CN114367520A

CN114367520A - Casting waste residue environmental protection recovery processing device

Info

Publication number: CN114367520A
Application number: CN202210018739.XA
Authority: CN
Inventors: 孙辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-09
Filing date: 2022-01-09
Publication date: 2022-04-19
Anticipated expiration: 2042-01-09
Also published as: CN114367520B

Abstract

The invention discloses an environment-friendly recovery processing device for casting waste residues, which comprises a material, a conveying mechanism, a separating and crushing mechanism, a transferring mechanism and a screening mechanism, wherein the conveying mechanism is used for conveying the material to a separating and crushing mechanism; the material is placed on the conveying mechanism; the conveying mechanism is fixedly arranged at one end of the separation crushing mechanism; the transfer mechanism is fixedly arranged below the separation crushing mechanism; the screening mechanism is fixedly arranged at the other end of the separation crushing mechanism; the conveying mechanism comprises a motor I, a transmission belt I, a transmission gear, a transmission shaft I, a fixing frame, a conveying belt, a supporting plate, supporting legs and a protective plate; motor I fixed mounting is in mount one side. The invention can effectively separate the iron slag formed by the molten iron scattered in the casting sand from the iron slag generated during the die sinking and shaping in the using process, effectively solves the problem of overlarge dust emission in the separating and recycling process, and has good crushing effect on the sand caked by heating and other reasons.

Description

Casting waste residue environmental protection recovery processing device

Technical Field

The invention belongs to the technical field of waste residue treatment, and particularly relates to an environment-friendly recovery treatment device for casting waste residue.

Background

In the casting industry, a large amount of waste residues are generated after casting is finished every time, and the conventional recovery processing device for the casting waste residues has the following problems:

1) in the casting and pouring process, molten iron splashes, and when the pouring is started and finished, the molten iron flows out of slag, so that the molten iron is mixed with sand and soil for casting, and iron slag is scattered in the die sinking and shaping process, so that raw materials are wasted;

2) in the existing casting waste residue recovery process, the dust of sand is large, which is not beneficial to environmental protection;

3) the sandy soil is influenced by high-temperature molten iron in the casting process, can agglomerate, and can influence the use of a subsequent casting mold and the molding quality of a mold if the sandy soil cannot be effectively crushed in the subsequent recovery process.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an environment-friendly recycling treatment device for casting waste residues, which can effectively separate iron residues formed by molten iron scattered in casting sand from iron residues generated during mold opening and shaping in the using process, effectively solve the problem of overlarge dust in the separating and recycling process and have good crushing effect on heated and agglomerated sand due to other reasons.

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

an environment-friendly recovery processing device for casting waste residues comprises a material, a conveying mechanism, a separating and crushing mechanism, a transferring mechanism and a screening mechanism; the materials are placed on the conveying mechanism; the conveying mechanism is fixedly arranged at one end of the separation crushing mechanism; the transfer mechanism is fixedly arranged below the separation crushing mechanism; the screening mechanism is fixedly arranged at the other end of the separation crushing mechanism; the material gets into the broken mechanism of separation through conveying mechanism, carries out the breakage to caking etc. in the material, retrieves the casting sand through transport mechanism and recycles, retrieves the scum in the material through screening mechanism.

The conveying mechanism comprises a motor I, a transmission belt I, a transmission gear, a transmission shaft I, a fixing frame, a conveying belt, a supporting plate, supporting legs, a protection plate and a bearing plate; the motor I is fixedly arranged on one side of the fixing frame; the motor I is rotatably connected with the transmission gear through a transmission belt I; the fixed frame is provided with a plurality of transmission shafts I and bearing plates which are uniformly arranged, and the bearing plates are arranged between the adjacent transmission shafts I and used for supporting the conveying belt and the materials; two ends of the transmission shaft I are provided with transmission gears; a tooth socket is arranged on the side edge of the conveying belt, and the transmission gear teeth are meshed with the tooth socket; a conveying belt is arranged between the transmission shafts I; one end of the conveying belt is provided with a supporting plate; one side of the supporting plate is provided with a protective plate; and a plurality of supporting legs are fixedly arranged on one side of the fixing frame.

