CN115415236B - Stainless steel metal recovery device and recovery method thereof - Google Patents

Abstract

The invention discloses a stainless steel metal recovery device and a recovery method thereof, belonging to the technical field of metal recovery, and comprising a bottom plate, wherein the top of the bottom plate is provided with a hopper, the bottom of the hopper is fixedly connected with a support rod connected with the bottom plate, a worker can continuously inject cleaning liquid into a second water tank, the cleaning liquid can flow into a first water tank until the first water tank is filled, the worker can put leftover materials to be cleaned into the hopper, the leftover materials in the hopper fall into a blocking frame and fall into a cleaning box through a first blanking port and a second blanking port, the cleaning box receives the leftover materials to be cleaned and gradually moves downwards due to gravity until the cleaning box receives a certain weight of the materials, a quantitative structure is triggered, the two blocking plates slide to be close to each other, the first blanking port and the second blanking port are staggered, and the leftover materials are temporarily received by the blocking frame, so that the effect of no longer receiving the leftover materials after the cleaning box receives the certain weight of the materials is realized.

Description

Stainless steel metal recovery device and recovery method thereof

Technical Field

The invention relates to the technical field of metal recovery, in particular to a stainless steel metal recovery device and a recovery method thereof.

Background

The stainless steel processing refers to the process of mechanically processing stainless steel by shearing, bending, welding and the like according to the performance of the stainless steel to finally obtain a stainless steel product required by industrial production, a large amount of machine tools, instruments and stainless steel processing equipment are required in the process of processing the stainless steel, and a large amount of leftover materials such as stainless steel pipes, steel sheets and the like are generated in the process.

In the prior art, when the milling liquid remained on the leftover materials is cleaned, the proportion of the materials and a clean water source or a cleaning liquid is not easy to control, the water source is too much and easily causes water source waste, and the water source process easily causes the problem that the leftover materials are not cleaned cleanly.

Based on the above, the invention designs a stainless steel metal recovery device and a recovery method thereof, so as to solve the above problems.

Disclosure of Invention

The invention aims to provide a stainless steel metal recovery device and a recovery method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a stainless steel metal recovery device comprises a bottom plate, wherein a hopper is arranged at the top of the bottom plate, a supporting rod connected with the bottom plate is fixedly connected to the bottom of the hopper, a cleaning box is further arranged at the top of the bottom plate, a plurality of bottom supporting blocks are respectively connected to two sides of the cleaning box, a plurality of vertical rods in sliding connection with the bottom supporting blocks are fixedly connected to the top of the bottom plate, a first spring is connected between the bottom supporting blocks and the bottom plate, a blocking frame is fixedly connected to the bottom of the hopper, a first water tank is also fixedly connected to the top of the bottom plate, a second water tank is fixedly connected to the top of the first water tank, and the first water tank is communicated with the second water tank; the bottom of wasing the case sliding connection has first baffle and second baffle, it is connected with the pivot to wash one side rotation of case, the pivot runs through wash the case, a plurality of plectrums of lateral wall fixedly connected with of pivot, a plurality of first blanking mouths have been seted up to the bottom of stopping the frame, the side opening has been seted up to one side of stopping the frame, sliding connection has two material blocking plates in the side opening, the top of material blocking plate set up a plurality of with the second blanking mouth of first blanking mouth intercommunication, wash the case with be equipped with the ration structure that is used for quantitative unloading between the stopping the frame, the ration structure can slide the bottom that two material blocking plates seal the stopping the frame when wasing the case and accept certain material, the bottom of first water tank is equipped with the notes liquid structure that is used for injecting the washing liquid into in wasing the case, second water tank and first water tank intercommunication, the notes liquid structure can seal the intercommunication department of second water tank and first water tank and open the bottom of first water tank behind the bottom that two material blocking plates seal the stopping the frame, one side of wasing the case is equipped with the drive structure that is used for rotating the pivot, the pivot can open the baffle and the bottom of first baffle.

The quantitative structure comprises a plurality of second springs fixedly connected between the two material blocking plates, two sides of the cleaning box are respectively and fixedly connected with side supporting blocks, inserting rods are connected in the side supporting blocks in a sliding mode, third springs are fixedly connected between the inserting rods and the inner bottom surfaces of the side supporting blocks, and inserting holes formed in the bottoms of the material blocking plates are sleeved with the inserting rods in a sliding mode.

The quantitative structure is still including rotating the connection and being in the first bull stick of bracing piece one side, the fixed cover of lateral wall of first bull stick is equipped with first gear, the bottom fixedly connected with of material blocking plate with first gear engagement's first rack, one side of bracing piece is still rotated and is connected with the second bull stick, the height of second bull stick is less than first bull stick, the lateral wall of second bull stick rotates and is connected with the second gear, wash one side fixedly connected with of case with second gear engagement's second rack, first gear with be connected with first chain between the second gear, a plurality of recesses have been seted up to the inside wall of second gear, a plurality of shrink grooves have been seted up to the lateral wall of second bull stick, shrink inslot sliding connection with the joint piece of recess joint, the joint piece with fixedly connected with fourth spring between the shrink groove.

