CN116944482A - Hot melting casting equipment for processing aluminum zinc silicon coating material - Google Patents

Abstract

The invention relates to the technical field of casting equipment, in particular to hot-melting casting equipment for processing an aluminum zinc silicon coating material, which comprises a workbench, a feeding hopper, a scraping structure, a collecting structure, a knocking structure, a mounting structure and a damping structure, wherein the knocking structure can knock two sides of a die so that a casting block can fall off from the die better, the damping structure is convenient for damping the fallen casting block, the casting block is prevented from directly falling on a conveyor to damage the conveyor, the damping structure is continuously vibrated when the knocking structure knocks, the casting block is prevented from falling from the damping structure, the scraping structure can automatically scrape scum on the surface of the hot-melting material in the feeding hopper, the scum is prevented from flowing into the die, the product quality of the casting block is improved, the collecting structure is convenient for collecting scum scraped by the scraping structure, the baffle is convenient for being detached from the workbench quickly by the mounting structure so as to clean a scraping component in the scraping structure, and the using effect of the scraping component is improved.

Description

Hot melting casting equipment for processing aluminum zinc silicon coating material

Technical Field

The invention relates to the technical field of casting equipment, in particular to hot-melting casting equipment for processing an aluminum zinc silicon coating material.

Background

The hot dip coating is to put the clean work piece into a melted zinc pool to isothermal and then take out, the surface of the work piece is coated with thicker zinc, the thickness is generally more than 0.2mm, the work piece is used for outdoor bolts and nuts, large-scale steel-iron components and the like, the aluminum zinc silicon coating material is one of the hot dip coating materials, the hot dip coating materials are hot dip mixed in the production process of factories, then the mixture flows onto a die through a feeding hopper, and finally the block is cast.

However, traditional hot melt casting equipment is when processing aluminium zinc silicon cladding material, because hot melt material cools off the back at the left end of feed hopper when cooling down, there is the dross to float on the surface when hot melt material pours into the mould after, need usually can carry out the shoveling through the dross on hot melt material surface in the mould through operating personnel handheld shovel, it is slow to carry out the efficiency through operating personnel shoveling, and the shoveling effect is poor, thereby lead to fashioned cast piece product quality to reduce, and when the mould moves to the left end, only beat one side of mould through beating the hammer, make the cast piece fall down, lead to beating effect relatively poor, when the cast piece on the mould drops simultaneously, directly drop to the conveyer of workstation right-hand member, because cast piece directly drops impact force great, the cast piece probably can lead to the conveyer to damage.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides hot-melting casting equipment for processing an aluminum zinc silicon coating material.

The technical scheme adopted for solving the technical problems is as follows: a hot melt casting apparatus for processing an aluminum zinc silicon coating material, comprising:

a work table;

the feeding hopper is arranged on the workbench;

the structure is beaten to being equipped with on the workstation and beats the structure, it includes the slide bar to beat the structure, sliding connection has two slide bars on the workstation, fixedly connected with is used for beating the rubber hammer of mould on the slide bar, fixedly connected with guide bar on the workstation, sliding connection between slide bar and the guide bar, two rotate on the slide bar and be connected with the gyro wheel, rotate on the workstation and be connected with the spliced pole, fixedly connected with two first cams on the spliced pole, rolling fit between first cam and the gyro wheel.

Specifically, fixedly connected with second reset spring between slide bar and the guide bar, install the motor on the workstation, fixedly connected between spliced pole and the output shaft of motor.

Specifically, be equipped with shock-absorbing structure on the workstation, shock-absorbing structure includes the installing frame, it is connected with the installing frame to rotate on the workstation, fixedly connected with pivot on the installing frame, rotate between pivot and the workstation and be connected, sliding connection has the shock attenuation board on the installing frame.

Specifically, the workbench is rotationally connected with a transmission shaft, a first belt pulley is fixed on the transmission shaft, a second cam is fixedly connected on the transmission shaft, the second cam is in collision with the mounting frame, a second belt pulley is fixedly connected on the connecting column, and transmission is carried out between the first belt pulley and the second belt pulley through a belt.