The separation and crushing mechanism comprises a water tank, a water outlet pipe I, a spray head, a rotary barrel, rotary fins, a fixing ring, iron leather balls, a lantern ring, a fixing seat, a supporting plate, a motor II, a rotary wheel, a connecting plate, a water outlet pipe II, a connecting block, a water inlet hole, a filter screen, a leakage opening, a discharge plate, a leakage net and a vibration pump; lantern rings are fixedly connected to two ends of the rotary barrel, and the rotary barrel is integrally installed in an inclined manner at an angle of 5-8 degrees; a fixed seat is fixedly arranged at the bottom end of the rotary barrel; the fixed seat is provided with a rotating wheel which is attached to the lantern ring; the fixed seat is rotationally connected with the rotating wheel; a connecting plate is arranged between the fixed seats; a supporting plate is arranged on one side of the fixed seat; a motor II is arranged on one side of the supporting plate; an output shaft of the motor II is connected with a rotating wheel on the fixed seat; a water tank is fixedly arranged on one side of the rotary barrel; a water outlet pipe II and a water outlet pipe I are arranged on two sides of the water tank; one end of the water outlet pipe I is arranged in the rotary barrel cavity; one end of the water outlet pipe I is uniformly provided with a plurality of spray heads; the inner wall of the rotary barrel is provided with rotary fins; the inner wall of the rotary barrel is provided with two fixing rings; iron ball is arranged between the fixing rings; one end of the rotary barrel is rotatably connected with the connecting block; the connecting block is of a hollow structure, the upper end of the connecting block is provided with a water inlet, the middle of the connecting block is provided with a filter screen, and the lower end of the connecting block is provided with a leakage opening; the water outlet pipe II is communicated to the water inlet hole; one end of the connecting block is provided with a discharging plate; a leakage net is arranged on the discharging plate; and a vibration pump is arranged on one side of the discharge plate.

The transfer mechanism comprises a material receiving box, a sieve mesh I, a transfer belt, a sieve mesh II, a hot oven, a motor III, a transmission belt II and a transmission shaft II; the material receiving box is fixedly arranged at the lower end of the separation crushing mechanism; the bottom of the material receiving box is provided with a sieve mesh I; a transfer belt is arranged on one side of the material receiving box; the transfer belt is provided with a sieve mesh II; a hot oven is arranged above the transfer belt; two ends of the transfer belt are rotatably connected with a transmission shaft II; and the transmission shaft II is rotatably connected with a motor III through a transmission belt II.

The screening mechanism comprises a motor IV, a transmission belt III, a magnetic transmission belt, a collection box, a transmission shaft III, a waste bin, a scraper I and a scraper II; the magnetic conveyor belt is fixedly arranged at one end of the separation and crushing mechanism; two ends of the magnetic conveyor belt are rotatably connected with a transmission shaft III; the transmission shaft III is rotatably connected with a motor IV through a transmission belt III; a scraper I is arranged at the bottom of the magnetic conveyor belt; one side of the scraper I is provided with the same scraper II; a waste box is arranged at one end of the magnetic conveying belt; and collecting boxes are arranged at the bottoms of the second scraper blade and the first scraper blade.

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

1) the conveying mechanism comprises a supporting plate and a protective plate; the waste residue material after casting is conveyed to the separation and crushing mechanism through the conveyor belt, the supporting plate prevents the material from scattering in the conveying process, and the protective plate plays a role in protecting the conveying process;

2) the separation and crushing mechanism comprises a spray head, a fixing ring, an iron sheet ball, a water outlet pipe II, a water inlet hole, a filter screen and a leakage opening; after the conveying mechanism conveys the materials to the separation crushing mechanism, water is sprayed in a spray head to wet the materials, dust raising in the subsequent process is reduced, the materials are slowly pushed forwards in a rotary barrel under the crushing and pushing actions of a rotary wing, some caking materials are further rolled when passing through an iron sheet ball under the condition that the rotary wing cannot be crushed, caking sand materials are crushed, iron slag in waste materials is prevented from being crushed, the shape of the caking materials is ensured to be larger, when the materials pass through a filter screen, sand falls to a transfer mechanism in a fine filter screen, a water outlet pipe II further controls the dust raising during falling and the subsequent cleaning of the filter screen, the iron slag with the larger shape and the harder caking materials fall to a discharge plate under the floating of the fine sand soil and enter a screening mechanism;

