阅读说明：本技术 一种工业废盐资源化处理装置及使用方法 (Industrial waste salt recycling treatment device and use method ) 是由 吴军伟 陶懿玲 于 2021-07-05 设计创作，主要内容包括：本发明公开了一种工业废盐资源化处理装置及使用方法,属于废盐处理技术领域,一种工业废盐资源化处理装置,包括底座,所述底座的上方设置有安装板,且安装板的表面设置有焚烧炉,所述安装板的顶部设置有液压杆,且液压杆的输出端设置有第一滑板,所述第一滑板的表面滑动连接有受力板,且受力板的底部设置有升降板,所述升降板表面滑动连接有推板,该工业废盐资源化处理装置及使用方法,具有很强实用性,在使用时,能够将需要处理的废盐自动运输进焚烧炉内部,处理完毕后,能够通过转运机构与调节机构相配合,对废盐结晶进行转移,大大节省了人工操作的时间,提高了加工效率。(The invention discloses a recycling treatment device and a using method for industrial waste salt, belonging to the technical field of waste salt treatment, the recycling treatment device for the industrial waste salt comprises a base, wherein a mounting plate is arranged above the base, an incinerator is arranged on the surface of the mounting plate, a hydraulic rod is arranged at the top of the mounting plate, a first sliding plate is arranged at the output end of the hydraulic rod, the surface of the first sliding plate is connected with a stress plate in a sliding manner, a lifting plate is arranged at the bottom of the stress plate, and the surface of the lifting plate is connected with a pushing plate in a sliding manner, the recycling treatment device for the industrial waste salt and the using method have strong practicability, when in use, the waste salt to be treated can be automatically transported into the incinerator, after treatment is finished, the crystal of the waste salt can be transferred through the matching of a transport mechanism and an adjusting mechanism, so that the time of manual operation is greatly saved, the processing efficiency is improved.)

1. The utility model provides an industrial waste salt resourceful treatment device, includes base (1), its characterized in that: the incinerator is characterized in that a mounting plate (2) is arranged above the base (1), the surface of the mounting plate (2) is provided with an incinerator (3), the top of the mounting plate (2) is provided with a hydraulic rod (5), the output end of the hydraulic rod (5) is provided with a first sliding plate (4), the surface of the first sliding plate (4) is connected with a stress plate (6) in a sliding manner, the bottom of the stress plate (6) is provided with a lifting plate (7), the surface of the lifting plate (7) is connected with a push plate (8) in a sliding manner, the side surface of the push plate (8) is fixedly connected with a movable plate (9), the side surface of the incinerator (3) is provided with a connecting plate (10), the surface of the connecting plate (10) is fixedly connected with a limiting block (11), the top of the limiting block (11) is attached with a bin (12) rotatably connected with the movable plate (9), and the tail of the movable plate (9) is rotatably connected with a gear (13), the bottom of the gear (13) is engaged with a transmission plate (14), the surface of the transmission plate (14) is rotatably connected with a movable plate (15), and the side surface of the movable plate (15) is provided with a stop block (18) fixedly connected with the transmission plate (14), the tail part of the movable plate (15) is rotatably connected with an opening and closing door (16), the surface of the base (1) is provided with an isolation frame (17), and the inside of the isolation frame (17) is rotationally connected with a storage plate (20), the surface of the storage plate (20) is connected with a clapboard (19) in a sliding way, a second bump (24) is arranged on the surface of the clapboard (19), an adjusting mechanism (21) is arranged on the surface of the base (1), a transfer mechanism (22) is arranged at one end of the isolation frame (17), and the one end of transporting mechanism (22) is provided with transports storehouse (25), the surface of isolation frame (17) is provided with first lug (23) with the laminating of second lug (24).

2. The industrial waste salt recycling treatment device according to claim 1, wherein: the surface of first slide (4) is provided with the spout that is isosceles triangle shape, lifter plate (7) run through in mounting panel (2) surface protruding position and rather than sliding connection, and lifter plate (7) constitute horizontal lift structure through atress board (6).

3. The industrial waste salt recycling treatment device according to claim 1, wherein: the limiting block (11) is L-shaped, the movable plate (15) and the stop block (18) are mutually attached, and the movable plate (15) drives the opening and closing door (16) through the transmission plate (14) to form an opening and closing structure.