Annotate the liquid structure and establish including fixed cover the first water pipe of second water tank bottom, first water pipe with first water tank and second water tank intercommunication, the bottom intercommunication of first water tank has the second water pipe, the one end of second water pipe is connected with the third water pipe, the one end of third water pipe extends to wash the incasement, first side opening has been seted up to one side of second water pipe, the downthehole sliding connection of first side has first baffle, first baffle with the flitch laminating of hindering, first even hole has been seted up at the top of first baffle, first baffle with fixedly connected with fifth spring between the second water pipe, the second side opening has been seted up to one side of first water pipe, the downthehole sliding connection of second side has the second baffle, the top of second baffle seted up with the second even hole of first water pipe intercommunication, first baffle with fixedly connected with connecting rod between the second baffle.

Annotate the liquid structure still include fixed connection in the slide bar of connecting rod one side, the one end of slide bar extends to in the first water tank and with first water tank sliding connection, a plurality of air vents have been seted up to one side of first water tank, the one end fixedly connected with separation blade of connecting rod is kept away from to the slide bar, one side fixedly connected with of separation blade with the stifled pole that air vent sliding sleeve established.

The drive structure is established including fixed cover the third gear of pivot one end, the top fixedly connected with bottom support of bottom plate, the top fixedly connected with driving motor of bottom support, the one end fixedly connected with of driving motor drive shaft with the fourth gear of third gear looks adaptation.

The driving structure further comprises fifth gears which are rotatably connected to two sides of the cleaning box, a second chain is connected between the fifth gears and the rotating shaft, sliding channels are formed in two sides of the cleaning box respectively, sliding plates are fixedly connected to two sides of the first baffle respectively and are slidably connected with the sliding channels, sliding strips are fixedly connected to two sides of the second baffle respectively, third racks are fixedly connected to the tops of the sliding strips, the sliding strips are slidably connected with the sliding channels, fourth racks are fixedly connected to the bottoms of the sliding plates, side supports are fixedly connected to two sides of the cleaning box respectively, sixth gears are rotatably connected to the side supports, the sixth gears are meshed with the third racks and the fourth racks, volute springs are connected between the sixth gears and the side supports, sliding grooves are formed in the tops of the sliding plates, fifth racks are slidably connected with the fifth racks, the fifth racks are meshed with the fifth gears, limiting rods are fixedly connected to one side of the inside of the sliding grooves, the limiting rods are slidably connected with the fifth racks, and sixth springs are fixedly connected between the fifth racks and one side of the inside of the sliding grooves.

The cleaning box comprises a cleaning box body, a bottom plate, a connecting hole, a limiting groove, a limiting block, a limiting plate, a seventh spring, a contact plate and a contact plate, wherein the limiting groove is formed in each of two sides of the cleaning box body respectively, the top of the bottom plate is fixedly connected with a supporting rod, a sliding hole is formed in one side of the supporting rod, the limiting block is connected with the limiting groove in a sliding mode and is matched with the limiting groove, the limiting block is fixedly connected with the seventh spring between the supporting rods, the connecting hole is formed in one side of the supporting rod, one side of the limiting block is fixedly connected with the contact rod in a sliding mode, and the contact plate is fixedly connected with one side of the sliding plate.

A stainless steel metal recovery method comprises the following specific steps:

the method comprises the following steps: continuously injecting cleaning liquid into the second water tank, wherein the cleaning liquid flows into the first water tank until the first water tank is filled with the cleaning liquid;

step two: leftover materials to be cleaned can be put into the hopper, and the leftover materials in the hopper fall into the blocking frame and fall into the cleaning box through the first blanking port and the second blanking port;

step three: the cleaning box receives materials to be cleaned, gradually moves downwards due to gravity, and triggers the quantitative structure until materials with certain weight are contained in the cleaning box;

step four: the quantitative structure slides the two material blocking plates, the first blanking port and the second blanking port are staggered, and leftover materials are temporarily received by the blocking frame;

step five: the liquid injection structure opens the bottom of the first water tank and closes the joint of the second water tank and the first water tank at the same time, and the cleaning liquid temporarily stored in the first water tank can flow into the cleaning tank to contact with and soak leftover materials infected with the milling liquid;

