CN113351615B - Urban household garbage treatment and separation large-block masonry recycling device - Google Patents
Urban household garbage treatment and separation large-block masonry recycling device Download PDFInfo
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- CN113351615B CN113351615B CN202110417536.3A CN202110417536A CN113351615B CN 113351615 B CN113351615 B CN 113351615B CN 202110417536 A CN202110417536 A CN 202110417536A CN 113351615 B CN113351615 B CN 113351615B
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- transmission rod
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- 239000010813 municipal solid waste Substances 0.000 title claims abstract description 79
- 238000004064 recycling Methods 0.000 title claims abstract description 17
- 238000000926 separation method Methods 0.000 title claims abstract description 13
- 239000011449 brick Substances 0.000 claims abstract description 81
- 239000004575 stone Substances 0.000 claims abstract description 63
- 239000002184 metal Substances 0.000 claims abstract description 60
- 229910052751 metal Inorganic materials 0.000 claims abstract description 60
- 238000004140 cleaning Methods 0.000 claims abstract description 26
- 239000010865 sewage Substances 0.000 claims abstract description 12
- 230000005540 biological transmission Effects 0.000 claims description 170
- 238000013519 translation Methods 0.000 claims description 63
- 238000012216 screening Methods 0.000 claims description 32
- 238000011084 recovery Methods 0.000 claims description 19
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 15
- 238000005507 spraying Methods 0.000 claims description 7
- 238000009270 solid waste treatment Methods 0.000 claims description 5
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical group [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims description 3
- 230000007306 turnover Effects 0.000 claims description 3
- 230000001680 brushing effect Effects 0.000 claims description 2
- 150000002739 metals Chemical class 0.000 abstract description 15
- 239000002994 raw material Substances 0.000 abstract description 10
- 238000012958 reprocessing Methods 0.000 abstract description 3
- 238000000034 method Methods 0.000 description 4
- 239000002699 waste material Substances 0.000 description 4
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 240000007643 Phytolacca americana Species 0.000 description 1
- 238000009264 composting Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 239000002689 soil Substances 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 230000009897 systematic effect Effects 0.000 description 1
- 238000012546 transfer Methods 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B09—DISPOSAL OF SOLID WASTE; RECLAMATION OF CONTAMINATED SOIL
- B09B—DISPOSAL OF SOLID WASTE NOT OTHERWISE PROVIDED FOR
- B09B3/00—Destroying solid waste or transforming solid waste into something useful or harmless
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B09—DISPOSAL OF SOLID WASTE; RECLAMATION OF CONTAMINATED SOIL
- B09B—DISPOSAL OF SOLID WASTE NOT OTHERWISE PROVIDED FOR
- B09B5/00—Operations not covered by a single other subclass or by a single other group in this subclass
Landscapes
- Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Processing Of Solid Wastes (AREA)
- Processing Of Stones Or Stones Resemblance Materials (AREA)
Abstract
The invention relates to the field of garbage disposal, in particular to a recycling device for separating large bricks and stones in urban household garbage disposal. The invention aims to provide a recycling device for separating large bricks and stones by urban household garbage treatment. The technical proposal is as follows: a recycling device for separating large bricks from municipal solid waste comprises a bottom frame, a controller, a sewage collecting box, a pre-separation assembly, a large brick cleaning assembly and a brick crushing metal recycling assembly; the chassis is connected with the controller. When the invention is used, the separation of the large bricks and stones from other garbage is realized, the large metals in the garbage are recovered, then the surfaces of the large bricks and stones are cleaned, the influence on later-stage brickmaking is avoided, and then the large bricks and stones are crushed for the second time so as to be used as brickmaking raw materials, and the metals contained in the bricks and stones are recovered at the same time, thereby avoiding the reprocessing after crushing.
Description
Technical Field
The invention relates to the field of garbage disposal, in particular to a recycling device for separating large bricks and stones in urban household garbage disposal.
Background
At present, most cities in China adopt a mixed collection mode, but are not classified, so that various types of garbage are mixed together, the components are complex, the harm caused by urban household garbage is reflected in occupying too much land, the severe environment that the garbage surrounds the cities is formed, the pollution to the atmosphere, underground water sources, soil and crops is caused, the disposal of the urban household garbage is becoming a general concern in the world increasingly, and the urban household garbage is a very difficult comprehensive and systematic engineering, and the main disposal methods at present are a landfill method, a composting method and a heat treatment method.
In the prior art, when urban household garbage is comprehensively treated, garbage is required to be pre-sorted, large bricks and stones in the garbage are separated and crushed to be used as brickmaking raw materials, part of garbage and the large bricks and stones are still mixed together only through volume screening, the large bricks and stones are difficult to separate out singly, a large amount of stains are adhered to the surface of the separated large bricks and stones in the garbage, the separated large bricks and stones are directly crushed to be used as brickmaking raw materials, the quality of the building is possibly influenced, potential safety hazards exist in future construction, meanwhile, part of building residual bricks and stones contain metal, and the metal mixed in the broken bricks and stones are required to be separated again after crushing, so that the treatment workload is increased.
In summary, we provide a recycling device for separating large bricks and stones from municipal solid waste.
Disclosure of Invention
In order to overcome the defects that when urban household garbage is comprehensively treated, garbage is required to be pre-sorted, large bricks and stones in the garbage are separated and crushed to be used as brickmaking raw materials, only part of garbage and the large bricks and stones are mixed together through volume screening, and are difficult to separate out the large bricks and stones independently, a large amount of stains are adhered to the surface of the separated large bricks and stones in the garbage, the separated large bricks and stones are directly crushed to be used as brickmaking raw materials, the quality of brickmaking is possibly influenced, so that potential safety hazards exist in a building constructed in future, meanwhile, part of building residual bricks and stones contain metals, and the mixed metals are required to be separated again after crushing, so that the treatment workload is increased.
The technical proposal is as follows: a recycling device for separating large bricks and stones from municipal solid waste comprises a bottom frame, a controller, a small garbage collecting box, a large garbage collecting box, a metal collecting box, a sewage collecting box, a pre-sorting assembly, a large brick and stone cleaning assembly and a brick and stone crushing metal recycling assembly; the underframe is connected with the controller; the underframe is connected with the small garbage collection box; the underframe is connected with the large garbage collection box; the underframe is connected with the metal collecting box; the underframe is connected with the sewage collecting box; the underframe is connected with the pre-sorting assembly; the underframe is connected with the large brick stone cleaning assembly; the underframe is connected with the masonry crushing metal recovery component; the pre-sorting assembly is connected with the large brick stone cleaning assembly; the large brick stone cleaning component is connected with the brick stone broken metal recovery component.