Specifically, a fourth reset spring is fixedly connected between the damping plate and the mounting frame, and a torsion spring is fixedly connected between the rotating shaft and the workbench.

Specifically, be equipped with on the workstation and strike off the structure, strike off the structure and include first hydraulic stem, install first hydraulic stem on the workstation, the flexible end fixedly connected with mounting panel of first hydraulic stem, install the second hydraulic stem on the mounting panel, the flexible end fixedly connected with connecting rod of second hydraulic stem, fixedly connected with strikes off the board on the connecting rod, detachable connection has the baffle on the workstation.

Specifically, be equipped with mounting structure on the workstation, mounting structure includes the installation strip, sliding connection has the installation strip on the workstation, block between installation strip and the baffle.

Specifically, fixedly connected with dead lever on the installation strip, sliding connection between dead lever and the workstation, fixedly connected with pull rod on the dead lever, fixedly connected with third reset spring between installation strip and the workstation.

Specifically, be equipped with the collection structure on the workstation, the collection structure is including collecting the frame, can dismantle on the workstation and be connected with the collection frame, fixedly connected with adapter sleeve on the collection frame, sliding connection has the gag lever post on the workstation, block between gag lever post and the adapter sleeve.

Specifically, the pull block is rotationally connected to the limiting rod, the pull block is in sliding connection with the workbench, a first reset spring is fixedly connected between the limiting rod and the workbench, and a stop block is fixedly connected to the workbench.

The beneficial effects of the invention are as follows:

(1) According to the hot melting casting equipment for processing the aluminum zinc silicon coating material, the knocking structure is arranged on the workbench and can knock two sides of the die, so that the casting block can fall off from the die better.

(2) According to the hot melting casting equipment for processing the aluminum zinc silicon coating material, the damping structure is arranged on the workbench, the damping structure is convenient for damping the dropped casting blocks, the casting blocks are prevented from directly dropping on the conveyor and damaging the conveyor, the service life of the conveyor is prolonged, the damping structure is continuously vibrated when the knocking structure is knocked, the casting blocks can be conveniently dropped from the damping structure, and the flexibility is improved.

(3) According to the hot melting casting equipment for processing the aluminum zinc silicon coating material, the scraping structure is arranged on the workbench, and can automatically scrape the scum on the surface of the hot melting material in the feeding hopper, so that the scum is prevented from flowing into the die, the operation flexibility is improved, and the product quality of a casting block is improved.

(4) According to the hot melting casting equipment for processing the aluminum zinc silicon coating material, the collecting structure is arranged on the workbench and is convenient for collecting scum scraped by the scraping structure.

(5) According to the hot melting casting equipment for processing the aluminum zinc silicon coating material, the mounting structure is arranged on the workbench, so that the baffle plate can be conveniently and rapidly detached from the workbench to clean the scraping assembly in the scraping structure, and the using effect of the scraping assembly is improved.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of the present invention;

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

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

FIG. 4 is an enlarged schematic view of the structure of the portion C shown in FIG. 3;

FIG. 5 is an enlarged schematic view of the structure of the portion D shown in FIG. 3;

FIG. 6 is a schematic view of a connection structure between a baffle and a table according to the present invention;

FIG. 7 is a schematic view of a connection structure between a collecting frame and a workbench according to the invention;

FIG. 8 is a schematic view of the connection structure between the slide bar and the table according to the present invention;

FIG. 9 is an enlarged schematic view of the E-section structure shown in FIG. 8;

fig. 10 is an enlarged schematic view of the F-section structure shown in fig. 8;

FIG. 11 is a schematic view of the connection structure of the second pulley and the table of the present invention;

fig. 12 is an enlarged schematic view of the G portion structure shown in fig. 11.