4. The industrial waste salt recycling treatment device according to claim 1, wherein: the contact surface of first lug (23) and second lug (24) is the inclined plane each other, and second lug (24) and baffle (19) are mutually perpendicular, the surface of storing board (20) is provided with the sawtooth, transport storehouse (25) surface is provided with spacing frame.

5. The industrial waste salt recycling treatment device according to claim 1, wherein: the adjusting mechanism (21) comprises a first rotating plate (2101), an embedding rod (2102), a rotating disc (2103), a transmission block (2104) and an inclined block (2105), the first rotating plate (2101) is arranged above the base (1), the side face of the first rotating plate (2101) is rotatably connected with the embedding rod (2102), the rotating disc (2103) is rotatably arranged on the side face of the first rotating plate (2101) above the base (1), the transmission block (2104) is arranged on the surface of the rotating disc (2103), and the inclined block (2105) is fixedly connected to the side face of the storage plate (20).

6. The industrial waste salt recycling treatment device according to claim 5, wherein: the surface of the rotating disc (2103) is provided with a slide way which is linearly arranged and has the same length as the diameter of the slide way, the joint of the embedding rod (2102) and the first rotating plate (2101) is close to the end point of the first rotating plate (2101), and the first rotating plate (2101) drives the rotating disc (2103) through the embedding rod (2102) to form a rotating structure.

7. The industrial waste salt recycling treatment device according to claim 5, wherein: the transmission block (2104) is arranged in a mode of deviating from the circle center of the rotating disk (2103), the transmission block (2104) is embedded into the linear sliding groove in the surface of the inclined block (2105) and is in sliding connection with the linear sliding groove, and the inclined block (2105) drives the storage plate (20) through the transmission block (2104) to form a turnover structure.

8. The industrial waste salt recycling treatment device according to claim 1, wherein: the transfer mechanism (22) comprises a transmission disc (2201), a second rotating plate (2202), a second sliding plate (2203), a stress block (2204) and a shifting lever (2205), the transmission disc (2201) is arranged above the base (1), the second rotating plate (2202) is arranged at the top of the transmission disc (2201), the second sliding plate (2203) is arranged on the surface of the base (1), the stress block (2204) is fixedly connected to the side surface of the second sliding plate (2203), and the shifting lever (2205) is arranged at the top of the stress block (2204).

9. The industrial waste salt recycling treatment device according to claim 8, wherein: the force bearing block (2204) is embedded into the surface limiting frame of the transfer bin (25) and is in sliding connection with the surface limiting frame, the driving lever (2205) is in sawtooth contact with the surface of the storage plate (20), and the diameter of the driving lever (2205) is matched with the sawtooth clearance.

10. The use method of the industrial waste salt recycling device according to claim 1, comprising the following steps:

s1, when the device is used, firstly, preparing operation is carried out for feeding, industrial waste salt to be treated is placed on a bin (12), then a hydraulic rod (5) is controlled to drive a first sliding plate (4) to slide on the top of a mounting plate (2), a stress plate (6) is embedded in an isosceles triangle sliding groove on the surface of the first sliding plate (4), so the stress plate (6) can move downwards through the sliding of the first sliding plate (4), and because a lifting plate (7) fixedly connected with the stress plate (6) is embedded in a sliding groove arranged on the inclined surface of the pushing plate (8), the pushing plate (8) can slide towards an engaging plate (10) along with the descending of the lifting plate (7), because the bin (12) is placed on an L-shaped limiting block (11), the bin (12) can gradually separate from the convex part of the limiting block (11) while the moving plate (9) drives the bin (12) to slide through the pushing plate (8), when the material bin contacts with the sunken part of the limiting block (11), the material bin (12) inclines towards one side of the incinerator (3) to prepare for feeding;

s2, then, transporting the industrial waste salt to be treated into an incinerator (3), driving a gear (13) to slide when a moving plate (9) slides through a push plate (8), wherein the gear (13) is meshed with a driving plate (14), so that the driving plate (14) can slide in the direction opposite to that of the moving plate (9) through the gear (13), and then the driving plate (14) can pull a movable plate (15) through sliding, so that the movable plate (15) pulls an opening and closing door (16) to form an opening state, the bin (12) in the inclined state pours the industrial waste salt into the incinerator (3), then the incinerator (3) incinerates the industrial waste salt, and the industrial salt flows into a storage plate (20) after being incinerated and melted;

