fixing plates 305 to slide in opposite directions, so that the tool holders with different widths can be fixed, after the tool holders are fixed, the second motor 309 can be started, the output shaft of the second motor 309 can drive the connecting shaft 301 to rotate, the first connecting shaft 301 can drive the first air cylinder 302 to rotate, the first air cylinder 302 can drive the placing plate 303 to rotate, the placing plate 303 can drive the tool holders to move when the tool holders rotate to a vertical state, the first air cylinder 302 stretches at the moment, the first air cylinder 302 drives the placing plate 303 to move downwards, the placing plate 303 drives the tool holders to collide with the cutter shafts, then the two welding guns are driven by the two hydraulic cylinders on the slide plate 2 to weld and fix the tool holders, after the welding of the two sides of the tool apron is finished, the inner driving assembly drives the cutter shaft to rotate through the three-jaw chuck, and as the part, which is in contact with the cutter shaft, of the end part of the hydraulic cylinder on the right side of the workbench 1 is a rotating block, the hydraulic cylinder on the right side cannot be influenced, after the cutter shaft rotates, the part, which is not welded, of the tool apron is welded, and when the tool apron at different positions is required to be welded, the sliding plate 2 is driven to move left and right through the inner assembly of the workbench 1 so as to weld the tool apron at different positions on the cutter shaft.

Specifically, be equipped with on placing the board 303 and keep out structure 6, keep out structure 6 includes baffle 601, sliding connection has baffle 601 on placing the board 303, sliding connection has gag lever post 602 on the baffle 601, be equipped with a plurality of spacing grooves 603 on placing the board 303, block between two of them spacing grooves 603 on gag lever post 602 and placing the board 303, fixed connection anti-drop block 604 on gag lever post 602, sliding connection between anti-drop block 604 and placing the board 303, fixed connection has first reset spring 605 between anti-drop block 604 and the baffle 601, when meetting the blade holder of different length, can adjust the position of baffle 601, during the regulation, accessible push down gag lever post 602, can drive anti-drop block 604 down motion when gag lever post 602 down moves, and when anti-drop block 604 down slides, first reset spring 605 contracts, and the block between the spacing groove 603 on placing the board 303 any more at this moment, can make baffle 601 slide on placing the board 303, when sliding to a certain position, loosens, makes the block 602 make between first reset spring 602 and the spacing groove 602 and the limit groove 603 on placing the board 303 through the same length, can both be placed between the fixed plate 303 and the side of the fixed connection between the two of which can not be through the side of the clamp between the baffle 602 and the fixed plate 601.

Specifically, the storage structure 4 comprises a storage box 401, the sliding plate 2 is detachably connected with the storage box 401, the storage box 401 is connected with a falling-preventing plate 402 in a sliding manner, the falling-preventing plate 402 is connected with a fixing block 403 in a sliding manner, the fixing block 403 is in interference with the storage box 401, the falling-preventing plate 402 is rotationally connected with a knob 404, the knob 404 is in threaded connection with the fixing block 403, the mounting structure 7 comprises a mounting rod 701, the sliding plate 2 is connected with a plurality of mounting rods 701 in a sliding manner, the mounting rods 701 are fixedly connected with a sliding rod 704, the sliding rod 704 is connected with the sliding plate 2 in a sliding manner, the storage box 401 is fixedly connected with two mounting blocks 405, the two mounting blocks 405 are clamped with two positioning grooves 703 on the sliding plate 2, one mounting rod 701 is clamped with a mounting groove 702 on the front mounting block 405, the slide bar 704 is rotationally connected with the pull plate 706, the pull plate 706 is slidingly connected with the slide plate 2, a second return spring 705 is fixedly connected between the slide bar 704 and the slide plate 2, a plurality of positioning grooves 703 are arranged on the slide plate 2, a stop block 707 matched with the pull plate 706 is arranged on the slide plate 2, when the storage box 401 needs to be detached, the pull plate 706 can be pulled forwards, the slide bar 704 is driven to move forwards when the pull plate 706 moves forwards, the second return spring 705 contracts when the slide bar 704 moves forwards, the slide bar 704 can drive a plurality of mounting rods 701 to slide, the mounting rods 701 are not clamped with the mounting grooves 702 on the mounting block 405 in front of the storage box 401 any more, at the moment, the pull plate 706 can be contacted with the stop block 707 by rotating the pull plate 706, the pull plate 706 is matched with the stop block 707, the pull plate 706 is not required to be pulled forwards when the storage box 401 is detached, the flexibility is improved, at this moment, the storage box 401 can be detached from the slide plate 2, the storage box 401 and the slide plate 2 are convenient to install and detach through the clamping between the mounting rod 701 and the mounting block 405, the disassembly and assembly efficiency of the storage box 401 is improved, at this moment, the storage box 401 with the tool apron can be installed on the slide plate 2, the storage box 401 slides up and down through the anti-falling plate 402 in the carrying process, two through holes at the bottom of the storage box 401 are sealed, the tool apron can be prevented from sliding off from the through holes, meanwhile, when the anti-falling plate 402 slides to a certain position, the knob 404 can be rotated to enable the knob 404 to drive the fixing block 403 to abut against the storage box 401 to be fixed, free sliding of the anti-falling plate 402 is avoided, and when different storage boxes 401 are used, the mounting blocks 405 on different storage boxes 401 are spliced with two positioning grooves 703 on the slide plate 2, and one of the mounting rods 701 is enabled to be clamped with the mounting grooves 702 on the mounting blocks 405.