In the figure: 1. a work table; 2. a hopper; 3. a scraping structure; 301. a first hydraulic lever; 302. a mounting plate; 303. a second hydraulic lever; 304. a connecting rod; 305. a scraping plate; 306. a baffle; 4. a collection structure; 401. a collection frame; 402. connecting sleeves; 403. a limit rod; 404. a first return spring; 405. pulling blocks; 406. a stop block; 5. knocking the structure; 501. a slide bar; 502. a rubber hammer; 503. a guide rod; 504. a second return spring; 505. a roller; 506. a first cam; 507. a connecting column; 508. a motor; 6. a mounting structure; 601. a mounting bar; 602. a third return spring; 603. a fixed rod; 604. a pull rod; 7. a shock absorbing structure; 701. a mounting frame; 702. a shock absorbing plate; 703. a fourth return spring; 704. a rotating shaft; 705. a torsion spring; 706. a second cam; 707. a first pulley; 708. a second pulley; 709. and a transmission shaft.

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 12, a hot-melt casting device for processing an aluminum zinc silicon coating material according to the present invention includes a workbench 1; a feeding hopper 2, wherein the feeding hopper 2 is arranged on the workbench 1; the knocking structure 5 is arranged on the workbench 1, the knocking structure 5 comprises a sliding rod 501, two sliding rods 501 are connected to the workbench 1 in a sliding mode, a rubber hammer 502 for knocking a die is fixedly connected to the sliding rod 501, a guide rod 503 is fixedly connected to the workbench 1, the sliding rod 501 and the guide rod 503 are connected in a sliding mode, two rollers 505 are connected to the sliding rod 501 in a rotating mode, connecting columns 507 are connected to the workbench 1 in a rotating mode, two first cams 506 are connected to the connecting columns 507 in a sliding mode, and the first cams 506 are matched with the rollers 505 in a rolling mode.

Specifically, fixedly connected with second reset spring 504 between slide bar 501 and the guide bar 503, install motor 508 on the workstation 1, fixed connection between spliced pole 507 and the output shaft of motor 508, the casting piece that drops can drop on shock attenuation board 702 simultaneously, when the casting piece falls on shock attenuation board 702, take place to slide between shock attenuation board 702 and the mounting frame 701, simultaneously fourth reset spring 703 takes place deformation, and spliced pole 507 can drive second belt pulley 708 and rotate when rotating, can drive first belt pulley 707 through the belt when second belt pulley 708 rotates, first belt pulley 707 drives the transmission shaft 709 and rotates, transmission shaft 709 drives second cam 706 and rotates, contradict mounting frame 701 when second cam 706 rotates, make mounting frame 701 drive pivot 704 and workstation 1 rotate, torsional spring 705 takes place deformation when pivot 704 is rotated and is contacted with mounting frame 701, torsional spring 705 resets, torsional spring 705 drives pivot 704 anticlockwise rotation, when having the sweeps between mounting frame and the workstation 1, friction force increases, make mounting frame 701 move, and second belt pulley 709 drives second cam 706 and can not drive second cam 706 and rotate, second cam 706 is rotated, second cam 706 is contradicted to the mounting frame 701 when rotating, thereby can not drop on the mounting frame 701, thereby the fan-shaped block is rotated, and the vibration damper is avoided dropping on the fan-shaped block is rotated, thereby can not be broken, and the vibration damper is changed, can directly to the frame is rotated, and the vibration damper is changed, can be moved, and can be broken, and can be moved and the vibration damper is changed, can be moved, and can be moved down by the vibration damper has been moved off.