s3, transferring the cooled waste salt solution into a transferring bin (25), controlling the first rotating plate (2101) to rotate through a motor, driving the embedding rod (2102) to rotate through the first rotating plate (2101), embedding the embedding rod (2102) into a chute linearly arranged by the rotating disc (2103), sliding the embedding rod (2102) in the chute along with the rotation of the first rotating plate (2101) and driving the rotating disc (2103) to rotate, when the rotating disc (2103) rotates clockwise, driving the driving block (2104) to deviate from the circle center of the rotating disc (2103), driving the inclined block (2105) to incline through the rotation of the rotating disc (2103), driving the inclined block (2105) to incline with the storage plate (20) fixed by the driving block (2104), and when the partition plate (19) turns over along with the storage plate (20) because the first lug (23) contacts with the second lug (24), the second lug (24) slides upwards in the storage plate (20) under the resistance of the first lug (23), and then a gap exists between the storage plate (20) and the partition plate (19);

s4, finally, the waste salt crystal is transferred, the transmission disc 2201 is controlled to rotate, because the embedding rod (2102) is embedded in the second sliding plate (2203), therefore, the embedded rod (2102) can drive the second sliding plate (2203) to slide on the surface of the base (1) when rotating, the shifting rod (2205) and the stress block (2204) can slide along with the sliding of the second sliding plate (2203), and then the shifting rod (2205) can drive the storage plate (20) to shake through sawteeth on the surface of the storage plate (20) so as to shake the waste salt crystals in the storage plate to fall into the transfer bin 25, because the limiting frame arranged on the surface of the transferring bin (25) is consistent with the length of the saw teeth on the surface of the storage plate (20), when the shift lever (2205) is disengaged from the saw teeth, the force-bearing block (2204) will contact with the rightmost side of the limiting frame on the transferring bin (25), and the transfer bin (25) is pushed to the right side by a stress block (2204) to transfer the waste salt crystals.

Technical Field

The invention relates to the technical field of industrial waste salt treatment, in particular to a recycling treatment device for industrial waste salt and a using method thereof.

Background

The industrial waste salt refers to various waste residues, dust and other wastes discharged in the industrial production process. In the process of producing organic and inorganic chemical products, production enterprises in the industrial field generate a large amount of dangerous wastes with high salt content, and the traditional dangerous waste incineration process cannot be directly treated due to the characteristics of easy coking and incombustibility. Meanwhile, the hazardous waste often has high water solubility, does not meet the standard of a landfill site, and often has the phenomenon that waste salt in a large-scale industrial park cannot be buried.

However, when a lot of waste salt treatment equipment are used, self-feeding and feeding cannot be realized, and the treated industrial waste salt cannot be automatically transferred, so that the practical performance of the equipment is greatly reduced, and the industrial waste salt recycling treatment device and the use method are provided for the end door.

Disclosure of Invention

The invention aims to solve the problems that self feeding and feeding cannot be realized and treated industrial waste salt cannot be automatically transported when a plurality of waste salt treatment devices in the prior art are used, and provides a recycling treatment device and a use method for the industrial waste salt.

In order to achieve the purpose, the invention adopts the following technical scheme:

a recycling treatment device for industrial waste salt comprises a base, wherein a mounting plate is arranged above the base, an incinerator is arranged on the surface of the mounting plate, a hydraulic rod is arranged at the top of the mounting plate, a first sliding plate is arranged at the output end of the hydraulic rod, a stress plate is connected to the surface of the first sliding plate in a sliding manner, a lifting plate is arranged at the bottom of the stress plate, a push plate is connected to the surface of the lifting plate in a sliding manner, a movable plate is fixedly connected to the side surface of the push plate, a connecting plate is arranged on the side surface of the incinerator, a limiting block is fixedly connected to the surface of the connecting plate, a bin rotationally connected with the movable plate is attached to the top of the limiting block, a gear is rotationally connected to the tail of the movable plate, a transmission plate is meshed to the bottom of the gear, a movable plate is rotationally connected with a movable plate, and a stop blocks fixedly connected with the transmission plate are arranged on the side surface of the movable plate, the afterbody swivelling joint of fly leaf has the door that opens and shuts, the surface of base is provided with the isolation frame, and keeps apart the inside swivelling joint of frame and have the storing board, the sliding surface of storing board is connected with the baffle, and the surface of baffle is provided with the second lug, the surface of base is provided with adjustment mechanism, the one end of isolation frame is provided with transport mechanism, and transport mechanism's one end is provided with transports the storehouse, the surface of isolation frame is provided with the first lug with the laminating of second lug.