step six: the pivot is rotated to the drive structure, and the pivot is rotated and is driven the plectrum and stir leftover bits and washing liquid that washs the incasement, utilizes the mode of stirring to wash the leftover bits.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through arranging the first water tank, a worker can continuously inject cleaning liquid into the second water tank, the cleaning liquid can flow into the first water tank until the first water tank is filled, the worker can throw leftover materials to be cleaned into the hopper, the leftover materials in the hopper fall into the blocking frame and fall into the cleaning tank through the first material dropping port and the second material dropping port, the cleaning tank receives the materials to be cleaned and gradually moves downwards due to gravity until the cleaning tank receives the materials with certain weight, the quantitative structure is triggered, the quantitative structure slides the two material blocking plates to enable the two material blocking plates to mutually approach, the first material dropping port and the second material dropping port are staggered, the effect that the leftover materials are not received after the cleaning tank receives the materials with certain weight is realized, when the quantitative structure slides the two material blocking plates to mutually approach, the bottom of the first water tank is opened, the connection between the second water tank and the first water tank is closed, the cleaning liquid temporarily thrown into the first water tank can flow towards the corner cleaning tank and can only cause a certain amount of cleaning liquid to be washed, and the problem that the cleaning liquid in the corner material washing tank can be washed in a manner that the corner materials with too much weight is thrown into the cleaning liquid, and the corner material is avoided when the cleaning tank, the cleaning liquid is thrown into the corner material, and the corner material is thrown into the corner cleaning tank, and the corner cleaning tank .

Drawings

FIG. 1 is a schematic flow diagram of the process of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the overall structure of the present invention;

FIG. 4 is a schematic view of a support bar according to the present invention;

FIG. 5 is a schematic view of the bottom support block structure of the present invention;

FIG. 6 is a schematic view of a blocking frame structure according to the present invention;

FIG. 7 is a schematic view of the stopper plate of the present invention;

FIG. 8 is a schematic view of a first rotating rod of the present invention;

FIG. 9 is a cross-sectional schematic view of a second gear structure of the present invention;

FIG. 10 is an enlarged view of a portion of the structure at A in FIG. 3;

FIG. 11 is an enlarged view of a portion of the structure at B in FIG. 5;

FIG. 12 is an enlarged view of a portion of the structure at C in FIG. 3;

FIG. 13 is an enlarged view of a portion of the structure shown at D in FIG. 3;

FIG. 14 is a schematic view of the structure of the cleaning tank of the present invention;

FIG. 15 is an enlarged view of a portion of the structure at E in FIG. 14;

FIG. 16 is a schematic view of a first baffle plate of the present invention;

FIG. 17 is an enlarged view of a portion of FIG. 16 at F;

FIG. 18 is a schematic view of a strut configuration according to the present invention;

figure 19 is a cross-sectional schematic view of a strut structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a base plate; 101. a hopper; 102. a support bar; 103. cleaning the tank; 104. a blocking frame; 105. a first water tank; 106. a second water tank; 107. a first baffle; 108. a second baffle; 109. a bottom support block; 110. a vertical rod; 111. a first spring; 200. a first blanking port; 201. the side edge is opened; 202. a material stopping plate; 203. a second blanking port; 204. a second spring; 205. a side support block; 206. a plug rod; 207. a third spring; 208. inserting holes; 209. a first rotating lever; 210. a first gear; 211. a first rack; 212. a second rotating lever; 213. a second gear; 214. a second rack; 215. a first chain; 216. a groove; 217. a shrinking slot; 218. a clamping block; 219. a fourth spring; 300. a first water pipe; 301. a second water pipe; 302. a third water pipe; 303. a first side hole; 304. a first separator; 305. a first connecting hole; 306. a fifth spring; 307. a second side hole; 308. a second separator; 309. a second connecting hole; 310. a connecting rod; 311. a slide bar; 312. a vent hole; 313. a baffle plate; 314. blocking the rod; 400. a rotating shaft; 401. a shifting sheet; 402. a third gear; 403. a bottom bracket; 404. a drive motor; 405. a fourth gear; 406. a fifth gear; 407. a second chain; 408. a slide channel; 409. a slide bar; 410. a third rack; 411. a fourth rack; 412. a side bracket; 413. a sixth gear; 414. a chute; 415. a fifth rack; 416. a limiting rod; 417. a sixth spring; 418. a sliding plate; 500. a limiting groove; 501. a strut; 502. a slide hole; 503. a limiting block; 504. a seventh spring; 505. connecting holes; 506. a touch bar; 507. against the plate.

Detailed Description

Referring to fig. 1-19, the present invention provides a technical solution: a stainless steel metal recovery device comprises a bottom plate 100, wherein a hopper 101 is arranged at the top of the bottom plate 100, a supporting rod 102 connected with the bottom plate 100 is fixedly connected to the bottom of the hopper 101, a cleaning box 103 is further arranged at the top of the bottom plate 100, a plurality of bottom supporting blocks 109 are respectively connected to two sides of the cleaning box 103, a plurality of vertical rods 110 slidably connected with the bottom supporting blocks 109 are fixedly connected to the top of the bottom plate 100, a first spring 111 is connected between each bottom supporting block 109 and the bottom plate 100, a blocking frame 104 is fixedly connected to the bottom of the hopper 101, a first water tank 105 is further fixedly connected to the top of the bottom plate 100, a second water tank 106 is fixedly connected to the top of the first water tank 105, and the first water tank 105 is communicated with the second water tank 106;