3) the transfer mechanism comprises a material receiving box, a sieve mesh I, a transfer belt, a sieve mesh II and a hot oven; the casting sandy soil crushed by the separating and crushing mechanism falls into a material receiving box, excessive moisture falls through a sieve mesh I, and the rest moisture is further evaporated when the casting sandy soil passes through a hot oven, so that the casting sandy soil is recycled;

4) the screening mechanism comprises a magnetic conveyor belt, a scraper I and a scraper II; under the effect of magnetism conveyer belt, the iron slag will be sent the caking to the dump bin with the firm caking that is not broken, will transport the iron slag to the bottom and lean on scraper blade I and scraper blade II to scrape to the collecting box and accomplish and retrieve.

Drawings

FIG. 1 is a schematic structural view of an environment-friendly recycling device for casting waste residues;

FIG. 2 is a schematic structural diagram of a conveying mechanism in the casting waste residue environment-friendly recycling device;

FIG. 3 is a schematic structural diagram of a separating and crushing mechanism in the casting waste residue environment-friendly recycling device of the invention;

FIG. 4 is a schematic structural diagram of a transfer mechanism and a screening mechanism in the casting waste residue environment-friendly recycling device;

FIG. 5 is a schematic structural diagram of a screening mechanism in the casting waste residue environment-friendly recovery processing device;

FIG. 6 is a schematic diagram of the internal structure of a separating and crushing mechanism in the casting waste residue environment-friendly recycling device;

in the figure: 1. material preparation; 2. a conveying mechanism; 201. a motor I; 202. a transmission belt I; 203. a transmission gear; 204. a transmission shaft I; 205. a fixed mount; 206. a conveyor belt; 2061. a tooth socket; 207. a support plate; 208. a support leg; 209. a protection plate; 210. a carrier plate; 3. a separating and crushing mechanism; 301. a water tank; 302. a water outlet pipe I; 303. a spray head; 304. rotating the barrel; 305. a rotating fin; 306. a fixing ring; 307. iron ball; 308. a collar; 309. a fixed seat; 310. a support plate; 311. a motor II; 312. a rotating wheel; 313. a connecting plate; 314. a water outlet pipe II; 315. connecting blocks; 316. a water inlet hole; 317. a filter screen; 318. a leak port; 319. a discharge plate; 320. a leakage net; 321. vibrating the pump; 4. a transfer mechanism; 401. a material receiving box; 402. sieve pores I; 403. a transfer belt; 404. sieve pores II; 405. a hot oven; 406. a motor III; 407. a transmission belt II; 408. a transmission shaft II; 5. a screening mechanism; 501. a motor IV; 502. a transmission belt III; 503. a magnetic conveyor belt; 504. a collection box; 505. a transmission shaft III; 506. a waste bin; 507. a scraping plate I; 508. and a scraper II.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 6.

An environment-friendly recovery processing device for casting waste residues comprises a material 1, a conveying mechanism 2, a separating and crushing mechanism 3, a transferring mechanism 4 and a screening mechanism 5; the material 1 is placed on the conveying mechanism 2; the conveying mechanism 2 is fixedly arranged at one end of the separation crushing mechanism 3; the transfer mechanism 4 is fixedly arranged below the separation crushing mechanism 3; the screening mechanism 5 is fixedly arranged at the other end of the separation crushing mechanism 3; material 1 gets into separation crushing mechanism 3 through conveying mechanism 2, carries out the breakage to the caking etc. in the material, retrieves the recycling through transport mechanism 4 with the casting sand, retrieves the scum in the material through screening mechanism 5.