Specifically, the workbench 1 is provided with a shock absorption structure 7, the shock absorption structure 7 comprises a mounting frame 701, the workbench 1 is rotationally connected with the mounting frame 701, the mounting frame 701 is fixedly connected with a rotating shaft 704, the rotating shaft 704 is rotationally connected with the workbench 1, the mounting frame 701 is slidingly connected with a shock absorption plate 702, the workbench 1 is rotationally connected with a transmission shaft 709, a first belt pulley 707 is fixed on the transmission shaft 709, a second cam 706 is fixedly connected with the transmission shaft 709, the second cam 706 is abutted against the mounting frame 701, a second belt pulley 708 is fixedly connected with the connecting column 507, the first belt pulley and the second belt pulley 708 are in transmission through a belt, a fourth reset spring 703 is fixedly connected between the shock absorption plate 702 and the mounting frame 701, a torsion spring 705 is fixedly connected between the rotating shaft 704 and the workbench 1, meanwhile, the falling casting block can fall onto the shock absorbing plate 702, when the casting block falls onto the shock absorbing plate 702, the shock absorbing plate 702 can slide between the mounting frame 701, meanwhile, the fourth reset spring 703 deforms, the connecting post 507 can drive the second belt pulley 708 to rotate when rotating, the second belt pulley 708 can drive the first belt pulley 707 to rotate through a belt, the first belt pulley 707 drives the transmission shaft 709 to rotate, the transmission shaft 709 drives the second cam 706 to rotate, the second cam 706 contacts the mounting frame 701 when rotating, the mounting frame 701 drives the rotating shaft 704 to rotate with the workbench 1, the torsion spring 705 deforms when the rotating shaft 704 rotates (when the edge with smaller distance of the second cam 706 contacts the mounting frame 701, the torsion spring 705 resets, the torsion spring 705 drives the rotating shaft 704 to rotate anticlockwise, so that friction force is increased when sweeps exist between the mounting frame 701 and the workbench 1, make the unable anticlockwise fan-shaped motion of installing frame 701), and the second cam 706 makes the installing frame 701 shake constantly, make the casting piece on the shock attenuation board 702 drop to the conveyer that can be better, thereby through the shock attenuation board 702 through fourth reset spring 703 cooperation installing frame 701 to the casting piece that drops shock attenuation, avoided the casting piece directly to drop on the conveyer and caused the damage to the conveyer, improved the life of conveyer, and drive the second cam 706 to rotate when rotating through the spliced pole 507, make the installing frame 701 shake constantly, can make the casting piece better drop from the shock attenuation board 702, the flexibility has been improved.

Specifically, the workbench 1 is provided with a scraping structure 3, the scraping structure 3 comprises a first hydraulic rod 301, the workbench 1 is provided with the first hydraulic rod 301, the telescopic end of the first hydraulic rod 301 is fixedly connected with a mounting plate 302, the mounting plate 302 is provided with a second hydraulic rod 303, the telescopic end of the second hydraulic rod 303 is fixedly connected with a connecting rod 304, the connecting rod 304 is fixedly connected with a scraping plate 305, the workbench 1 is detachably connected with a baffle 306, firstly, hot-melt materials can flow into the left part of the feed hopper 2 from a melting furnace, when the hot-melt materials are accumulated at the left part of the feed hopper 2 and scum on the surface of the hot-melt materials is required to be scraped, the second hydraulic rod 303 can drive the connecting rod 304 to move downwards through the telescopic end shrinkage of the second hydraulic rod 303, the connecting rod 304 moves downwards to drive the scraping plate 305 to move downwards, when the scraping plate 305 moves to a certain position, by starting the first hydraulic rod 301, when the telescopic end of the first hydraulic rod 301 stretches, the mounting plate 302 is driven to move rightwards, when the mounting plate 302 moves rightwards, the first hydraulic rod 301 drives the scraping plate 305 to move rightwards, the scraping plate 305 scrapes the scum on the surface of the hot-melt material in the feeding hopper 2, when the scraping plate 305 moves to a certain position, the second hydraulic rod 303 stretches, then the connecting rod 304 is positioned at the left side of the baffle 306, at the moment, the first hydraulic rod 301 contracts, the scraping plate 305 is matched with the baffle 306 to be used, the scum scraped on the scraping plate 305 falls off, thereby automatically scraping the scum on the surface of the hot-melt material in the feeding hopper 2 through the matching of the scraping plate 305 with the baffle 306, avoiding the scum flowing into a die, improving the operation flexibility, and improves the product quality of the cast block.