the bottom of the cleaning box 103 is slidably connected with a first baffle 107 and a second baffle 108, one side of the cleaning box 103 is rotatably connected with a rotating shaft 400, the rotating shaft 400 penetrates through the cleaning box 103, the outer side wall of the rotating shaft 400 is fixedly connected with a plurality of poking sheets 401, the bottom of the stopping frame 104 is provided with a plurality of first blanking ports 200, one side of the stopping frame 104 is provided with a side opening 201, the side opening 201 is slidably connected with two stopping plates 202, the top of each stopping plate 202 is provided with a plurality of second blanking ports 203 communicated with the first blanking ports 200, a quantitative structure for quantitative blanking is arranged between the cleaning box 103 and the stopping frame 104, the quantitative structure can slide the two stopping plates 202 to seal the bottom of the stopping frame 104 when the cleaning box 103 bears a certain material, the bottom of the first water tank 105 is provided with a liquid injection structure for injecting cleaning liquid into the cleaning box 103, the second water tank 106 is communicated with the first water tank 105, the liquid injection structure can seal the communication position of the second water tank 106 and the first water tank 105 after the bottom of the stopping frame 104 is sealed by the two stopping plates 202, the bottom of the cleaning box 103 and open the rotating shaft 108, and the rotating structure can drive the rotating shaft 400 to rotate the rotating shaft 103;

during operation, an operator can continuously inject cleaning liquid into the second water tank 106, the cleaning liquid can flow into the first water tank 105 until the first water tank 105 is filled, the operator can put leftover materials to be cleaned into the hopper 101, the leftover materials in the hopper 101 fall into the stopping frame 104 and fall into the cleaning box 103 through the first blanking port 200 and the second blanking port 203, the cleaning box 103 receives the materials to be cleaned and gradually moves downwards due to gravity until a certain weight of the materials are received in the cleaning box 103, the quantitative structure is triggered, the two stopping plates 202 slide by the quantitative structure, the two stopping plates 202 are close to each other, the first blanking port 200 and the second blanking port 203 are staggered, the leftover materials are temporarily received by the stopping frame 104 at the moment, the effect that the leftover materials are not received any more after the cleaning box 103 receives the certain weight of the materials is realized, when the two stopping plates 202 slide by the quantitative structure and are close to each other, the liquid injection structure opens the bottom of the first water tank 105, and closes the connection between the second water tank 106 and the first water tank 105, at this time, the cleaning liquid temporarily stored in the first water tank 105 can flow into the cleaning tank 103 to contact with the leftover material contaminated with the milling liquid and soak the leftover material, because the first water tank 105 can only store a certain amount of cleaning liquid, when the liquid injection structure seals the connection between the first water tank 105 and the second water tank 106, the cleaning liquid in the second water tank 106 cannot flow into the first water tank 105, and the cleaning liquid in the first water tank 105 flows into the cleaning tank 103, the effect of quantitatively feeding the cleaning liquid is realized, further, the driving structure is arranged, when the cleaning liquid is fed into the cleaning tank 103, the rotating shaft 400 is rotated, the rotating shaft 400 can drive the shifting piece 401 to shift the leftover material and the cleaning liquid in the cleaning tank 103, and the leftover material can be cleaned by stirring, the arranged driving structure can also be away from the first baffle 107 and the second baffle 108 after the rotating shaft 400 rotates for a plurality of turns to open the cleaning box 103, so that the control of the time for cleaning the leftover materials is realized; for traditional cleaning methods, need the manual work to weigh back to washing liquid and leftover bits, put in the washing liquid to the leftover bits in, the opposite side leftover bits washs, the device can be at the in-process of putting in the leftover bits in wasing case 103, according to the certain amount of washing liquid of weight ratio of leftover bits to avoided putting in less leading to the leftover bits cleaning performance poor or the washing liquid puts in too much leading to the extravagant problem of washing liquid because of the washing liquid.

As a further scheme of the invention, the quantitative structure comprises a plurality of second springs 204 fixedly connected between two material blocking plates 202, two sides of the cleaning box 103 are respectively and fixedly connected with a side supporting block 205, an inserting rod 206 is slidably connected in the side supporting block 205, a third spring 207 is fixedly connected between the inserting rod 206 and the inner bottom surface of the side supporting block 205, and the bottom of the material blocking plates 202 is provided with an inserting hole 208 which is sleeved with the inserting rod 206 in a sliding manner;

when the quantitative blanking device works, after materials in the hopper 101 fall into the cleaning box 103 through the first blanking port 200 and the second blanking port 203, the cleaning box 103 moves downwards under the action of gravity, when more and more materials are in the cleaning box 103, the position of the cleaning box 103 which descends is lower until the insertion rod 206 is separated from the insertion hole 208, at the moment, the two material blocking plates 202 are close to each other under the action of the pulling force of the second spring 204, the first blanking port 200 and the second blanking port 203 are staggered, the falling of the materials can be blocked, and the quantitative blanking effect is achieved.