Specifically, the carrying structure 5 comprises a vertical rod 501, a second screw rod 502 is rotatably connected to the vertical rod 501, a sliding block 503 is in threaded connection with the second screw rod 502, the sliding block 503 is in sliding connection with the vertical rod 501, a third air cylinder 504 is mounted on the sliding block 503, a transverse rod 505 is fixedly connected to the telescopic end of the third air cylinder 504, two carrying bars 506 are mounted on the transverse rod 505, a fixing rod 507 is slidably connected to the carrying bars 506, the fixing rod 507 is in abutting contact with the transverse rod 505, a third screw rod 508 is rotatably connected to the carrying bars 506, a third motor 509 is mounted on the vertical rod 501, an output shaft of the third motor 509 is fixedly connected with the second screw rod 502, firstly, when the cutter shaft is required to be fed, the third air cylinder 504 can be started, when the telescopic end of the third air cylinder 504 stretches, the cross rod 505 is driven to move downwards, when the cross rod 506 moves downwards to a certain position, the cutter shaft is conveyed to the two conveying rods 506, when the third air cylinder 504 is contracted to a certain height, the output shaft of the third motor 509 is started to drive the second screw rod 502 to rotate, the sliding block 503 is driven to move backwards by the threads when the second screw rod 502 rotates, the sliding block 503 is driven to move backwards by the third air cylinder 504, when the third air cylinder 504 moves to a certain position, the hydraulic cylinder on the workbench 1 can drive the two supporting wheels to rise to a certain position, the third air cylinder 504 stretches to drive the cutter shaft to move downwards, the cutter shaft is placed on the two supporting wheels, at the moment, the two conveying rods 506 move to the front of the workbench 1, thereby the sliding block 503 is driven to move forwards and backwards by the second screw rod 502, the third cylinder 504 is matched to drive the carrying rod 506 to move up and down, so that automatic feeding of the cutter shafts is achieved, feeding difficulty is reduced, meanwhile, the cutter shafts can be prevented from falling due to the fact that the carrying rod 506 is L-shaped, when cutter shafts with different diameters or lengths need to be replaced, the inner hexagonal wrench can be inserted into the third screw rod 508, the third screw rod 508 is rotated to enable the third screw rod 508 to drive the fixing rod 507 to slide, the fixing rod 507 is not abutted against the cross rod 505 any more, at the moment, the positions of the carrying rod 506 are adjusted according to cutter shafts with different lengths, and when the cutter shafts need to be replaced, the carrying rod 506 only needs to slide out from the end parts of the cross rod 505, and the different carrying rods 506 need to be replaced.

When the cutter shaft is required to be fed, the transverse rod 505 is driven to move downwards by starting the third air cylinder 504, the telescopic end of the third air cylinder 504 stretches, the two carrying rods 506 are driven to move downwards by the transverse rod 505, the cutter shaft is carried to the two carrying rods 506 by moving downwards to a certain position, the second screw rod 502 is driven to rotate by starting the third motor 509 when the output shaft of the third motor 509 rotates by retracting the third air cylinder 504 to a certain height, the sliding block 503 is driven to move backwards by threads when the second screw rod 502 rotates, the third air cylinder 504 is driven to move backwards by the sliding block 503 when the sliding block 503 moves backwards, and the two supporting wheels are driven to rise to a certain position by the hydraulic cylinder on the workbench 1 at the moment when the third air cylinder 504 moves to a certain position, the third cylinder 504 is extended to drive the cutter shaft to move downwards, the cutter shaft is lowered onto two supporting wheels, the sliding block 503 is driven to move forwards and backwards through the second screw rod 502, the third cylinder 504 is matched to drive the carrying rod 506 to move upwards and downwards, automatic feeding of the cutter shaft is achieved, feeding difficulty is reduced, meanwhile, the carrying rod 506 is L-shaped, the cutter shaft can be prevented from falling, when cutter shafts with different diameters or lengths need to be replaced, an inner hexagonal wrench can be inserted into the third screw rod 508, the third screw rod 508 is rotated to enable the third screw rod 508 to drive the fixing rod 507 to slide in a threaded manner, the fixing rod 507 is not abutted against the cross rod 505 any more, at the moment, the position of the carrying rod 506 is adjusted according to cutter shafts with different lengths, and when replacement is needed, the carrying rod 506 only needs to slide out from the end part of the cross rod 505, and the different carrying rods 506 need to be replaced;