As a further preferable scheme, the pre-sorting assembly comprises a first driving wheel, a first driving rod, a first shaft sleeve, a first bevel gear, a second bevel gear, a first fixing frame, a first electric push rod, a third bevel gear, a second driving rod, a first connecting plate, a second connecting plate, a deflector rod, a first translation sliding block, a first translation sliding rail, a second translation sliding block, a second translation sliding rail, a third driving rod, a fourth bevel gear, a screening box, an electric baffle, a limiting plate, a feeding hopper, an electric receiving plate, a first guide plate, a first shifting plate, a first electric sliding block and a first electric sliding rail; the first driving wheel is connected with the large brick stone cleaning assembly; the first driving wheel is fixedly connected with a first driving rod; the first transmission rod is rotationally connected with the underframe; the first transmission rod is in sliding connection with the first shaft sleeve; two sides of the first shaft sleeve are fixedly connected with a first bevel gear and a second bevel gear respectively; the first shaft sleeve is rotationally connected with the first fixing frame; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; a third bevel gear is arranged on the side surface of the first bevel gear; when the first bevel gear is meshed with the third bevel gear, the third bevel gear rotates; when the first bevel gear is not meshed with the third bevel gear, the third bevel gear does not rotate; the third bevel gear is fixedly connected with the second transmission rod; the second transmission rod is rotationally connected with the underframe; the second transmission rod is fixedly connected with the first connecting plate; the first connecting plate is in transmission connection with the second connecting plate through a rotating shaft; the second connecting plate is in transmission connection with the deflector rod; the deflector rod is fixedly connected with the first translation sliding block; the deflector rod is in transmission connection with the limiting plate; the first translation sliding block is in sliding connection with the first translation sliding rail; the first translation sliding rail is fixedly connected with the underframe; the second translation sliding block is fixedly connected with the first translation sliding block through a connecting block; the second translation sliding block is in sliding connection with the second translation sliding rail; the second translation sliding rail is fixedly connected with the underframe; the third transmission rod is rotationally connected with the second translation sliding block; the third transmission rod is fixedly connected with a fourth bevel gear; the third transmission rod is fixedly connected with the screening box; the two sides of the screening box are symmetrically provided with a second translation sliding block, a second translation sliding rail and a third transmission rod; the screening box is rotationally connected with the electric baffle; a group of electric baffles are symmetrically arranged at two ends of the screening box; the limiting plate is rotationally connected with the first translation sliding rail through a rotating shaft; a feed hopper is arranged above the screening box; the feed hopper is fixedly connected with the underframe; an electric receiving plate is arranged below the feeding hopper; the electric receiving plate is rotationally connected with the underframe; a first guide plate is arranged below the side surface of the electric baffle; the first guide plate is fixedly connected with the underframe; the side surface of the second connecting plate is provided with a first shifting plate; the first shifting plate is fixedly connected with the first electric sliding block; the first electric sliding block is in sliding connection with the first electric sliding rail; the first electric sliding rail is fixedly connected with the underframe.
As a further preferable scheme, the large-block masonry cleaning assembly comprises a first motor, a fourth transmission rod, a second shaft sleeve, a second fixing frame, a second electric push rod, a fifth bevel gear, a sixth bevel gear, a fifth transmission rod, a turnover plate, a second shifting plate, a second driving wheel, a third driving wheel, a seventh bevel gear, an electromagnet, a third electric push rod, a second electric sliding block, a second electric sliding rail, a conveying belt, an eighth bevel gear, a sixth transmission rod, a ninth bevel gear, a tenth bevel gear, a seventh transmission rod, a hairbrush roller, a first flat gear, a U-shaped plate, a water sprayer, a brushing plate and an elastic piece; the first motor is fixedly connected with the underframe; the output shaft of the first motor is fixedly connected with a fourth transmission rod; the fourth transmission rod is rotationally connected with the underframe; the fourth transmission rod is in sliding connection with the second sleeve; the second sleeve is rotationally connected with the second fixing frame; the second fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; the fifth bevel gear is fixedly connected with the second sleeve; a sixth bevel gear is arranged on the side surface of the fifth bevel gear; when the sixth bevel gear is meshed with the fifth bevel gear, the sixth bevel gear rotates; when the sixth bevel gear is not meshed with the fifth bevel gear, the sixth bevel gear does not rotate; the sixth bevel gear is fixedly connected with a fifth transmission rod; the fifth transmission rod is rotationally connected with the underframe; the fifth transmission rod is fixedly connected with the overturning plate; a second shifting plate is arranged above the overturning plate; the second shifting plate is fixedly connected with the underframe; the second driving wheel, the third driving wheel and the seventh bevel gear are fixedly connected with a fourth driving rod; the second driving wheel is in driving connection with the first driving wheel through a belt; the third driving wheel is connected with the masonry crushing metal recovery component; the seventh bevel gear is meshed with the eighth bevel gear; an electromagnet is arranged on the side face of the fourth transmission rod; the electromagnet is fixedly connected with the third electric push rod; the third electric push rod is fixedly connected with the second electric sliding block; the second electric sliding block is in sliding connection with the second electric sliding rail; the second electric sliding rail is fixedly connected with the underframe; a conveyor belt is arranged below the electromagnet; the conveyor belt is fixedly connected with the underframe; the eighth bevel gear is fixedly connected with a sixth transmission rod; the sixth transmission rod is rotationally connected with the underframe; the sixth transmission rod is fixedly connected with a ninth bevel gear; the ninth bevel gear is meshed with the tenth bevel gear; the tenth bevel gear is fixedly connected with a seventh transmission rod; the seventh transmission rod is rotationally connected with the underframe; the seventh transmission rod is rotationally connected with the U-shaped plate; the seventh transmission rod is fixedly connected with the brush roller; the seventh transmission rod is fixedly connected with the first flat gear; the U-shaped plate is fixedly connected with the underframe; five groups of seventh transmission rods, brush rollers and first flat gears are equidistantly arranged between two sides of the U-shaped plate, and the five groups of first flat gears are meshed in sequence; a water sprayer is arranged above the brush roller; the water spraying machine is fixedly connected with the underframe; a brush plate is arranged below the side surface of the water spraying machine; two groups of elastic pieces are symmetrically arranged on two sides of the brush plate; the two groups of elastic pieces are fixedly connected with the brush plate; both groups of elastic pieces are fixedly connected with the underframe.