Specifically, be equipped with mounting structure 6 on workstation 1, mounting structure 6 includes mounting bar 601, sliding connection has mounting bar 601 on the workstation 1, the block between mounting bar 601 and the baffle 306, fixedly connected with dead lever 603 on the mounting bar 601, sliding connection between dead lever 603 and the workstation 1, fixedly connected with pull rod 604 on the dead lever 603, fixedly connected with third reset spring 602 between mounting bar 601 and the workstation 1, after casting processing is accomplished, accessible pulling pull rod 604, and the pull rod 604 drives mounting bar 601 through dead lever 603 when sliding rightwards, and the third reset spring 602 contracts when mounting bar 601 slides rightwards, and simultaneously the block between mounting bar 601 and the baffle 306 no longer can dismantle the baffle 306 from workstation 1 to clear up the dross on the baffle 306, through the block between mounting bar 601 and the baffle 306, be convenient for dismantle the baffle 306 from workstation 1 down and clear up the baffle 306, improved the result of use of baffle 306.

Specifically, be equipped with on the workstation 1 and collect structure 4, collect structure 4 includes collects frame 401, can dismantle on the workstation 1 and be connected with collects frame 401, fixedly connected with adapter sleeve 402 on collecting frame 401, sliding connection has gag lever post 403 on the workstation 1, block between gag lever post 403 and the adapter sleeve 402, rotatable pull block 405 is connected with on the gag lever post 403, sliding connection between pull block 405 and the workstation 1, fixedly connected with first reset spring 404 between gag lever post 403 and the workstation 1, fixedly connected with dog 406 on the workstation 1, the dross of striking off can drop to collect in the frame 401, when need dismantle collect frame 401 from workstation 1 go on, and accessible pull block 405 pulls gag lever post 403, and first reset spring 404 shrink when gag lever post 403 moves left, simultaneously the block between the adapter sleeve 402 on the limit lever 403 no longer and collect frame 401, rotatable pull block 405 makes between pull block 405 and the dog 406 contradict, can dismantle the frame 401 from workstation 1 down, can carry out the frame 401 to collect to the assigned position through the cooperation between the frame 401 and collect frame 401, thereby collect the convenience is carried out to the frame 401 through the fixed position, and the frame is convenient for collect frame 401.

When the invention is used, firstly, the hot-melt material flows into the left part of the feed hopper 2 from the melting furnace, when the hot-melt material is accumulated at the left part of the feed hopper 2 and the scum on the surface of the hot-melt material is required to be scraped, the second hydraulic rod 303 contracts through the telescopic end of the second hydraulic rod 303, the second hydraulic rod 303 drives the connecting rod 304 to move downwards, the connecting rod 304 moves downwards to drive the scraping plate 305 to move downwards, when the scraping plate 305 moves to a certain position, the first hydraulic rod 301 is started, the telescopic end of the first hydraulic rod 301 stretches to drive the mounting plate 302 to move rightwards, the mounting plate 302 moves rightwards to drive the first hydraulic rod 301 to move rightwards, the first hydraulic rod 301 drives the scraping plate 305 to move rightwards, the scraping plate 305 scrapes the scum on the surface of the hot-melt material in the feeding hopper 2, when the scum moves to a certain position, the second hydraulic rod 303 is extended, then the connecting rod 304 is positioned on the left side of the baffle 306, at the moment, the first hydraulic rod 301 is contracted, the scraping plate 305 is matched with the baffle 306 to be used, the scum scraped on the scraping plate 305 falls off, and accordingly the scum on the surface of the hot-melt material in the feeding hopper 2 is automatically scraped through the matching of the scraping plate 305 with the baffle 306, the scum is prevented from flowing into a die, the operation flexibility is improved, and the product quality of a casting block is improved.