The conveying mechanism 2 comprises a motor I201, a transmission belt I202, a transmission gear 203, a transmission shaft I204, a fixing frame 205, a conveying belt 206, a supporting plate 207, supporting legs 208, a protective plate 209 and a bearing plate 210; the motor I201 is fixedly arranged on one side of the fixing frame 205; the motor I201 is rotatably connected with a transmission gear 203 through a transmission belt I202; the fixing frame 205 is provided with a plurality of transmission shafts I204 and bearing plates 210 which are uniformly arranged, and the bearing plates 210 are arranged between the adjacent transmission shafts I204 and used for supporting the conveying belt 206 and the material 1; two ends of the transmission shaft I204 are provided with transmission gears 203; a tooth socket 2061 is arranged at the side edge of the conveying belt 206, and the transmission gear 203 is engaged with the tooth socket 2061; a conveying belt 206 is arranged between the transmission shafts I204; a supporting plate 207 is arranged at one end of the conveying belt 206; one side of the supporting plate 207 is provided with a protective plate 209; a plurality of supporting legs 208 are fixedly arranged on one side of the fixing frame 205; the waste residue material 1 after casting is sent to the separation crushing mechanism 3 through the conveyer belt 206, and the layer board 207 prevents that material 1 from scattering in transportation process, and the guard plate 209 plays the guard action to transportation process.

The separation and crushing mechanism 3 comprises a water tank 301, a water outlet pipe I302, a spray head 303, a rotary barrel 304, a rotary fin 305, a fixing ring 306, an iron ball 307, a lantern ring 308, a fixing seat 309, a supporting plate 310, a motor II 311, a rotating wheel 312, a connecting plate 313, a water outlet pipe II 314, a connecting block 315, a water inlet hole 316, a filter screen 317, a leakage opening 318, a discharge plate 319, a leakage net 320 and a vibration pump 321; lantern rings 308 are fixedly connected to two ends of the rotary barrel 304, and the rotary barrel 304 is integrally installed in an inclined manner at an angle of 5-8 degrees; a fixed seat 309 is fixedly arranged at the bottom end of the rotary barrel 304; a rotating wheel 312 is arranged on the fixed seat 309, and the rotating wheel 312 is attached to the lantern ring 308; the fixed seat 309 is rotationally connected with the rotating wheel 312; a connecting plate 313 is arranged between the fixed seats 309; a supporting plate 310 is arranged on one side of the fixed seat 309; one side of the supporting plate 310 is provided with a motor II 311; the output shaft of the motor II 311 is connected with a rotating wheel 312 on the fixed seat 309; a water tank 301 is fixedly arranged on one side of the rotary barrel; a water outlet pipe II 314 and a water outlet pipe I302 are arranged on two sides of the water tank 301; one end of the water outlet pipe I302 is arranged in the rotary barrel cavity; one end of the water outlet pipe I302 is uniformly provided with a plurality of spray heads 303; the inner wall of the rotary barrel is provided with a rotary fin 305; the inner wall of the rotary barrel is provided with two fixing rings 306; iron ball 307 is arranged between the fixing rings 306; one end of the rotary barrel is rotatably connected with the connecting block 315; the connecting block 315 is of a hollow structure, the upper end of the connecting block is provided with a water inlet 316, the middle of the connecting block is provided with a filter screen 317, and the lower end of the connecting block is provided with a leakage opening 318; the water outlet pipe II 314 is communicated to a water inlet hole 316; one end of the connecting block 315 is provided with a discharge plate 319; a leakage net 320 is arranged on the discharging plate 319; a vibration pump 321 is arranged on one side of the discharging plate 319; after the conveying mechanism 2 conveys the material 1 to the separating and crushing mechanism 3, the spray head 303 sprays water to wet the material 1, thereby reducing raised dust in the subsequent process, and under the crushing and propelling actions of the rotating fin 305, the material 1 is slowly propelled forwards in the rotating barrel 304, and meanwhile, the iron leather ball 307 rolls in the fixed ring 306; some caking are under the unable broken circumstances of rotatory wing 305, when passing through iron sheet ball 307, will further receive and roll, the sand material that will agglomerate is smashed, guarantee simultaneously that the iron slag in the waste material is unlikely to be smashed, guarantee its shape great, when material 1 passes through filter screen 317, the sand falls to transport mechanism 4 in fine filter screen 317, raise dust and subsequent washing of filter screen 317 when outlet pipe II 314 will further control the whereabouts, the iron slag that the shape is great and comparatively hard caking falls onto play flitch 319 under the float of fine sand, get into screening mechanism 5.