As a further preferable scheme, the masonry crushing metal recovery assembly comprises a fourth driving wheel, an eighth driving rod, a fifth driving wheel, a cam, a sixth driving wheel, a ninth driving rod, a special gear, a second flat gear, an electromagnetic roller, a disc, a fixed shaft, a lifting sliding block, a lifting sliding rail frame, a spring, a pressing plate, a second guide plate, a first crushing roller, a third flat gear, a fourth flat gear, a second crushing roller and a second motor; the fourth driving wheel is in driving connection with the third driving wheel through a belt; the fourth driving wheel is fixedly connected with an eighth driving rod; the eighth transmission rod is rotationally connected with the underframe; the eighth transmission rod is fixedly connected with the fifth transmission wheel; the fifth driving wheel is in driving connection with the sixth driving wheel through a belt; the cam is fixedly connected with an eighth transmission rod; the sixth driving wheel is fixedly connected with a ninth driving rod; the ninth transmission rod is rotationally connected with the underframe; the ninth transmission rod is fixedly connected with the different gear; the different gear is meshed with the second flat gear; the second flat gear is fixedly connected with the electromagnetic roller; the electromagnetic roller is rotationally connected with the underframe; a disc is arranged below the cam; the disc is fixedly connected with the fixed shaft; the fixed shaft is fixedly connected with the lifting slide block; the lifting sliding block is in sliding connection with the lifting sliding rail frame; the lifting slide block is fixedly connected with the pressing plate; the lifting sliding rail frame is fixedly connected with the underframe; the lifting sliding rail frame is fixedly connected with the spring; the spring is fixedly connected with the lifting slide block; a group of springs are symmetrically arranged on two sides of the lifting sliding block; the two sides of the pressing plate are symmetrically provided with a lifting sliding block, a lifting sliding rail frame and a spring combination; a second guide plate is arranged below the pressing plate; the second guide plate is fixedly connected with the underframe; a first crushing roller is arranged above the second guide plate; the first crushing roller is fixedly connected with the third flat gear; the first crushing roller is rotationally connected with the underframe; the third flat gear is meshed with the fourth flat gear; the fourth flat gear is fixedly connected with the second crushing roller; the second crushing roller is rotationally connected with the underframe; the output shaft of the second motor is fixedly connected with the first crushing roller; the second motor is fixedly connected with the underframe.
As a further preferred embodiment, the second sliding rail is provided with a rectangular groove on its side.
As a further preferable scheme, a plurality of groups of elastic poking sheets are arranged below the first poking plate and the second poking plate.
As a further preferred solution, the outer circumferential surfaces of the first crushing roller and the second crushing roller are provided with mutually staggered projections.
As a further preferable scheme, the outer ring surface of the electromagnetic roller is provided with a plurality of groups of semicircular iron rings.
Compared with the prior art, the invention has the following advantages:
1. in order to solve the problems that in the prior art, when urban household garbage is comprehensively treated, garbage is required to be pre-sorted, large bricks and stones in the garbage are separated and crushed to be used as brickmaking raw materials, part of garbage and the large bricks and stones are still mixed together only through volume screening, the large bricks and stones are difficult to separate out singly, a large amount of stains are adhered to the surface of the separated large bricks and stones in the garbage, the separated large bricks and stones are directly crushed and then used as brickmaking raw materials, the quality of brickmaking is possibly influenced, potential safety hazards exist in a building constructed in the future, meanwhile, part of building residual bricks and stones contain metal, and the metal mixed in the broken bricks and stones are required to be separated again after crushing, so that the treatment workload is increased.
2. The device is placed on a horizontal plane, a power supply is connected, the simply crushed garbage is poured into the pre-sorting assembly on the underframe, the pre-sorting assembly is controlled by the controller to pre-sort the garbage, the large-sized bricks and other garbage are separated, the small-sized garbage is collected in the small-sized garbage collection box, the large-sized garbage is collected in the large-sized garbage collection box, then the large-sized bricks are conveyed into the large-sized brick cleaning assembly for treatment, the large-sized metals possibly mixed in the large-sized metals are separated and collected in the metal collection box, stains on the surface of the large-sized bricks are cleaned, generated sewage is collected in the sewage collection box, and finally the large-sized bricks are conveyed to the brick crushing metal recovery assembly for secondary crushing, and metals possibly contained in the bricks are recovered.
3. When the invention is used, the separation of the large bricks and stones from other garbage is realized, the large metals in the garbage are recovered, the resources are fully recovered, then the surfaces of the large bricks and stones are cleaned, the influence on the later-stage brickmaking is avoided, and the large bricks and stones are crushed for the second time so as to be used as brickmaking raw materials, and the metals contained in the large bricks and stones are recovered at the same time, thereby avoiding the reprocessing after the crushing.
Drawings
FIG. 1 is a schematic perspective view of a first embodiment of the present invention;
FIG. 2 is a schematic view of a second perspective structure of the present invention;
FIG. 3 is a schematic view of a first perspective of a preseparation assembly of the present invention;
FIG. 4 is a schematic view of a second perspective of the preseparation assembly of the present invention;
FIG. 5 is a schematic view of a first perspective view of a bulk masonry cleaning assembly according to the present invention;
FIG. 6 is a schematic view of a second perspective view of a bulk masonry cleaning assembly according to the present invention;
fig. 7 is a schematic perspective view of a masonry crushing metal recovery assembly according to the present invention.