As a further scheme of the present invention, the quantitative structure further includes a first rotating rod 209 rotatably connected to one side of the supporting rod 102, a first gear 210 is fixedly sleeved on an outer side wall of the first rotating rod 209, a first rack 211 meshed with the first gear 210 is fixedly connected to the bottom of the material blocking plate 202, a second rotating rod 212 is further rotatably connected to one side of the supporting rod 102, the height of the second rotating rod 212 is lower than that of the first rotating rod 209, a second gear 213 is rotatably connected to an outer side wall of the second rotating rod 212, a second rack 214 meshed with the second gear 213 is fixedly connected to one side of the cleaning tank 103, a first chain 215 is connected between the first gear 210 and the second gear 213, a plurality of grooves 216 are formed on an inner side wall of the second gear 213, a plurality of shrinking grooves 217 are formed on an outer side wall of the second rotating rod 212, a clamping block 218 clamped with the grooves 216 is slidably connected in the shrinking grooves 217, and a fourth spring is fixedly connected between the clamping block 218 and the shrinking groove 219;

during operation, when the cleaning box 103 moves downwards, the second gear 213 is driven to rotate by the second rack 214, when the plugging rod 206 is not separated from the plugging hole 208, the second rack 214 drives the second gear 213, due to the resistance of the first gear 210 meshed with the rack, the second gear 213 rotates on the second rotating rod 212 in a hollow manner, after the cleaning box 103 descends to a preset position, the plugging rod 206 is separated from the plugging hole 208, the two material blocking plates 202 are close to each other to block blanking, when the cleaning box 103 needs to be reset upwards after the leftover material is cleaned, the second rack 214 drives the second gear 213 to rotate, the second gear 213 drives the second rotating rod 212 to rotate by the clamping block 218, the second rotating rod 212 can drive the first rotating rod 209 and the first gear 210 to rotate by the first chain 215, the two material blocking plates 202 can be away from each other by the meshing of the first gear 210 and the first rack 211, and the effect of opening the bottom of the material blocking frame 104 and continuing blanking after the leftover material is cleaned by the cleaning box 103 is achieved.

As a further scheme of the present invention, the liquid injection structure includes a first water pipe 300 fixedly sleeved at the bottom of the second water tank 106, the first water pipe 300 is communicated with the first water tank 105 and the second water tank 106, the bottom of the first water tank 105 is communicated with a second water pipe 301, one end of the second water pipe 301 is connected with a third water pipe 302, one end of the third water pipe 302 extends into the cleaning tank 103, one side of the second water pipe 301 is provided with a first side hole 303, the first side hole 303 is slidably connected with a first partition plate 304, the first partition plate 304 is attached to the baffle plate 202, the top of the first partition plate 304 is provided with a first connecting hole 305, a fifth spring 306 is fixedly connected between the first partition plate 304 and the second water pipe 301, one side of the first water pipe 300 is provided with a second side hole 307, the second side hole 307 is slidably connected with a second partition plate 308, the top of the second partition plate 308 is provided with a second connecting hole 309 communicated with the first water pipe 300, and a connecting rod 310 is fixedly connected between the first partition plate 304 and the second partition plate 308;

during operation, in an initial state, the fifth spring 306 is in a stretching state, when the two stopper plates 202 slide and approach each other, the fifth spring 306 gradually releases potential energy, so that the first partition plate 304 slides in the first connection hole 305, and the first connection hole 305 is communicated with the second water pipe 301, when the first partition plate 304 moves, the second partition plate 308 can be driven by the arranged connecting rod 310 to move, so that the second connection hole 309 is staggered with the first water pipe 300, at this time, the first water pipe 300 is in a closed state, the second water pipe 301 is in an open state, the cleaning liquid in the first water tank 105 can flow into the cleaning tank 103 from the second water pipe 301 and the third water pipe 302, and an effect of injecting a fixed amount of cleaning liquid into the cleaning tank 103 is achieved by using a fixed volume of the first water tank 105.

As a further scheme of the present invention, the liquid injection structure further includes a sliding rod 311 fixedly connected to one side of the connecting rod 310, one end of the sliding rod 311 extends into the first water tank 105 and is slidably connected to the first water tank 105, one side of the first water tank 105 is provided with a plurality of vent holes 312, one end of the sliding rod 311, which is far away from the connecting rod 310, is fixedly connected with a blocking piece 313, and one side of the blocking piece 313 is fixedly connected with a blocking rod 314 slidably sleeved with the vent holes 312;

during operation, after the first baffle 107 moves to enable the first connecting hole 305 to be communicated with the second water pipe 301, the first baffle 107 moves to drive the connecting rod 310 to move, the connecting rod 310 moves to drive the blocking piece 313 and the blocking rod 314 to move, the blocking rod 314 is separated from the vent hole 312, and when the cleaning flow in the first water tank 105 flows to the cleaning tank 103, the cleaning liquid can be released more smoothly through the vent hole 312.

As a further scheme of the present invention, the driving structure includes a third gear 402 fixedly sleeved at one end of the rotating shaft 400, the top of the bottom plate 100 is fixedly connected with a bottom bracket 403, the top of the bottom bracket 403 is fixedly connected with a driving motor 404, and one end of a driving shaft of the driving motor 404 is fixedly connected with a fourth gear 405 adapted to the third gear 402;

during operation, when needing to wash leftover bits, start driving motor 404, driving motor 404's drive shaft rotates and drives fourth gear 405 and rotate, and after washing case 103 accepted the material and dropped to certain height, third gear 402 and fourth gear 405 meshing, driving motor 404 accessible fourth gear 405 and third gear 402 drive pivot 400 rotatory to this can realize rotating plectrum 401 and stir the effect of wasing the interior material of case 103.