Preferably, the surface of first slide is provided with the spout that is isosceles triangle shape, the lifter plate runs through in the protruding position of mounting panel surface and rather than sliding connection, and the lifter plate constitutes horizontal elevation structure through the atress board.

Preferably, the limiting block is L-shaped, the movable plate and the stop block are mutually attached, and the movable plate drives the opening and closing door through the transmission plate to form an opening and closing structure.

Preferably, the contact surface of first lug and second lug is the inclined plane each other, and the second lug is mutually perpendicular with the baffle, the surface of storing board is provided with the sawtooth, it is provided with spacing frame to transport the storehouse surface.

Preferably, adjustment mechanism includes first rotor plate, embedding pole, rotary disk, transmission piece and slope piece, first rotor plate sets up in the top of base, and the side swivelling joint of first rotor plate has the embedding pole, the rotary disk is rotatory to be set up in the side of the first rotor plate of top of base, and the surface of rotary disk is provided with the transmission piece, slope piece fixed connection is in the side of storing board.

Preferably, the surface of the rotating disk is provided with a slideway which is linearly arranged and has the same length as the diameter of the rotating disk, the joint of the embedding rod and the first rotating plate is close to the end point of the first rotating plate, and the first rotating plate drives the rotating disk to form a rotating structure through the embedding rod.

Preferably, the transmission block is arranged in a manner of deviating from the circle center of the rotating disk, the transmission block is embedded into the linear sliding groove in the surface of the inclined block and is in sliding connection with the linear sliding groove, and the inclined block drives the storage plate to form a turnover structure through the transmission block.

Preferably, the transfer mechanism includes driving disc, second rotor plate, second slide, atress piece and driving lever, the driving disc sets up in the top of base, and the top of driving disc is provided with the second rotor plate, the second slide sets up in the surface of base, and the side fixedly connected with atress piece of second slide, the top of atress piece is provided with the driving lever.

Preferably, the atress piece embedding is gone into to transport the storehouse surface limit frame inside and rather than sliding connection, the driving lever contacts with storing board surface sawtooth, and the diameter and the sawtooth clearance phase-match of driving lever.

The scheme also provides a use method of the industrial waste salt recycling treatment device, which comprises the following steps:

when the device is used, firstly, preparation operation is carried out for feeding, industrial waste salt needing to be processed is placed on the bin, then the control hydraulic rod drives the first sliding plate to slide at the top of the mounting plate, the stress plate is embedded in the isosceles triangle-shaped sliding groove on the surface of the first sliding plate, the stress plate can move downwards through the sliding of the first sliding plate, the lifting plate fixedly connected with the stress plate is embedded in the sliding groove formed in the inclined surface of the pushing plate, the pushing plate can slide towards the connecting plate along with the descending of the lifting plate, the bin is placed on the L-shaped limiting block, the bin can gradually separate from the protruding part of the limiting block while the moving plate drives the bin to slide through the pushing plate, and when the bin is contacted with the recessed part of the limiting block, the bin can incline towards one side of the incinerator and is prepared for feeding.

Then, the industrial waste salt that will need to handle is transported into the incinerator, when the movable plate passes through the push pedal gliding, can drive the gear together and slide, because the gear meshes with the driving plate mutually, so the driving plate can pass through the gear and slide towards the opposite direction with the movable plate, the driving plate can be through sliding and pulling the fly leaf afterwards for the fly leaf pulling shutter door makes its constitution open mode, the feed bin that is in the inclined state this moment can be poured into the incinerator with industrial waste salt, burn industrial waste salt through the incinerator afterwards, the industrial salt burns and melts and can flow into in the storing board.

Then, transport the storehouse in to the waste salt solution that finishes cooling, it is rotatory to control first rotor plate through the motor, first rotor plate can drive the embedding pole rotatory afterwards, because the embedding pole embedding is inside the spout that the rotary disk is the straight line setting, the embedding pole can slide and drive the rotary disk realization rotation in the spout is along with the rotation of first rotor plate, when the rotary disk clockwise rotation, because the transmission piece is skew in the centre of a circle setting of rotary disk, so the transmission piece can drive the slope piece slope through the rotation of rotary disk, the slope piece can drive the storing board slope of fixing with self afterwards, because first lug contacts with the second lug, when the baffle is along with the storing board together upset, the second lug can be under the resistance of first lug and upwards slide in the storing board is inside, there can be the clearance afterwards between storing board and baffle.