Wherein: 1-a chassis, 2-a controller, 3-a small garbage collection box, 4-a large garbage collection box, 5-a metal collection box, 6-a sewage collection box, 7-a pre-sorting assembly, 8-a large masonry cleaning assembly, 9-a masonry broken metal recycling assembly, 701-a first driving wheel, 702-a first driving rod, 703-a first shaft sleeve, 704-a first bevel gear, 705-a second bevel gear, 706-a first fixing frame, 707-a first electric push rod, 708-a third bevel gear, 709-a second driving rod, 710-a first connecting plate, 711-a second connecting plate, 712-a deflector rod, 713-a first translation slide, 714-a first translation slide rail, 715-a second translation slide rail, 716-a second translation slide rail, 717-third transmission rod, 718-fourth bevel gear, 719-screening box, 720-electric baffle, 721-limit plate, 722-feed hopper, 723-electric receiving plate, 724-first guide plate, 725-first guide plate, 726-first electric slide, 727-first electric slide, 801-first motor, 802-fourth transmission rod, 803-second shaft, 804-second fixing frame, 805-second electric push rod, 806-fifth bevel gear, 807-sixth bevel gear, 808-fifth transmission rod, 809-turnover plate, 810-second guide plate, 811-second transmission wheel, 812-third transmission wheel, 813-seventh bevel gear, 814-electromagnet, 815-third electric push rod, 816-second electric slide, 817-second electric slide rails, 818-conveyor belts, 819-eighth bevel gears, 820-sixth transmission rods, 821-ninth bevel gears, 822-tenth bevel gears, 823-seventh transmission rods, 824-brush rolls, 825-first flat gears, 826-U-shaped plates, 827-sprayers, 828-brush plates, 829-elastic members, 901-fourth transmission wheels, 902-eighth transmission rods, 903-fifth transmission wheels, 904-cams, 905-sixth transmission wheels, 906-ninth transmission rods, 907-iso gears, 908-second flat gears, 909-electromagnetic rolls, 910-discs, 911-fixed shafts, 912-lifting sliders, 913-lifting slide rails, 914-springs, 915-pressing plates, 916-second guide plates, 917-first crushing rolls, 918-third flat gears, 919-fourth flat gears, 920-second crushing rolls, 921-second motors.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
The utility model provides a municipal solid waste treatment separation large-block masonry recycling device, as shown in figures 1-7, which comprises a chassis 1, a controller 2, a small-block waste collection box 3, a large-block waste collection box 4, a metal collection box 5, a sewage collection box 6, a pre-separation assembly 7, a large-block masonry cleaning assembly 8 and a masonry crushing metal recycling assembly 9; the underframe 1 is connected with the controller 2; the underframe 1 is connected with the small garbage collection box 3; the underframe 1 is connected with a large garbage collection box 4; the underframe 1 is connected with a metal collecting box 5; the underframe 1 is connected with the sewage collecting box 6; the underframe 1 is connected with the pre-sorting assembly 7; the underframe 1 is connected with a large brick stone cleaning assembly 8; the underframe 1 is connected with a masonry crushing metal recovery assembly 9; the pre-sorting assembly 7 is connected with the large-block brick stone cleaning assembly 8; the large-block masonry cleaning assembly 8 is connected with a masonry crushing metal recovery assembly 9.
Working principle: when the device is ready to work, the device is placed on a horizontal plane, a power supply is connected, the simply crushed garbage is poured into a pre-sorting assembly 7 on a chassis 1, the pre-sorting assembly 7 is controlled by a controller 2 to pre-sort the garbage, large bricks and other garbage are separated, small garbage is collected in a small garbage collection box 3, large garbage is collected in a large garbage collection box 4, then the large bricks are conveyed to a large brick cleaning assembly 8 for treatment, large metals possibly mixed in the large bricks are separated and collected in a metal collection box 5, stains on the surfaces of the large bricks are cleaned, generated sewage is collected in a sewage collection box 6, and finally the large bricks are conveyed to a brick crushing metal recovery assembly 9 for secondary crushing and recovery of metals possibly contained in the bricks; when the invention is used, the separation of the large bricks and stones from other garbage is realized, the large metals in the garbage are recovered, the resources are fully recovered, then the surfaces of the large bricks and stones are cleaned, the influence on the later-stage brickmaking is avoided, and the large bricks and stones are crushed for the second time so as to be used as brickmaking raw materials, and the metals contained in the large bricks and stones are recovered at the same time, thereby avoiding the reprocessing after the crushing.
The pre-sorting assembly 7 comprises a first driving wheel 701, a first driving rod 702, a first shaft sleeve 703, a first bevel gear 704, a second bevel gear 705, a first fixing frame 706, a first electric push rod 707, a third bevel gear 708, a second driving rod 709, a first connecting plate 710, a second connecting plate 711, a deflector 712, a first translation sliding block 713, a first translation sliding rail 714, a second translation sliding block 715, a second translation sliding rail 716, a third driving rod 717, a fourth bevel gear 718, a screening box 719, an electric baffle 720, a limiting plate 721, a feeding hopper 722, an electric receiving plate 723, a first guide plate 724, a first deflector 725, a first electric sliding block 726 and a first electric sliding rail 727; the first driving wheel 701 is connected with the large brick stone cleaning assembly 8; the first driving wheel 701 is fixedly connected with a first driving rod 702; the first transmission rod 702 is rotatably connected with the chassis 1; the first transmission rod 702 is in sliding connection with the first shaft sleeve 703; two sides of the first shaft sleeve 703 are fixedly connected with a first bevel gear 704 and a second bevel gear 705 respectively; the first shaft sleeve 703 is rotatably connected with the first fixing frame 706; the first fixing frame 706 is fixedly connected with the first electric push rod 707; the first electric push rod 707 is fixedly connected with the chassis 1; a third bevel gear 708 is provided on the side of the first bevel gear 704; when the first bevel gear 704 is meshed with the third bevel gear 708, the third bevel gear 708 rotates; when the first bevel gear 704 is not meshed with the third bevel gear 708, the third bevel gear 708 does not rotate; the third bevel gear 708 is fixedly connected with a second transmission rod 709; the second transmission rod 709 is rotatably connected with the chassis 1; the second transmission rod 709 is fixedly connected with the first connecting plate 710; the first connecting plate 710 is in transmission connection with the second connecting plate 711 through a rotating shaft; the second connecting plate 711 is in transmission connection with the deflector 712; the deflector rod 712 is fixedly connected with the first translation sliding block 713; the deflector rod 712 is in transmission connection with the limiting plate 721; the first translation slider 713 is slidably connected to the first translation slide 714; the first translation sliding rail 714 is fixedly connected with the underframe 1; the second translation slider 715 is fixedly connected with the first translation slider 713 through a connecting block; the second translation slider 715 is slidably connected to a second translation rail 716; the second translation sliding rail 716 is fixedly connected with the chassis 1; the third transmission rod 717 is rotationally connected with the second translation slider 715; the third transmission rod 717 is fixedly connected with a fourth bevel gear 718; the third transmission rod 717 is fixedly connected with the screening box 719; the screening box 719 is symmetrically provided with a second translation sliding block 715, a second translation sliding rail 716 and a third transmission rod 717; the screening box 719 is rotatably connected to the electric baffle 720; a group of electric baffles 720 are symmetrically arranged at two ends of the screening box 719; the limiting plate 721 is rotationally connected with the first translation sliding rail 714 through a rotating shaft; a feed hopper 722 is arranged above the screening box 719; the feed hopper 722 is fixedly connected with the underframe 1; an electric receiving plate 723 is arranged below the feed hopper 722; the electric receiving plate 723 is rotationally connected with the underframe 1; a first guide plate 724 is arranged below the side surface of the electric baffle 720; the first guide plate 724 is fixedly connected with the underframe 1; the second connection plate 711 is provided with a first toggle plate 725 on the side; the first shifting plate 725 is fixedly connected with the first electric sliding block 726; the first electric slider 726 is slidably connected to the first electric slide rail 727; the first electric slide rail 727 is fixedly connected to the chassis 1.