As a further scheme of the present invention, the driving structure further includes a fifth gear 406 rotatably connected to two sides of the cleaning box 103, a second chain 407 is connected between the fifth gear 406 and the rotating shaft 400, two sides of the cleaning box 103 are respectively provided with a sliding channel 408, two sides of the first baffle 107 are respectively fixedly connected with a sliding plate 418, the sliding plate 418 is slidably connected with the sliding channel 408, two sides of the second baffle 108 are respectively fixedly connected with a sliding strip 409, a top of the sliding strip 409 is fixedly connected with a third rack 410, the sliding strip 409 is slidably connected with the sliding channel 408, a bottom of the sliding plate 418 is fixedly connected with a fourth rack 411, two sides of the cleaning box 103 are respectively fixedly connected with a side bracket 412, the side bracket 412 is rotatably connected with a sixth gear 413, the sixth gear 413 is engaged with the third rack 410 and the fourth rack 411, a volute spring is connected between the sixth gear 413 and the side bracket 412, a sliding groove 414 is formed in the top of the sliding plate 418, a fifth rack 415 is slidably connected with a fifth rack 414, a limiting rod 416 is fixedly connected to one side of the inside of the sliding groove 414;

when the cleaning box 103 works, when the cleaning box 103 is moved downwards by the weight of materials, so that the third gear 402 is meshed with the fourth gear 405, the driving motor 404 drives the rotating shaft 400 and the shifting piece 401 to rotate, when the materials in the cleaning box 103 are stirred and cleaned, the rotating shaft 400 rotates to drive the fifth gear 406 to rotate through the second chain 407, the fifth gear 406 rotates to drive the fifth rack 415 to rotate in the chute 414, after the rotating shaft 400 rotates for a plurality of circles, the fifth rack 415 slides to the tail end of the chute 414 to drive the sliding plate and the first baffle 107 to move, the first baffle 107 can move to drive the sliding strip 409 to move in the direction opposite to the moving direction of the sliding plate through the sixth gear 413, the first baffle 107 and the second baffle 108 are separated from each other, the bottom of the cleaning box 103 is opened, the materials in the cleaning box 103 are discharged, after the cleaning box 103 is discharged, the cleaning box 103 moves upwards, after the third gear 402 is separated from the fourth gear 405, the spring releases potential energy to drive the first baffle 107 and the second baffle 108 to reset, and to close the bottom of the cleaning box 103, and facilitate the storage of the materials.

As a further scheme of the invention, two sides of the cleaning box 103 are respectively provided with a limiting groove 500, the top of the bottom plate 100 is fixedly connected with a supporting rod 501, one side of the supporting rod 501 is provided with a sliding hole 502, the sliding hole 502 is slidably connected with a limiting block 503 matched with the limiting groove 500, a seventh spring 504 is fixedly connected between the limiting block 503 and the supporting rod 501, one side of the supporting rod 501 is provided with a connecting hole 505, one side of the limiting block 503 is fixedly connected with a touch rod 506 slidably connected with the connecting hole 505, and one side of the sliding plate 418 is fixedly connected with a touch plate 507;

when the cleaning box is in operation, the initial state of the seventh spring 504 is a compressed state, after the cleaning box 103 moves downwards to a certain distance, the limiting block 503 is clamped with the limiting groove 500 by the force of the seventh spring 504, at this time, the abutting rod 506 extends to one side of the supporting rod 501, so that the position of the cleaning box 103 can be limited, the phenomenon that the cleaning box 103 jumps up and down due to vibration when the rotating shaft 400 rotates and the material in the cleaning box 103 is stirred by the poking piece 401 is avoided, further, when the sliding plate 418 is driven by the fifth gear 406 to slide and open the bottom of the cleaning box 103, the sliding plate 418 is driven to move and drive the abutting plate 507 to move, when the abutting plate 507 moves to a certain position, the abutting plate 507 extrudes the position of the abutting rod 506, so that the limiting block 500 is separated from the limiting groove 500, when the sliding plate 418 moves, the material in the cleaning box 103 is gradually released, when the abutting plate 507 contacts with the abutting rod 506, the bottom of the cleaning box 103 is completely opened, at this time, the limiting groove 500 is separated from the limiting block 503, so that the position of the cleaning box 103 can be completely released by the force of the first spring 111, and a batch of the material can be completely released.