When the scraped scum is required to be detached from the workbench 1 and carried out in the collecting frame 401, the limiting rod 403 is pulled by the pull block 405, the first reset spring 404 is contracted when the limiting rod 403 moves leftwards, meanwhile, the limiting rod 403 is not clamped with the connecting sleeve 402 on the collecting frame 401, the pull block 405 can be rotated at the moment, the pull block 405 is abutted against the stop block 406, the collecting frame 401 can be detached from the workbench 1, the collecting frame 401 can be carried to a designated position for processing the scum, so that the scraped scum is conveniently collected through the collecting frame 401, and the collecting frame 401 and the workbench 1 are conveniently fixed through the cooperation between the limiting rod 403 and the connecting sleeve 402, and the stability is improved;

when the die moves to the rightmost end of the workbench 1, the motor 508 can be started, the output shaft of the motor 508 can drive the connecting column 507 to rotate when rotating, the connecting column 507 drives the two first cams 506 to rotate when rotating, the rollers 505 and the first cams 506 are in rolling fit when the first cams 506 rotate, when the two first cams 506 rotate to a certain position, the two slide bars 501 can slide leftwards on the guide bars 503 under the action of the second return springs 504, and the slide bars 501 drive the rubber hammers 502 to strike the two ends of the die when sliding leftwards so that casting blocks on the die fall off, and the slide bars 501 drive the two rubber hammers 502 to strike the two sides of the die so that the casting blocks can fall off from the die better;

meanwhile, the dropped casting block can drop onto the shock absorbing plate 702, when the casting block drops onto the shock absorbing plate 702, the shock absorbing plate 702 can slide between the shock absorbing plate 702 and the mounting frame 701, meanwhile, the fourth reset spring 703 deforms, the connecting column 507 can drive the second belt pulley 708 to rotate, the second belt pulley 708 can drive the first belt pulley 707 to rotate through a belt when rotating, the first belt pulley 707 drives the transmission shaft 709 to rotate, the transmission shaft 709 drives the second cam 706 to rotate, the second cam 706 is abutted against the mounting frame 701 when rotating, the mounting frame 701 drives the rotating shaft 704 to rotate with the workbench 1, the torsion spring 705 deforms when the rotating shaft 704 rotates (when the edge of the second cam 706 with a smaller distance is contacted with the mounting frame 701, the torsion spring 705 resets, the torsion spring 705 drives the rotating shaft 704 to rotate anticlockwise, and effectively prevents the mounting frame 701 from rotating anticlockwise, and prevents the mounting frame 701 from rotating anticlockwise in a fan shape, the casting block on the shock absorbing plate 702 can better drop onto the conveyor through the fourth reset spring 706, the casting block on the shock absorbing plate 702 can be matched with the mounting frame, the vibration absorbing plate 702 can be prevented from being damaged when the rotating, the vibration is prevented from being directly connected with the mounting frame 701, and the vibration absorbing plate is prevented from being damaged by the rotating the vibration block, and the vibration is prevented from being directly dropping onto the conveyor frame;

after casting processing is accomplished, accessible pulling pull rod 604, pull rod 604 drives installation strip 601 through dead lever 603 when sliding to the right and slides to the right, and third reset spring 602 contracts when installation strip 601 slides to the right, and installation strip 601 no longer and baffle 306 between the block, can dismantle baffle 306 from workstation 1, clear up the dross on the baffle 306 to through the block between installation strip 601 and the baffle 306, be convenient for dismantle baffle 306 from workstation 1 fast and clear up the baffle 306, improved the result of use of baffle 306.

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 (10)

1. A hot melt casting apparatus for processing an aluminum zinc silicon coating material, comprising:

a work table (1);

the feeding hopper (2) is arranged on the workbench (1);

knocking structure (5), be equipped with on workstation (1) and beat structure (5), knocking structure (5) include slide bar (501), sliding connection has two slide bars (501) on workstation (1), fixedly connected with is used for beating rubber hammer (502) of mould on slide bar (501), fixedly connected with guide bar (503) on workstation (1), sliding connection between slide bar (501) and guide bar (503), two rotate on slide bar (501) and be connected with gyro wheel (505), rotate on workstation (1) and be connected with spliced pole (507), fixedly connected with two first cams (506) on spliced pole (507), roll cooperation between first cam (506) and gyro wheel (505).