The simply crushed garbage is poured into a feed hopper 722 and falls into a screening box 719 through an electric receiving plate 723, then the large brick cleaning assembly 8 transmits power to drive the first transmission wheel 701 to drive the first transmission rod 702 to rotate, the first transmission rod 702 drives the first shaft sleeve 703 to drive the first bevel gear 704 and the second bevel gear 705 to rotate, then the first electric push rod 707 stretches and pushes the first fixing frame 706 to drive the first shaft sleeve 703 to slide on the first transmission rod 702, the first bevel gear 704 is meshed with a third bevel gear 708 to realize power transmission of the third bevel gear 708, the third bevel gear 708 rotates to drive the second transmission rod 709 to rotate, the second transmission rod 709 drives the first connection plate 710 to do circular motion, the first connection plate 710 drives one side of the second connection plate 711 to do circular motion, the second connection plate 711 drives the deflector rod 712 to do reciprocating motion, and then drives the first translation sliding block 713 to reciprocate in the first translation sliding rail 714, and simultaneously the deflector 712 drives the limiting plate 721 to reciprocate, and the first translation sliding block 713 drives the second translation sliding block 715 to reciprocate in the second translation sliding rail 716, and then drives the screening box 719 to reciprocate, so as to screen the garbage, the small garbage drops into the small garbage collecting box 3, after screening, when the screening box 719 moves to the end of the stroke near one side of the first deflector 724, the first electric push rod 707 shrink-fits the first shaft sleeve 703 to interrupt the power of the third bevel gear 708, then the electric receiving plate 723 rotates to be parallel to the bottom surface of the feed hopper 722, the electric baffle 720 rotates to be parallel to the bottom surface of the screening box 719, and then the first electric sliding block 726 slides in the first electric sliding rail 727 in the direction of the first deflector 724, and drives the first deflector 725 to move in the direction of the first deflector 724, the first shifting plate 725 is enabled to shift and drop other large garbage in the screening box 719 onto the first guide plate 724 and then slide into the large garbage collection box 4, when the first shifting plate 725 passes through large masonry, the shifting plate deforms and cannot shift the large masonry, then the electric baffle 720 rotates and resets, the power of the third bevel gear 708 is restored, when the screening box 719 moves to the end of travel close to one side of the first transmission wheel 701, the power of the third bevel gear 708 is interrupted, the electric baffle 720 rotates to be parallel to the bottom surface of the screening box 719, then the first electric push rod 707 contracts, the second bevel gear 705 is meshed with the fourth bevel gear 718, power transmission of the fourth bevel gear 718 is achieved, the fourth bevel gear 718 drives the third transmission rod 717 to drive the screening box 719 to rotate, and the screening box 719 tilts to pour the large masonry therein into the large masonry cleaning assembly 8; the assembly pre-sorts the waste and separates the large brick from other waste.
The large-block masonry cleaning assembly 8 comprises a first motor 801, a fourth transmission rod 802, a second shaft sleeve 803, a second fixing frame 804, a second electric push rod 805, a fifth bevel gear 806, a sixth bevel gear 807, a fifth transmission rod 808, a turnover plate 809, a second shifting plate 810, a second transmission wheel 811, a third transmission wheel 812, a seventh bevel gear 813, an electromagnet 814, a third electric push rod 815, a second electric slide 816, a second electric slide rail 817, a transmission belt 818, an eighth bevel gear 819, a sixth transmission rod 820, a ninth bevel gear 821, a tenth bevel gear 822, a seventh transmission rod 823, a brush roller 824, a first flat gear 825, a U-shaped plate 826, a water sprayer 827, a brush plate 828 and an elastic member 829; the first motor 801 is fixedly connected with the underframe 1; the output shaft of the first motor 801 is fixedly connected with a fourth transmission rod 802; the fourth transmission rod 802 is rotatably connected with the chassis 1; the fourth transmission rod 802 is slidably connected to the second sleeve 803; the second sleeve 803 is rotatably connected with the second fixing frame 804; the second fixing frame 804 is fixedly connected with the second electric push rod 805; the second electric push rod 805 is fixedly connected with the underframe 1; the fifth bevel gear 806 is fixedly connected with the second sleeve 803; a sixth bevel gear 807 is provided on the side of the fifth bevel gear 806; when the sixth bevel gear 807 is meshed with the fifth bevel gear 806, the sixth bevel gear 807 rotates; when the sixth bevel gear 807 is not meshed with the fifth bevel gear 806, the sixth bevel gear 807 does not rotate; the sixth bevel gear 807 is fixedly connected with a fifth transmission rod 808; the fifth transmission rod 808 is rotatably connected with the chassis 1; the fifth transmission rod 808 is fixedly connected with the overturning plate 809; a second toggle plate 810 is provided above the overturn plate 809; the second shifting plate 810 is fixedly connected with the underframe 1; the second transmission wheel 811, the third transmission wheel 812 and the seventh bevel gear 813 are fixedly connected with the fourth transmission rod 802; the second driving wheel 811 is in driving connection with the first driving wheel 701 through a belt; the third driving wheel 812 is connected with the masonry crushing metal recovery assembly 9; seventh bevel gear 813 meshes with eighth bevel gear 819; an electromagnet 814 is arranged on the side surface of the fourth transmission rod 802; electromagnet 814 is fixedly connected with a third electric push rod 815; the third electric push rod 815 is fixedly connected with the second electric sliding block 816; the second electric slider 816 is slidably connected to the second electric slide 817; the second electric sliding rail 817 is fixedly connected with the underframe 1; a conveyor 818 is disposed below the electromagnet 814; the conveyor belt 818 is fixedly connected with the underframe 1; the eighth bevel gear 819 is grounded to the sixth transfer bar 820; the sixth transmission rod 820 is rotatably connected with the chassis 1; the sixth transmission rod 820 is fixedly connected with a ninth bevel gear 821; the ninth bevel gear 821 is meshed with the tenth bevel gear 822; the tenth bevel gear 822 is fixedly connected with a seventh transmission rod 823; the seventh transmission rod 823 is rotatably connected with the underframe 1; the seventh transmission rod 823 is rotatably connected with the U-shaped plate 826; the seventh transmission rod 823 is fixedly connected with the brush roller 824; the seventh transmission rod 823 is fixedly connected with the first flat gear 825; the U-shaped plate 826 is fixedly connected with the underframe 1; five groups of seventh transmission rods 823, brush rollers 824 and first flat gears 825 are equidistantly arranged between two sides of the U-shaped plate 826, and the five groups of first flat gears 825 are sequentially meshed; a water sprayer 827 is arranged above the brush roller 824; the water spraying machine 827 is fixedly connected with the underframe 1; a brush plate 828 is arranged below the side surface of the water sprayer 827; two groups of elastic pieces 829 are symmetrically arranged on two sides of the brush plate 828; both sets of elastic members 829 are fixedly connected with the brush plate 828; both sets of elastic members 829 are fixedly connected to the chassis 1.