Finally, shift the waste salt crystallization, the control driving disc is rotatory, because the embedding pole embedding is inside the second slide, so can drive the second slide at the surface slip of base when the embedding pole is rotatory, the driving lever can slide along with the slip of second slide with the atress piece, the driving lever can drive the storing board through storing board surface sawtooth afterwards and rock inside the waste salt crystallization of self and shake the transportation storehouse inside, because the spacing frame that transports storehouse surface setting is unanimous with the sawtooth length on storing board surface, when the driving lever breaks away from the sawtooth, the atress piece can follow thereupon with transport storehouse on the contact of spacing frame rightmost side, and will transport the storehouse through the atress piece and promote to the right side, shift the waste salt crystallization.

Compared with the prior art, the invention provides a recycling treatment device for industrial waste salt, which has the following beneficial effects:

1. this useless salt resourceful treatment device of industry, through setting up the driving plate, when the movable plate passes through the push pedal gliding, can together drive the gear and slide, because gear and driving plate mesh mutually, so the driving plate can slide towards the direction opposite with the movable plate through the gear, the driving plate can be through sliding and pulling the fly leaf afterwards, make the fly leaf pulling door that opens and shuts, make its constitution open mode, the feed bin that is in the tilt state this moment can empty into the incinerator with the useless salt of industry in, burn the useless salt of industry through burning furnace afterwards, the industry salt burns and melts the back and can flow into in the storing board.

2. This useless salt resourceful treatment device of industry, through setting up adjustment mechanism, inside because the embedding pole embedding is the spout that the straight line set up at the rotary disk, the embedding pole can slide and drive the rotary disk realization rotation in the spout is inside along with the rotation of first rotor plate, the transmission piece can drive the slope piece slope through the rotation of rotary disk, when the baffle overturns along with the storing board together, the second lug can be under the resistance of first lug and upwards slide in the storing board is inside, there is the clearance between storing board and baffle afterwards.

3. This useless salt resourceful treatment device of industry, through setting up transport mechanism, because the embedding pole embedding is inside the second slide, can drive the second slide and slide on the surface of base when the embedding pole is rotatory, because the spacing frame that transports the storehouse surface setting is unanimous with the sawtooth length on storing board surface, when the driving lever breaks away from the sawtooth, the atress piece can thereupon with transport the storehouse on spacing frame rightmost side contact to will transport the storehouse through the atress piece and promote to the right side, shift the useless salt crystallization.

4. This industry waste salt resourceful treatment device has very strong practicality, when using, can advance the waste salt automatic transportation who needs to handle inside the incinerator, handles the back that finishes, can cooperate with adjustment mechanism through transport mechanism, shifts the waste salt crystallization, has saved manual operation's time greatly, has improved machining efficiency.

Drawings

FIG. 1 is a front view of a recycling apparatus for industrial waste salts according to the present invention.

Fig. 2 is a schematic rear view of a recycling device for industrial waste salt according to the present invention.

Fig. 3 is a schematic structural diagram of a movable plate of the recycling device for industrial waste salt provided by the invention.

FIG. 4 is a schematic diagram of a push plate structure of the industrial waste salt recycling device provided by the invention.

FIG. 5 is a schematic view of a driving plate structure of the recycling device for industrial waste salt according to the present invention.

Fig. 6 is a schematic view of a first perspective structure of a transfer mechanism of the industrial waste salt recycling device provided by the invention.

Fig. 7 is a schematic structural diagram of an adjusting mechanism of the industrial waste salt recycling device provided by the invention.

Fig. 8 is a schematic view of a second perspective structure of a transfer mechanism of the industrial waste salt recycling device provided by the invention.