the left end of the cutter shaft is arranged in a three-jaw chuck on the workbench 1, the left end of the cutter shaft is clamped and fixed through the three-jaw chuck, the right end of the cutter shaft is fixed through a hydraulic cylinder at the right end of the workbench 1, then the second cylinder 308 is started, the telescopic end of the second cylinder 308 can drive the push plate 307 to slide leftwards when being extended, the push plate 307 can push the cutter holder at the bottom of the storage box 401 between two fixing plates 305, the left end of the cutter holder is abutted against the baffle 601, at the moment, the first motor 306 can be started, the output shaft of the first motor 306 can drive the first screw 304 to rotate when rotating, the first screw 304 can drive the two fixing plates 305 to slide oppositely through threads because the threads at the two ends of the first screw 304 are opposite, the two fixing plates 305 can slide oppositely through the first screw 304, the cutter holders with different widths can be conveniently fixed, after fixing, the second motor 309 can be started, the output shaft of the second motor 309 will drive the connecting shaft 301 to rotate when rotating, the first connecting shaft 301 will drive the first cylinder 302 to rotate, when the first cylinder 302 rotates, the placing plate 303 will drive the knife holder to move, when the knife holder rotates to the vertical state, the first cylinder 302 extends, the first cylinder 302 will drive the placing plate 303 to move downwards, the placing plate 303 will drive the knife holder to collide with the knife shaft, then two welding guns will drive two welding guns to weld and fix the knife holder through the two hydraulic cylinders on the slide plate 2, after the welding of the two sides of the knife holder is completed, the internal driving component will drive the knife shaft to rotate through the three jaw chuck, at this time, the right hydraulic cylinder will not be affected because the part of the right hydraulic cylinder end of the workbench 1 abutting the knife shaft is a rotating block, after the knife shaft rotates, the non-welded part of the knife holder will be welded, when the tool apron at different positions is required to be welded, the sliding plate 2 can be driven to move left and right through the internal components of the workbench 1 so as to weld the tool apron at different positions on the cutter shaft;

when the cutter holders with different lengths are met, the positions of the baffle 601 can be adjusted, during adjustment, the limiting rod 602 is pressed downwards, the limiting rod 602 can drive the anti-falling block 604 to move downwards when moving downwards, the first reset spring 605 contracts when the anti-falling block 604 slides downwards, meanwhile, the limiting rod 602 is not clamped with the limiting grooves 603 on the placing plate 303, the baffle 601 can slide on the placing plate 303 at the moment, when the cutter holders slide to a certain position, the limiting rod 602 is loosened, the limiting rod 602 is clamped between the left and right of the first reset spring 605 and two limiting grooves 603 on the placing plate 303, the baffle 601 after sliding is conveniently fixed through the clamping between the limiting rod 602 and the placing plate 303, and meanwhile, the baffle 601 is connected with the placing plate 303 in a sliding mode, so that one point can be exposed outside the placing plate 303 according to the right end of the cutter holders with different lengths, the cutter holders can be abutted with cutter shafts in a vertical state, and the cutter holders can be conveniently welded;

when the storage box 401 needs to be detached, the pull plate 706 is pulled forwards, the slide rod 704 is driven to move forwards when the pull plate 706 moves forwards, the second reset spring 705 is contracted when the slide rod 704 moves forwards, the slide rod 704 drives the mounting rods 701 to slide, the mounting rods 701 are not clamped with the mounting grooves 702 on the mounting blocks 405 in front of the storage box 401, at the moment, the pull plate 706 can be abutted against the stop blocks 707 through rotation of the pull plate 706, the pull plate 706 is matched with the stop blocks 707 for use, the pull plate 706 is not required to be pulled all the time during detachment, the flexibility is improved, the storage box 401 can be detached from the slide plate 2 at the moment, the mounting rods 701 and the mounting blocks 405 are clamped, the storage box 401 is convenient to be quickly mounted and detached from the slide plate 2, the dismounting efficiency of the storage box 401 is improved, the storage box 401 with the tool apron can be mounted on the slide plate 2 at the moment, the storage box 401 is prevented from falling from the through holes at the bottom of the anti-falling plate 402, the two through holes at the bottom of the storage box 401, the bottom of the storage box 401 can be prevented from falling from sliding down from the through the anti-falling plate 402 to the mounting blocks 402, the rotation of the anti-falling plate 401 can be prevented from being mounted to the slide block 404, and the mounting blocks can be prevented from being mounted with the slide block 401 and the mounting block 401, and the storage box 401 can be mounted with the mounting block 401 by the mounting block 401, and the mounting block 401 can be fixed by the position of the mounting block 401.