Large bricks drop on the overturning plate 809 and slide onto the conveying belt 818 through the second shifting plate 810, if other garbage is poured on the overturning plate 809, the weight of the garbage is insufficient to deform a shifting piece of the second shifting plate 810 and can be blocked by the second shifting plate 810, then the first motor 801 is started, an output shaft of the first motor 801 drives the fourth transmission rod 802 to drive the second sleeve 803 to rotate, the second sleeve 803 drives the fifth bevel gear 806 to rotate, then the second electric push rod 805 stretches to push the second fixing frame 804 to drive the second sleeve 803 to slide on the fourth transmission rod 802, the fifth bevel gear 806 is meshed with the sixth bevel gear 807 to realize power transmission of the sixth bevel gear 807, the sixth bevel gear 807 rotates to drive the overturning plate 808 to rotate, the overturning plate 808 is enabled to pour other garbage blocked by the second shifting plate 810 into the small garbage collecting box 3, meanwhile, the conveying belt operates to convey the large bricks to the direction of the brush roller 824, if large bricks are mixed with metal, the large bricks are sucked by the electromagnet 814, then the second electric slide block 816 is meshed with the second electric slide rail 814, the second electric slide wire 814 is driven by the electromagnet 814 to slide on the fourth electric push rod 814, the metal electromagnet 814 is driven by the electromagnet 814 to move forward, and then the electromagnet is stretched to stretch the electromagnet 814 to stretch the metal push the electromagnet to be placed on the metal push rod 815, and the metal push rod is stretched to be placed on the metal electromagnet 5, and then stretched; the large-block masonry is conveyed to the brush roller 824, meanwhile, the fourth transmission rod 802 drives the second transmission wheel 811, the third transmission wheel 812 and the seventh bevel gear 813 to rotate, the second transmission wheel 811 transmits power to the pre-sorting assembly 7, the third transmission wheel 812 transmits partial power to the masonry broken metal recovery assembly 9, the seventh bevel gear 813 drives the eighth bevel gear 819 to transmit the sixth transmission rod 820 to rotate, the sixth transmission rod 820 drives the ninth bevel gear 821 to transmit the tenth bevel gear 822 to rotate, the tenth bevel gear 822 drives the seventh transmission rod 823 to transmit the brush roller 824 to rotate, the seventh transmission rod 823 drives the first flat gear 825 to rotate, meanwhile, the water spraying machine 827 sprays water, the large-block masonry is compressed when passing through the brush plate 828, bristles of the brush plate 828 are attached to the surface of the large-block masonry, the cleaned large-block masonry is matched with the brush roller 824 to slide into the masonry broken metal recovery assembly 9 through the U826; the assembly cleans the large block of masonry, recovers the large block of metal possibly mixed therein, and then cleans stains on the surface of the large block of masonry.
The masonry crushing metal recovery assembly 9 comprises a fourth transmission wheel 901, an eighth transmission rod 902, a fifth transmission wheel 903, a cam 904, a sixth transmission wheel 905, a ninth transmission rod 906, a special gear 907, a second flat gear 908, an electromagnetic roller 909, a disc 910, a fixed shaft 911, a lifting slide 912, a lifting slide rack 913, a spring 914, a pressing plate 915, a second deflector 916, a first crushing roller 917, a third flat gear 918, a fourth flat gear 919, a second crushing roller 920 and a second motor 921; the fourth driving wheel 901 is in driving connection with the third driving wheel 812 through a belt; the fourth driving wheel 901 is fixedly connected with an eighth driving rod 902; the eighth transmission rod 902 is rotatably connected with the underframe 1; the eighth transmission rod 902 is fixedly connected with the fifth transmission wheel 903; the fifth transmission wheel 903 is in transmission connection with a sixth transmission wheel 905 through a belt; the cam 904 is fixedly connected with the eighth transmission rod 902; the sixth transmission wheel 905 is fixedly connected with a ninth transmission rod 906; the ninth transmission rod 906 is rotatably connected with the chassis 1; the ninth transmission rod 906 is fixedly connected with the different gear 907; the differential gear 907 is meshed with the second flat gear 908; the second flat gear 908 is fixedly connected with the electromagnetic roller 909; the electromagnetic roller 909 is rotatably connected with the chassis 1; a disk 910 is disposed below the cam 904; the disk 910 is fixedly connected with the fixed shaft 911; the fixed shaft 911 is fixedly connected with the lifting slide 912; the lifting slide 912 is in sliding connection with the lifting slide rack 913; the lifting slide 912 is fixedly connected with the pressing plate 915; the lifting slide rail frame 913 is fixedly connected with the underframe 1; the lifting slide rail frame 913 is fixedly connected with the spring 914; the spring 914 is fixedly connected with the lifting slide 912; a set of springs 914 are symmetrically arranged on both sides of the lifting slide 912; the two sides of the pressing plate 915 are symmetrically provided with a combination of a lifting slide block 912, a lifting slide rail frame 913 and a spring 914; a second baffle 916 is arranged below the pressure plate 915; the second baffle 916 is fixedly connected with the chassis 1; a first crushing roller 917 is arranged above the second baffle 916; the first crushing roller 917 is fixedly connected with a third flat gear 918; the first crushing roller 917 is in rotational connection with the chassis 1; the third flat gear 918 meshes with the fourth flat gear 919; the fourth flat gear 919 is fixedly connected with the second crushing roller 920; the second crushing roller 920 is rotatably connected with the underframe 1; the output shaft of the second motor 921 is fixedly connected with the first crushing roller 917; the second motor 921 is fixedly connected with the chassis 1.