In the figure: 1. a base; 2. mounting a plate; 3. an incinerator; 4. a first slide plate; 5. a hydraulic lever; 6. a stress plate; 7. a lifting plate; 8. pushing the plate; 9. moving the plate; 10. a connector tile; 11. a limiting block; 12. a storage bin; 13. a gear; 14. a drive plate; 15. a movable plate; 16. opening and closing the door; 17. an isolation frame; 18. a stopper; 19. a partition plate; 20. a storage plate; 21. an adjustment mechanism; 2101. a first rotating plate; 2102. an embedded rod; 2103. rotating the disc; 2104. a transmission block; 2105. an inclined block; 22. a transfer mechanism; 2201. a drive plate; 2202. a second rotating plate; 2203. a second slide plate; 2204. a stress block; 2205. a deflector rod; 23. a first bump; 24. a second bump; 25. and (6) a transfer bin.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-8, a resource treatment device for industrial waste salt comprises a base 1, a mounting plate 2 is arranged above the base 1, an incinerator 3 is arranged on the surface of the mounting plate 2, a hydraulic rod 5 is arranged on the top of the mounting plate 2, a first sliding plate 4 is arranged at the output end of the hydraulic rod 5, a stress plate 6 is slidably connected on the surface of the first sliding plate 4, a lifting plate 7 is arranged at the bottom of the stress plate 6, a pushing plate 8 is slidably connected on the surface of the lifting plate 7, a moving plate 9 is fixedly connected on the side surface of the pushing plate 8, a connecting plate 10 is arranged on the side surface of the incinerator 3, a limiting block 11 is fixedly connected on the surface of the connecting plate 10, a bin 12 rotatably connected with the moving plate 9 is attached to the top of the limiting block 11, a gear 13 is rotatably connected to the tail of the pushing plate 9, a transmission plate 14 is engaged with the moving plate at the bottom of the gear 13, and a movable plate 15 is rotatably connected to the surface of the transmission plate 14, and the side of the movable plate 15 is provided with a stop 18 fixedly connected with the transmission plate 14, the tail of the movable plate 15 is rotatably connected with an opening and closing door 16, the surface of the base 1 is provided with an isolation frame 17, the inside of the isolation frame 17 is rotatably connected with a storage plate 20, the surface of the storage plate 20 is slidably connected with a partition plate 19, the surface of the partition plate 19 is provided with a second bump 24, the surface of the base 1 is provided with an adjusting mechanism 21, one end of the isolation frame 17 is provided with a transfer mechanism 22, one end of the transfer mechanism 22 is provided with a transfer bin 25, and the surface of the isolation frame 17 is provided with a first bump 23 attached to the second bump 24.

Furthermore, the surface of first slide 4 is provided with the spout that is isosceles triangle shape, and lifter plate 7 runs through in 2 surperficial protruding positions of mounting panel and rather than sliding connection, and lifter plate 7 constitutes horizontal elevation structure through atress board 6, because atress board 6 imbeds inside 4 surperficial isosceles triangle shape spouts of first slide, so atress board 6 can be through the slip of first slide 4 and move down.

Further, stopper 11 is "L" shape, and fly leaf 15 and dog 18 are the state of laminating each other, and fly leaf 15 drives door 16 that opens and shuts through driving plate 14 and constitutes the structure that opens and shuts, because feed bin 12 is placed on stopper 11 that is "L" shape, when the movable plate 9 drives feed bin 12 gliding through push pedal 8, feed bin 12 can break away from with stopper 11 protruding position gradually, when it contacts with stopper 11 depressed part, feed bin 12 can be towards burning furnace 3 one side slope, prepares for the pay-off.

Furthermore, the contact surfaces of the first lug 23 and the second lug 24 are inclined planes, the second lug 24 is perpendicular to the partition plate 19, the surface of the storage plate 20 is provided with sawteeth, the surface of the transfer bin 25 is provided with a limit frame, because the first lug 23 is in contact with the second lug 24, when the partition plate 19 is overturned along with the storage plate 20, the second lug 24 slides upwards in the storage plate 20 under the resistance of the first lug 23, and then a gap exists between the storage plate 20 and the partition plate 19, so that the treated waste salt can flow out from the gap conveniently.