A stainless steel metal recovery method comprises the following specific steps:

the method comprises the following steps: continuously injecting the cleaning liquid into the second water tank 106, wherein the cleaning liquid flows into the first water tank 105 until the first water tank 105 is filled;

step two: leftover materials to be cleaned can be put into the hopper 101, the leftover materials in the hopper 101 fall into the blocking frame 104 and fall into the cleaning box 103 through the first blanking port 200 and the second blanking port 203;

step three: the cleaning box 103 receives materials to be cleaned, gradually moves downwards due to gravity, and triggers the quantitative structure until a certain weight of materials are received in the cleaning box 103;

step four: the quantitative structure slides the two material blocking plates 202, the first blanking port 200 and the second blanking port 203 are staggered, and leftover materials are temporarily received by the blocking frame 104;

step five: the liquid injection structure opens the bottom of the first water tank 105, and closes the joint of the second water tank 106 and the first water tank 105 at the same time, so that the cleaning liquid temporarily stored in the first water tank 105 can flow into the cleaning tank 103 to contact with and soak leftover materials infected with the milling liquid;

step six: the drive structure rotates pivot 400, and pivot 400 rotates and drives plectrum 401 and stir leftover bits and pieces and the washing liquid of wasing in the case 103, utilizes the mode of stirring to wash the leftover bits.

Claims (3)

1. The stainless steel metal recovery device is characterized by comprising a bottom plate (100), wherein a hopper (101) is arranged at the top of the bottom plate (100), a supporting rod (102) connected with the bottom plate (100) is fixedly connected to the bottom of the hopper (101), a cleaning box (103) is further arranged at the top of the bottom plate (100), a plurality of bottom supporting blocks (109) are respectively connected to two sides of the cleaning box (103), a plurality of vertical rods (110) slidably connected with the bottom supporting blocks (109) are fixedly connected to the top of the bottom plate (100), a first spring (111) is connected between the bottom supporting blocks (109) and the bottom plate (100), a blocking frame (104) is fixedly connected to the bottom of the hopper (101), a first water tank (105) is further fixedly connected to the top of the bottom plate (100), a second water tank (106) is fixedly connected to the top of the first water tank (105), and the first water tank (105) is communicated with the second water tank (106);

the cleaning device is characterized in that a first baffle (107) and a second baffle (108) are slidably connected to the bottom of the cleaning box (103), a rotating shaft (400) is rotatably connected to one side of the cleaning box (103), the rotating shaft (400) penetrates through the cleaning box (103), a plurality of shifting sheets (401) are fixedly connected to the outer side wall of the rotating shaft (400), a plurality of first blanking ports (200) are formed in the bottom of the stopping frame (104), a side opening (201) is formed in one side of the stopping frame (104), two stopping plates (202) are slidably connected to the side opening (201), a plurality of second blanking ports (203) communicated with the first blanking ports (200) are formed in the top of the stopping plates (202), a quantitative structure for quantitative blanking is arranged between the cleaning box (103) and the stopping frame (104), the quantitative structure can slide the two stopping plates (202) to seal the bottom of the stopping frame (104) when the cleaning box (103) receives a certain material, the bottom of the first water tank (105) is provided with a second stopping plate (106) for injecting cleaning liquid into the cleaning box (103), and the second water tank (105) can be communicated with the closed water tank (105) after the first stopping plate (105) is opened, a driving structure for rotating the rotating shaft (400) is arranged on one side of the cleaning box (103), and the driving structure can slide the first baffle (107) and the second baffle (108) to open the bottom of the cleaning box (103) after the rotating shaft (400) rotates for a plurality of circles;

the quantitative structure comprises a plurality of second springs (204) fixedly connected between two material blocking plates (202), two sides of the cleaning box (103) are respectively and fixedly connected with a side supporting block (205), an inserting rod (206) is connected in the side supporting block (205) in a sliding manner, a third spring (207) is fixedly connected between the inserting rod (206) and the inner bottom surface of the side supporting block (205), and an inserting hole (208) which is sleeved with the inserting rod (206) in a sliding manner is formed in the bottom of each material blocking plate (202);

the quantitative structure further comprises a first rotating rod (209) rotatably connected to one side of the supporting rod (102), a first gear (210) is fixedly sleeved on the outer side wall of the first rotating rod (209), the bottom of the material blocking plate (202) is fixedly connected with a first rack (211) meshed with the first gear (210), a second rotating rod (212) is rotatably connected to one side of the supporting rod (102), the height of the second rotating rod (212) is lower than that of the first rotating rod (209), the outer side wall of the second rotating rod (212) is rotatably connected with a second gear (213), a second rack (214) meshed with the second gear (213) is fixedly connected to one side of the cleaning box (103), a first chain (215) is connected between the first gear (210) and the second gear (213), a plurality of grooves (216) are formed in the inner side wall of the second gear (213), a plurality of shrinkage grooves (217) are formed in the outer side wall of the second rotating rod (212), a plurality of shrinkage grooves (217) are formed in the shrinkage groove (217) and a clamping block (218) slidably connected with the groove (216), and a fourth clamping block (219) is fixedly connected between the shrinkage block (219);