The transfer mechanism 4 comprises a material receiving box 401, a sieve mesh I402, a transfer belt 403, a sieve mesh II 404, a hot oven 405, a motor III 406, a transmission belt II 407 and a transmission shaft II 408; the material receiving box 401 is fixedly arranged at the lower end of the separation crushing mechanism 3; the bottom of the material receiving box 401 is provided with a sieve hole I402; a transfer belt 403 is arranged on one side of the material receiving box 401; the transfer belt 403 is provided with a sieve pore II 404; a hot oven 405 is arranged above the transfer belt 403; two ends of the transfer belt 403 are rotatably connected with a transmission shaft II 408; the transmission shaft II 408 is rotatably connected with a motor III 406 through a transmission belt II 407; the casting sandy soil crushed by the separation crushing mechanism 3 falls into a material receiving box 401, excessive moisture falls through a sieve mesh I402, and the rest moisture is further evaporated when the casting sandy soil passes through a hot oven 405, so that the casting sandy soil is recycled.

The screening mechanism 5 comprises a motor IV 501, a transmission belt III 502, a magnetic transmission belt 503, a collection box 504, a transmission shaft III 505, a waste bin 506, a scraper I507 and a scraper II 508; the magnetic conveyor belt 503 is fixedly arranged at one end of the separation and crushing mechanism 3; two ends of the magnetic conveyor belt 503 are rotatably connected with a transmission shaft III 505; the transmission shaft III 505 is rotatably connected with a motor IV 501 through a transmission belt III 502; a scraper I507 is arranged at the bottom of the magnetic conveyor belt 503; one side of the scraper I507 is provided with a same scraper II 508; a waste box 506 is arranged at one end of the magnetic conveyor belt 503; the bottoms of the second scraper 508 and the first scraper 507 are provided with a collecting box 504; under the action of the magnetic conveyor belt 503, the iron slag and the unbroken firm lumps are conveyed to a waste bin 506, and the iron slag is conveyed to the bottom and scraped to a collection box 504 by a scraper I507 and a scraper II 508 to be recycled.

The utility model provides a casting waste residue environmental protection recovery processing device, the working process as follows: the waste residue material after casting is conveyed to a separating and crushing mechanism through a conveyor belt, the material is wetted by spraying water in a spray head, dust raising in the subsequent process is reduced, the material is slowly pushed forward in a rotary barrel under the crushing and pushing action of a rotary wing, some caking is further rolled when passing through an iron sheet ball under the condition that the rotary wing cannot be crushed, the caked sand is crushed, the iron slag in the waste material is prevented from being crushed, the shape of the caked sand is ensured to be larger, when the material passes through a filter screen, the sand falls to a transfer mechanism in a fine filter screen, a water outlet pipe II further controls the dust raising during falling and the subsequent cleaning of the filter screen, the iron slag with the larger shape and the harder caking fall to a discharge plate under the floating of the fine sand, and the iron slag and the harder caking enter a screening mechanism; the casting sandy soil crushed by the separating and crushing mechanism falls into a material receiving box, excessive moisture falls through a sieve mesh I, and the rest moisture is further evaporated when the casting sandy soil passes through a hot oven, so that the casting sandy soil is recycled; under the effect of magnetism conveyer belt, the iron slag will be sent the caking to the dump bin with the firm caking that is not broken, will transport the iron slag to the bottom and lean on scraper blade I and scraper blade II to scrape to the collecting box and accomplish and retrieve.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims

1. An environment-friendly recovery processing device for casting waste residues comprises a material, a conveying mechanism, a separating and crushing mechanism, a transferring mechanism and a screening mechanism; the device is characterized in that the materials are placed on a conveying mechanism; the conveying mechanism is fixedly arranged at one end of the separation crushing mechanism; the transfer mechanism is fixedly arranged below the separation crushing mechanism; the screening mechanism is fixedly arranged at the other end of the separation crushing mechanism; the conveying mechanism comprises a motor I, a transmission belt I, a transmission gear, a transmission shaft I, a fixing frame, a conveying belt, a supporting plate, supporting legs, a protection plate and a bearing plate; the motor I is fixedly arranged on one side of the fixing frame; the motor I is rotatably connected with the transmission gear through a transmission belt I; the fixed frame is provided with a plurality of transmission shafts I and bearing plates which are uniformly arranged, and the bearing plates are arranged between the adjacent transmission shafts I and used for supporting the conveying belt and the materials; two ends of the transmission shaft I are provided with transmission gears; a tooth socket is arranged on the side edge of the conveying belt, and the transmission gear teeth are meshed with the tooth socket; a conveying belt is arranged between the transmission shafts I; one end of the conveying belt is provided with a supporting plate; one side of the supporting plate is provided with a protective plate; and a plurality of supporting legs are fixedly arranged on one side of the fixing frame.

2. The environment-friendly casting waste residue recycling device as claimed in claim 1, wherein the separating and crushing mechanism comprises a water tank, a water outlet pipe I, a spray head, a rotating barrel, a rotating fin, a fixing ring, an iron ball, a lantern ring, a fixing seat, a supporting plate, a motor II, a rotating wheel, a connecting plate, a water outlet pipe II, a connecting block, a water inlet hole, a filter screen, a leakage opening, a discharge plate, a leakage net and a vibration pump; lantern rings are fixedly connected to two ends of the rotary barrel, and the rotary barrel is integrally installed in an inclined manner at an angle of 5-8 degrees; a fixed seat is fixedly arranged at the bottom end of the rotary barrel; the fixed seat is provided with a rotating wheel which is attached to the lantern ring; the fixed seat is rotationally connected with the rotating wheel; a connecting plate is arranged between the fixed seats; a supporting plate is arranged on one side of the fixed seat; a motor II is arranged on one side of the supporting plate; an output shaft of the motor II is connected with a rotating wheel on the fixed seat; a water tank is fixedly arranged on one side of the rotary barrel; a water outlet pipe II and a water outlet pipe I are arranged on two sides of the water tank; one end of the water outlet pipe I is arranged in the rotary barrel cavity; one end of the water outlet pipe I is uniformly provided with a plurality of spray heads; the inner wall of the rotary barrel is provided with rotary fins; the inner wall of the rotary barrel is provided with two fixing rings; iron ball is arranged between the fixing rings; one end of the rotary barrel is rotatably connected with the connecting block; the connecting block is of a hollow structure, the upper end of the connecting block is provided with a water inlet, the middle of the connecting block is provided with a filter screen, and the lower end of the connecting block is provided with a leakage opening; the water outlet pipe II is communicated to the water inlet hole; one end of the connecting block is provided with a discharging plate; a leakage net is arranged on the discharging plate; and a vibration pump is arranged on one side of the discharge plate.

3. The environment-friendly casting waste residue recycling device as claimed in claim 1 or 2, wherein the transfer mechanism comprises a material receiving box, a sieve pore I, a transfer belt, a sieve pore II, a heat drying oven, a motor III, a transmission belt II and a transmission shaft II; the material receiving box is fixedly arranged at the lower end of the separation crushing mechanism; the bottom of the material receiving box is provided with a sieve mesh I; a transfer belt is arranged on one side of the material receiving box; the transfer belt is provided with a sieve mesh II; a hot oven is arranged above the transfer belt; two ends of the transfer belt are rotatably connected with a transmission shaft II; and the transmission shaft II is rotatably connected with a motor III through a transmission belt II.

4. The environment-friendly casting waste residue recycling device as claimed in claims 1 to 3, wherein the screening mechanism comprises a motor IV, a transmission belt III, a magnetic transmission belt, a collection box, a transmission shaft III, a waste bin, a scraper I and a scraper II; the magnetic conveyor belt is fixedly arranged at one end of the separation and crushing mechanism; two ends of the magnetic conveyor belt are rotatably connected with a transmission shaft III; the transmission shaft III is rotatably connected with a motor IV through a transmission belt III; a scraper I is arranged at the bottom of the magnetic conveyor belt; one side of the scraper I is provided with the same scraper II; a waste box is arranged at one end of the magnetic conveying belt; and collecting boxes are arranged at the bottoms of the second scraper blade and the first scraper blade.