Further, the adjusting mechanism 21 includes a first rotating plate 2101, an embedded rod 2102, a rotating plate 2103, a transmission block 2104 and an inclined block 2105, the first rotating plate 2101 is disposed above the base 1, the side of the first rotating plate 2101 is rotatably connected with the embedded rod 2102, the rotating plate 2103 is rotatably disposed above the base 1 at the side of the first rotating plate 2101, the surface of the rotating plate 2103 is provided with the transmission block 2104, the inclined block 2105 is fixedly connected to the side of the storage plate 20, the first rotating plate 2101 is controlled to rotate by a motor, the first rotating plate 2101 drives the embedded rod 2102 to rotate, the embedded rod 2102 is embedded inside a chute linearly disposed in the rotating plate 2103, the embedded rod 2102 slides inside the chute along with the rotation of the first rotating plate 2101 and drives the rotating plate 2103 to rotate, when the rotating plate 2103 rotates clockwise, the transmission block 2104 is disposed away from the center of the rotating plate 2103, the driving block 2104 will drive the tilting block 2105 to tilt by the rotation of the rotating disc 2103, and then the tilting block 2105 will drive the storage plate 20 fixed to itself to tilt, since the first protrusion 23 contacts with the second protrusion 24, when the partition plate 19 turns over along with the storage plate 20, the second protrusion 24 will slide upwards inside the storage plate 20 under the resistance of the first protrusion 23, and then there will be a gap between the storage plate 20 and the partition plate 19, so as to prepare for the waste salt transportation.

Furthermore, the surface of the rotating disk 2103 is provided with a slide way which is linearly arranged and has the same length as the diameter of the slide way, the joint of the embedding rod 2102 and the first rotating plate 2101 is close to the end point of the first rotating plate 2101, the first rotating plate 2101 drives the rotating disk 2103 through the embedding rod 2102 to form a rotating structure, and the embedding rod 2102 is embedded in the slide way which is linearly arranged in the rotating disk 2103, so that the embedding rod 2102 slides in the slide way along with the rotation of the first rotating plate 2101 and drives the rotating disk 2103 to rotate.

Furthermore, the transmission block 2104 is arranged to deviate from the center of the rotating disk 2103, the transmission block 2104 is embedded into the linear chute on the surface of the inclined block 2105 and is connected with the linear chute in a sliding manner, the inclined block 2105 drives the storage plate 20 to form a turnover structure through the transmission block 2104, and the transmission block 2104 is arranged to deviate from the center of the rotating disk 2103, so that the transmission block 2104 can drive the inclined block 2105 to incline through the rotation of the rotating disk 2103, and then the inclined block 2105 can drive the storage plate 20 fixed to the transmission block to incline, so that waste salt can be dumped; because the embedding rod 2102 is embedded in a chute linearly arranged by the rotating disc 2103, the embedding rod 2102 slides in the chute along with the rotation of the first rotating plate 2101 and drives the rotating disc 2103 to rotate, the driving block 2104 drives the inclined block 2105 to incline by the rotation of the rotating disc 2103, when the partition plate 19 turns over along with the storage plate 20, the second bump 24 slides upwards in the storage plate 20 under the resistance of the first bump 23, and then a gap exists between the storage plate 20 and the partition plate 19.

Further, the transfer mechanism 22 includes a transmission disc 2201, a second rotating plate 2202, a second sliding plate 2203, a force-bearing block 2204 and a shift lever 2205, the transmission disc 2201 is disposed above the base 1, the second rotating plate 2202 is disposed on the top of the transmission disc 2201, the second sliding plate 2203 is disposed on the surface of the base 1, the force-bearing block 2204 is fixedly connected to the side surface of the second sliding plate 2203, the shift lever 2205 is disposed on the top of the force-bearing block 2204, the embedding rod 2102 is embedded in the second sliding plate 2203, so that the second sliding plate 2203 is driven to slide on the surface of the base 1 when the embedding rod 2102 rotates, the shift lever 5 and the force-bearing block 2204 slide along with the second sliding plate 2203, and then the shift lever 2205 drives the storage plate 20 to shake through the surface serrations of the storage plate 20 to shake the waste salt crystals in the storage tank to the transfer tank 25, and the length of the position-limiting frame disposed on the surface of the transfer tank 25 is consistent with the length of the surface of the storage plate 20, when the shift lever 2205 is disengaged from the saw teeth, the force-bearing block 2204 is contacted with the rightmost side of the limiting frame on the transfer bin 25, and the transfer bin 25 is pushed to the right side by the force-bearing block 2204, so that the waste salt crystals are transferred.