the liquid injection structure comprises a first water pipe (300) fixedly sleeved at the bottom of the second water tank (106), the first water pipe (300) is communicated with the first water tank (105) and the second water tank (106), the bottom of the first water tank (105) is communicated with a second water pipe (301), one end of the second water pipe (301) is connected with a third water pipe (302), one end of the third water pipe (302) extends into the cleaning tank (103), a first side hole (303) is formed in one side of the second water pipe (301), a first partition plate (304) is connected in the first side hole (303) in a sliding manner, the first partition plate (304) is attached to the material blocking plate (202), a first connecting hole (305) is formed in the top of the first partition plate (304), a fifth spring (306) is fixedly connected between the first partition plate (304) and the second water pipe (301), a second side hole (307) is formed in one side of the first water pipe (300), a second connecting rod (308) is connected in a sliding manner, and a second connecting rod (310) is connected between the top of the second partition plate (308), and the second partition plate (310) is connected between the second partition plate (308);

the liquid injection structure further comprises a sliding rod (311) fixedly connected to one side of the connecting rod (310), one end of the sliding rod (311) extends into the first water tank (105) and is in sliding connection with the first water tank (105), a plurality of vent holes (312) are formed in one side of the first water tank (105), a blocking piece (313) is fixedly connected to one end, away from the connecting rod (310), of the sliding rod (311), and a blocking rod (314) which is in sliding sleeve with the vent holes (312) is fixedly connected to one side of the blocking piece (313);

the driving structure comprises a third gear (402) fixedly sleeved at one end of the rotating shaft (400), the top of the bottom plate (100) is fixedly connected with a bottom bracket (403), the top of the bottom bracket (403) is fixedly connected with a driving motor (404), and one end of a driving shaft of the driving motor (404) is fixedly connected with a fourth gear (405) matched with the third gear (402);

the driving structure further comprises a fifth gear (406) rotatably connected to two sides of the cleaning box (103), a second chain (407) is connected between the fifth gear (406) and the rotating shaft (400), sliding channels (408) are respectively formed in two sides of the cleaning box (103), sliding plates (418) are respectively fixedly connected to two sides of the first baffle (107), the sliding plates (418) are slidably connected to the sliding channels (408), sliding bars (409) are respectively fixedly connected to two sides of the second baffle (108), a third rack (410) is fixedly connected to the tops of the sliding bars (409), the sliding bars (409) are slidably connected to the sliding channels (408), a fourth rack (411) is fixedly connected to the bottoms of the sliding plates (418), side brackets (412) are respectively fixedly connected to two sides of the cleaning box (103), a sixth gear (413) is rotatably connected to the side brackets (412), the sixth gear (413) is meshed with the third rack (410) and the fourth rack (411), a fifth gear (415) is slidably connected to the tops of the sliding grooves (414), and a scroll spring (414) is slidably connected to the sliding grooves (414), a limiting rod (416) is fixedly connected to one side of the inside of the sliding groove (414), the limiting rod (416) is connected with the fifth rack (415) in a sliding mode, and a sixth spring (417) is fixedly connected between the fifth rack (415) and one side of the inside of the sliding groove (414).

2. The stainless steel metal recycling device according to claim 1, wherein two sides of the cleaning box (103) are respectively provided with a limiting groove (500), a supporting rod (501) is fixedly connected to the top of the bottom plate (100), a sliding hole (502) is formed in one side of the supporting rod (501), a limiting block (503) matched with the limiting groove (500) is slidably connected in the sliding hole (502), a seventh spring (504) is fixedly connected between the limiting block (503) and the supporting rod (501), a connecting hole (505) is formed in one side of the supporting rod (501), an abutting rod (506) slidably connected with the connecting hole (505) is fixedly connected to one side of the limiting block (503), and an abutting plate (507) is fixedly connected to one side of the sliding plate (418).

3. A stainless steel metal recycling method applied to the stainless steel metal recycling apparatus according to any one of claims 1 to 2, characterized in that: the method comprises the following specific steps:

the method comprises the following steps: continuously injecting cleaning liquid into the second water tank (106), wherein the cleaning liquid flows into the first water tank (105) until the first water tank (105) is filled;

step two: leftover materials needing to be cleaned can be put into the hopper (101), the leftover materials in the hopper (101) fall into the blocking frame (104) and fall into the cleaning box (103) through the first blanking port (200) and the second blanking port (203);

step three: the cleaning box (103) receives materials to be cleaned, gradually moves downwards due to gravity, and triggers the quantitative structure until materials with certain weight are received in the cleaning box (103);

step four: the quantitative structure slides the two material blocking plates (202), the first blanking port (200) and the second blanking port (203) are staggered, and leftover materials are temporarily received by the blocking frame (104);

step five: the liquid injection structure opens the bottom of the first water tank (105), and closes the joint of the second water tank (106) and the first water tank (105), and the cleaning liquid temporarily stored in the first water tank (105) can flow into the cleaning tank (103) to contact with and soak leftover materials stained with the milling liquid;

step six: the driving structure rotates the rotating shaft (400), the rotating shaft (400) rotates to drive the shifting sheet (401) to shift leftover materials and cleaning liquid in the cleaning box (103), and the leftover materials are cleaned in a stirring mode.

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