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

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

Claims

1. The rotary cultivator cutter shaft welding equipment is characterized by comprising a workbench (1), a sliding plate (2) arranged on the workbench (1), a mounting structure (7) arranged on the sliding plate (2), a feeding structure (3) arranged on the sliding plate (2), a storage structure (4) arranged on the sliding plate (2) and a carrying structure (5) arranged on the workbench (1);

the feeding structure (3) comprises a connecting shaft (301), the connecting shaft (301) is rotationally connected to the sliding plate (2), a first air cylinder (302) is fixedly connected to the connecting shaft (301), a placement plate (303) is fixedly connected to the telescopic end of the first air cylinder (302), a first screw rod (304) is rotationally connected to the placement plate (303), two fixing plates (305) are connected to the first screw rod (304) in a threaded mode, the fixing plates (305) are in sliding connection with the placement plate (303), the threads at two ends of the first screw rod (304) are opposite in direction, a first motor (306) is installed on the placement plate (303), and a second motor (309) is installed on the sliding plate (2); a resisting structure (6) is arranged on the placing plate (303); the resisting structure (6) comprises a baffle (601), the baffle (601) is connected to the placing plate (303) in a sliding mode, a limiting rod (602) is connected to the baffle (601) in a sliding mode, a plurality of limiting grooves (603) are formed in the placing plate (303), and the limiting rod (602) is clamped with two of the limiting grooves (603) in the placing plate (303);

the storage structure (4) comprises a storage box (401), the storage box (401) is detachably connected to the sliding plate (2), the storage box (401) is connected with a falling-preventing plate (402) in a sliding mode, a fixed block (403) is connected to the falling-preventing plate (402) in a sliding mode, and the fixed block (403) is in interference with the storage box (401);

the mounting structure (7) comprises mounting rods (701), a plurality of mounting rods (701) are connected to the sliding plate (2) in a sliding manner, the mounting rods (701) are fixedly connected with the sliding rod (704), the sliding rod (704) is connected with the sliding plate (2) in a sliding manner, two mounting blocks (405) are fixedly connected to the storage box (401), two mounting blocks (405) are clamped with two positioning grooves (703) on the sliding plate (2), and one mounting rod (701) is clamped with one mounting groove (702) on the front mounting block (405);

the carrying structure (5) comprises a vertical rod (501), a second screw rod (502) is rotationally connected to the vertical rod (501), a sliding block (503) is connected to the second screw rod (502) in a threaded mode, the sliding block (503) is connected with the vertical rod (501) in a sliding mode, a third air cylinder (504) is installed on the sliding block (503), a transverse rod (505) is fixedly connected to the telescopic end of the third air cylinder (504), and two carrying rods (506) are installed on the transverse rod (505);

the output shaft of the first motor (306) is fixedly connected with the first screw rod (304), the output shaft of the second motor (309) is fixedly connected with the connecting shaft (301), a second air cylinder (308) is arranged on the sliding plate (2), a push plate (307) is fixedly connected with the telescopic end of the second air cylinder (308), and the push plate (307) is in sliding connection with the sliding plate (2).

2. The rotary cultivator arbor welding apparatus of claim 1, wherein: the limiting rod (602) is fixedly connected with an anti-falling block (604), the anti-falling block (604) is in sliding connection with the placing plate (303), and a first reset spring (605) is fixedly connected between the anti-falling block (604) and the baffle (601).

3. The rotary cultivator arbor welding apparatus of claim 1, wherein: the anti-falling plate (402) is rotationally connected with a knob (404), and the knob (404) is in threaded connection with the fixed block (403).

4. The rotary cultivator arbor welding apparatus of claim 1, wherein: the sliding plate is characterized in that a pull plate (706) is rotationally connected to the sliding rod (704), the pull plate (706) is in sliding connection with the sliding plate (2), a second reset spring (705) is fixedly connected between the sliding rod (704) and the sliding plate (2), a plurality of positioning grooves (703) are formed in the sliding plate (2), and a stop block (707) matched with the pull plate (706) is arranged on the sliding plate (2).

5. The rotary cultivator arbor welding apparatus of claim 1, wherein: the utility model discloses a pole setting device, including transport pole (506), fixed rod (507) is connected with on the transport pole (506) in a sliding way, contradict between fixed rod (507) and horizontal pole (505), rotate on transport pole (506) and be connected with third lead screw (508), threaded connection between fixed rod (507) and third lead screw (508), install third motor (509) on pole setting (501), fixed connection between output shaft and second lead screw (502) of third motor (509).