Furthermore, the stress block 2204 is embedded in the limiting frame on the surface of the transfer bin 25 and is in sliding connection with the limiting frame, the shift lever 2205 is in contact with sawteeth on the surface of the storage plate 20, the diameter of the shift lever 2205 is matched with the gap of the sawteeth, because the length of the limiting frame arranged on the surface of the transfer bin 25 is consistent with that of the sawteeth on the surface of the storage plate 20, when the shift lever 2205 is separated from the sawteeth, the stress block 2204 is in contact with the rightmost side of the limiting frame on the transfer bin 25, and the transfer bin 25 is pushed to the right side through the stress block 2204 to transfer waste salt crystals; because the embedding rod 2102 is embedded in the second sliding plate 2203, the second sliding plate 2203 can be driven to slide on the surface of the base 1 when the embedding rod 2102 rotates, because the length of the limiting frame arranged on the surface of the transfer bin 25 is consistent with that of the sawteeth on the surface of the storage plate 20, when the shift lever 2205 is separated from the sawteeth, the force bearing block 2204 can contact with the rightmost side of the limiting frame on the transfer bin 25, the transfer bin 25 is pushed to the right side through the force bearing block 2204, and waste salt crystals are transferred.

The embodiment also provides a use scheme of the industrial waste salt recycling treatment device, and the device comprises the following steps:

s1, firstly, preparing for feeding, putting the industrial waste salt to be processed on a bin 12, then controlling a hydraulic rod 5 to drive a first sliding plate 4 to slide on the top of a mounting plate 2, because a stress plate 6 is embedded in an isosceles triangle sliding groove on the surface of the first sliding plate 4, the stress plate 6 can move downwards through the sliding of the first sliding plate 4, because a lifting plate 7 fixedly connected with the stress plate 6 is embedded in a sliding groove arranged on the inclined surface of the surface of a pushing plate 8, the pushing plate 8 can slide towards an connecting plate 10 along with the descending of the lifting plate 7, because the bin 12 is arranged on a limiting block 11 in an L shape, when the bin 12 is driven to slide by the pushing plate 8 through a bin 9, the moving plate 12 can gradually separate from the convex part of the limiting block 11, when the moving plate contacts with the concave part of the limiting block 11, the bin 12 can incline towards one side of an incinerator 3, preparation is made for feeding.

S2, transporting the industrial waste salt to be treated into the incinerator 3, when the moving plate 9 slides through the push plate 8, the moving plate will drive the gear 13 to slide, since the gear 13 is engaged with the driving plate 14, the driving plate 14 will slide through the gear 13 in the opposite direction to the moving plate 9, and then the driving plate 14 will slide to pull the movable plate 15, so that the movable plate 15 pulls the opening and closing door 16 to make it open, and the bin 12 in the inclined state will pour the industrial waste salt into the incinerator 3, and then the incinerator 3 will incinerate the industrial waste salt, and the incinerated industrial salt will flow into the storage plate 20 after being melted.

S3, transferring the cooled waste salt solution into the transferring bin 25, controlling the first rotating plate 2101 to rotate by the motor, then the first rotating plate 2101 will drive the embedding rod 2102 to rotate, since the embedding rod 2102 is embedded inside the chute of the rotating disc 2103, the embedding rod 2102 will slide inside the chute and drive the rotating disc 2103 to rotate along with the rotation of the first rotating plate 2101, when the rotating disc 2103 rotates clockwise, since the driving block 2104 is disposed at the center of the rotating disc 2103, the driving block 2104 will drive the inclined block 2105 to incline by the rotation of the rotating disc 2103, then the inclined block 2105 will drive the storage plate 20 fixed with itself to incline, since the first projection 23 contacts with the second projection 24, when the partition 19 turns along with the storage plate 20, the second projection 24 will slide upwards inside the storage plate 20 under the resistance of the first projection 23, a gap then exists between the storage panel 20 and the partition 19.

S4, finally, the waste salt crystal is transferred, the transmission disc 2201 is controlled to rotate, the embedding rod 2102 is embedded in the second sliding plate 2203, the second sliding plate 2203 can be driven to slide on the surface of the base 1 when the embedding rod 2102 rotates, the shifting rod 2205 and the stress block 2204 can slide along with the sliding of the second sliding plate 2203, then the shifting rod 2205 can drive the storage plate 20 to rock through saw teeth on the surface of the storage plate 20 to shake the waste salt crystal in the transfer bin 25, the length of the limiting frame arranged on the surface of the transfer bin 25 is consistent with that of the saw teeth on the surface of the storage plate 20, when the shifting rod 2205 is separated from the saw teeth, the stress block 2204 can contact with the rightmost right side of the limiting frame on the transfer bin 25 along with the limiting frame, the transfer bin 25 is pushed to the right side through the stress block 2204, and the waste salt crystal is transferred.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.