The cleaned large-sized masonry slides between the first crushing roller 917 and the second crushing roller 920, meanwhile, the second motor 921 is started, the output shaft of the second motor 921 drives the first crushing roller 917 to drive the third flat gear 918 to rotate, the third flat gear 918 drives the fourth flat gear 919 to drive the second crushing roller 920 to rotate, the first crushing roller 917 and the second crushing roller 920 simultaneously reversely rotate to crush the large-sized masonry, the crushed stone falls on the second guide plate 916, meanwhile, the third driving wheel 812 drives the fourth driving wheel 901 to drive the eighth driving rod 902 to rotate, the eighth driving rod 902 simultaneously drives the fifth driving wheel 903 and the cam 904 to rotate, the cam 904 reciprocates to press the disc 910 when rotating, the disc 910 drives the fixed shaft 911 to reciprocate, the fixed shaft 911 drives the lifting slide 912 to reciprocate in the lifting slide rack 913, meanwhile, the spring 914 reciprocates to press the pressing plate 915, the pressing plate 915 further crushes the crushed stone, metals possibly contained in the stone and the stone slide on the second guide plate 916, the crushed stone falls on the electromagnetic roller 909, and the metal falls off the electromagnetic stone to the electromagnetic roller 909 to be collected by the electromagnetic stone 909; meanwhile, the fifth transmission wheel 903 drives the sixth transmission wheel 905 to rotate, the ninth transmission rod 906 drives the different gear 907 to rotate, and the different gear 907 drives the second flat gear 908 to drive the electromagnetic roller 909 to rotate, so that excessive metal is prevented from being adsorbed at the same position; the assembly carries out secondary crushing on the cleaned large-block masonry so as to be used as a rotary raw material, and simultaneously recovers metals contained in the masonry.
The second translating slide 716 is laterally provided with a rectangular slot.
So that the second translation slider 715 slides to drive the third driving rod 717 to move along the side of the second translation rail 716.
A plurality of groups of elastic poking sheets are arranged below the first poking plate 725 and the second poking plate 810.
The poking piece deforms when passing through the large brick and stone, but can poke other garbage so as to separate the large brick and stone.
The outer circumferential surfaces of the first crushing roller 917 and the second crushing roller 920 are provided with mutually staggered protrusions.
The large bricks are crushed by mutual cooperation.
The outer ring surface of the electromagnetic roller 909 is provided with a plurality of groups of semicircular iron rings.
So that the electromagnetic roller 909 attracts the metal object.
Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.
Claims (5)
1. The utility model provides a municipal solid waste handles separation large brick stone recycle device, including chassis (1), controller (2), fritter garbage collection box (3), large piece garbage collection box (4), metal collection box (5) and sewage collection box (6), its characterized in that: the device also comprises a pre-sorting assembly (7), a large-block brick stone cleaning assembly (8) and a brick stone crushing metal recovery assembly (9); the underframe (1) is connected with the controller (2); the underframe (1) is connected with the small garbage collection box (3); the underframe (1) is connected with the bulk garbage collection box (4); the underframe (1) is connected with the metal collecting box (5); the underframe (1) is connected with the sewage collecting box (6); the underframe (1) is connected with the pre-sorting assembly (7); the underframe (1) is connected with the large brick stone cleaning assembly (8); the underframe (1) is connected with a masonry crushing metal recovery assembly (9); the pre-sorting assembly (7) is connected with the large-block masonry cleaning assembly (8); the large brick stone cleaning assembly (8) is connected with the brick stone broken metal recovery assembly (9);
the pre-sorting assembly (7) comprises a first driving wheel (701), a first driving rod (702), a first shaft sleeve (703), a first bevel gear (704), a second bevel gear (705), a first fixing frame (706), a first electric push rod (707), a third bevel gear (708), a second driving rod (709), a first connecting plate (710), a second connecting plate (711), a deflector rod (712), a first translation sliding block (713), a first translation sliding rail (714), a second translation sliding block (715), a second translation sliding rail (716), a third driving rod (717), a fourth bevel gear (718), a screening box (719), an electric baffle (720), a limiting plate (721), a feed hopper (722), an electric receiving plate (723), a first guide plate (724), a first deflector plate (725), a first electric sliding block (726) and a first electric sliding rail (727); the first driving wheel (701) is connected with the large brick stone cleaning component (8); the first driving wheel (701) is fixedly connected with a first driving rod (702); the first transmission rod (702) is rotationally connected with the underframe (1); the first transmission rod (702) is in sliding connection with the first shaft sleeve (703); two sides of the first shaft sleeve (703) are fixedly connected with a first bevel gear (704) and a second bevel gear (705) respectively; the first shaft sleeve (703) is rotationally connected with the first fixing frame (706); the first fixing frame (706) is fixedly connected with the first electric push rod (707); the first electric push rod (707) is fixedly connected with the underframe (1); a third bevel gear (708) is arranged on the side surface of the first bevel gear (704); when the first bevel gear (704) is meshed with the third bevel gear (708), the third bevel gear (708) rotates; when the first bevel gear (704) is not meshed with the third bevel gear (708), the third bevel gear (708) does not rotate; the third bevel gear (708) is fixedly connected with the second transmission rod (709); the second transmission rod (709) is rotationally connected with the underframe (1); the second transmission rod (709) is fixedly connected with the first connecting plate (710); the first connecting plate (710) is in transmission connection with the second connecting plate (711) through a rotating shaft; the second connecting plate (711) is in transmission connection with the deflector rod (712); the deflector rod (712) is fixedly connected with the first translation sliding block (713); the deflector rod (712) is in transmission connection with the limiting plate (721); the first translation sliding block (713) is in sliding connection with the first translation sliding rail (714); the first translation sliding rail (714) is fixedly connected with the underframe (1); the second translation sliding block (715) is fixedly connected with the first translation sliding block (713) through a connecting block; the second translation sliding block (715) is in sliding connection with the second translation sliding