2. A hot melt casting apparatus for processing an aluminum zinc silicon plating material according to claim 1, characterized in that: a second reset spring (504) is fixedly connected between the sliding rod (501) and the guide rod (503), a motor (508) is installed on the workbench (1), and the connecting column (507) is fixedly connected with an output shaft of the motor (508).

3. A hot melt casting apparatus for processing an aluminum zinc silicon plating material according to claim 1, characterized in that: be equipped with shock-absorbing structure (7) on workstation (1), shock-absorbing structure (7) are including installing frame (701), rotate on workstation (1) and be connected with installing frame (701), fixedly connected with pivot (704) on installing frame (701), rotate between pivot (704) and workstation (1) and be connected, sliding connection has shock attenuation board (702) on installing frame (701).

4. A hot melt casting apparatus for processing an aluminum zinc silicon plating material according to claim 3, wherein: the workbench (1) is rotationally connected with a transmission shaft (709), a first belt pulley (707) is fixed on the transmission shaft (709), a second cam (706) is fixedly connected on the transmission shaft (709), the second cam (706) is in conflict with the mounting frame (701), a second belt pulley (708) is fixedly connected on the connecting column (507), and transmission is carried out between the first belt pulley (707) and the second belt pulley (708) through a belt.

5. The hot-melt casting apparatus for processing an aluminum-zinc-silicon plating material according to claim 4, wherein: a fourth reset spring (703) is fixedly connected between the damping plate (702) and the mounting frame (701), and a torsion spring (705) is fixedly connected between the rotating shaft (704) and the workbench (1).

6. A hot melt casting apparatus for processing an aluminum zinc silicon plating material according to claim 1, characterized in that: be equipped with on workstation (1) and strike off structure (3), strike off structure (3) including first hydraulic stem (301), install first hydraulic stem (301) on workstation (1), the flexible end fixedly connected with mounting panel (302) of first hydraulic stem (301), install second hydraulic stem (303) on mounting panel (302), the flexible end fixedly connected with connecting rod (304) of second hydraulic stem (303), fixedly connected with strike off board (305) on connecting rod (304), detachable connection has baffle (306) on workstation (1).

7. The hot-melt casting apparatus for processing an aluminum-zinc-silicon plating material according to claim 6, wherein: the workbench (1) is provided with a mounting structure (6), the mounting structure (6) comprises a mounting strip (601), the workbench (1) is connected with the mounting strip (601) in a sliding mode, and the mounting strip (601) is clamped with the baffle (306).

8. The hot-melt casting apparatus for processing an aluminum-zinc-silicon plating material according to claim 7, wherein: fixedly connected with dead lever (603) on installing strip (601), sliding connection between dead lever (603) and workstation (1), fixedly connected with pull rod (604) on dead lever (603), fixedly connected with third reset spring (602) between installing strip (601) and workstation (1).

9. A hot melt casting apparatus for processing an aluminum zinc silicon plating material according to claim 1, characterized in that: be equipped with on workstation (1) and collect structure (4), collect structure (4) including collecting frame (401), can dismantle on workstation (1) and be connected with collecting frame (401), fixedly connected with adapter sleeve (402) on collecting frame (401), sliding connection has gag lever post (403) on workstation (1), block between gag lever post (403) and adapter sleeve (402).

10. A hot melt casting apparatus for processing an aluminum zinc silicon plating material according to claim 9, wherein: the limiting rod (403) is rotationally connected with a pull block (405), the pull block (405) is in sliding connection with the workbench (1), a first reset spring (404) is fixedly connected between the limiting rod (403) and the workbench (1), and a stop block (406) is fixedly connected to the workbench (1).