rail (716); the second translation sliding rail (716) is fixedly connected with the underframe (1); the third transmission rod (717) is rotationally connected with the second translation sliding block (715); the third transmission rod (717) is fixedly connected with a fourth bevel gear (718); the third transmission rod (717) is fixedly connected with the screening box (719); the two sides of the screening box (719) are symmetrically provided with a combination of a second translation sliding block (715), a second translation sliding rail (716) and a third transmission rod (717); the screening box (719) is rotationally connected with the electric baffle (720); a group of electric baffles (720) are symmetrically arranged at two ends of the screening box (719); the limiting plate (721) is rotationally connected with the first translation sliding rail (714) through a rotating shaft; a feed hopper (722) is arranged above the screening box (719); the feed hopper (722) is fixedly connected with the underframe (1); an electric receiving plate (723) is arranged below the feed hopper (722); the electric receiving plate (723) is rotationally connected with the underframe (1); a first guide plate (724) is arranged below the side surface of the electric baffle plate (720); the first guide plate (724) is fixedly connected with the underframe (1); the side surface of the second connecting plate (711) is provided with a first poking plate (725); the first poking plate (725) is fixedly connected with the first electric sliding block (726); the first electric sliding block (726) is in sliding connection with the first electric sliding rail (727); the first electric slide rail (727) is fixedly connected with the underframe (1);
The large-block masonry cleaning assembly (8) comprises a first motor (801), a fourth transmission rod (802), a second sleeve (803), a second fixing frame (804), a second electric push rod (805), a fifth bevel gear (806), a sixth bevel gear (807), a fifth transmission rod (808), a turnover plate (809), a second shifting plate (810), a second transmission wheel (811), a third transmission wheel (812), a seventh bevel gear (813), an electromagnet (814), a third electric push rod (815), a second electric sliding block (816), a second electric sliding rail (817), a conveying belt (818), an eighth bevel gear (819), a sixth transmission rod (820), a ninth bevel gear (821), a tenth bevel gear (822), a seventh transmission rod (823), a hairbrush roller (824), a first flat gear (825), a U-shaped plate (826), a water spraying machine (827), a brushing plate (828) and an elastic piece (829); the first motor (801) is fixedly connected with the underframe (1); an output shaft of the first motor (801) is fixedly connected with a fourth transmission rod (802); the fourth transmission rod (802) is rotationally connected with the underframe (1); the fourth transmission rod (802) is in sliding connection with the second sleeve (803); the second sleeve (803) is rotationally connected with the second fixing frame (804); the second fixing frame (804) is fixedly connected with the second electric push rod (805); the second electric push rod (805) is fixedly connected with the underframe (1); the fifth bevel gear (806) is fixedly connected with the second sleeve (803); a sixth bevel gear (807) is arranged on the side surface of the fifth bevel gear (806); when the sixth bevel gear (807) is meshed with the fifth bevel gear (806), the sixth bevel gear (807) rotates; when the sixth bevel gear (807) is not meshed with the fifth bevel gear (806), the sixth bevel gear (807) does not rotate; the sixth bevel gear (807) is fixedly connected with a fifth transmission rod (808); the fifth transmission rod (808) is rotationally connected with the underframe (1); the fifth transmission rod (808) is fixedly connected with the overturning plate (809); a second shifting plate (810) is arranged above the overturning plate (809); the second shifting plate (810) is fixedly connected with the underframe (1); the second driving wheel (811), the third driving wheel (812) and the seventh bevel gear (813) are fixedly connected with the fourth driving rod (802); the second driving wheel (811) is in driving connection with the first driving wheel (701) through a belt; the third driving wheel (812) is connected with the masonry crushing metal recovery assembly (9); the seventh bevel gear (813) is meshed with the eighth bevel gear (819); an electromagnet (814) is arranged on the side face of the fourth transmission rod (802); the electromagnet (814) is fixedly connected with the third electric push rod (815); the third electric push rod (815) is fixedly connected with the second electric sliding block (816); the second electric sliding block (816) is in sliding connection with the second electric sliding rail (817); the second electric sliding rail (817) is fixedly connected with the underframe (1); a conveyor belt (818) is arranged below the electromagnet (814); the conveyor belt (818) is fixedly connected with the underframe (1); the eighth bevel gear (819) is fixedly connected with the sixth transmission rod (820); the sixth transmission rod (820) is rotationally connected with the underframe (1); the sixth transmission rod (820) is fixedly connected with a ninth bevel gear (821); the ninth bevel gear (821) is meshed with the tenth bevel gear (822); the tenth bevel gear (822) is fixedly connected with a seventh transmission rod (823); the seventh transmission rod (823) is rotationally connected with the underframe (1); the seventh transmission rod (823) is rotationally connected with the U-shaped plate (826); the seventh transmission rod (823) is fixedly connected with the hairbrush roller (824); the seventh transmission rod (823) is fixedly connected with the first flat gear (825); the U-shaped plate (826) is fixedly connected with the underframe (1); five groups of seventh transmission rods (823), brush rollers (824) and first flat gears (825) are equidistantly arranged between two sides of the U-shaped plate (826), and the five groups of first flat gears (825) are sequentially meshed; a water sprayer (827) is arranged above the brush roller (824); the water spraying machine (827) is fixedly connected with the underframe (1); a brush plate (828) is arranged below the side surface of the water spraying machine (827); two groups of elastic pieces (829) are symmetrically arranged on two sides of the brush plate (828); both groups of elastic pieces (829) are fixedly connected with the brush plate (828); the two groups of elastic pieces (829) are fixedly connected with the underframe (1);
The masonry crushing metal recovery assembly (9) comprises a fourth driving wheel (901), an eighth driving rod (902), a fifth driving wheel (903), a cam (904), a sixth driving wheel (905), a ninth driving rod (906), a special gear (907), a second flat gear (908), an electromagnetic roller (909), a disc (910), a fixed shaft (911), a lifting sliding block (912), a lifting sliding rail frame (913), a spring (914), a pressing plate (915), a second guide plate (916), a first crushing roller (917), a third flat gear (918), a fourth flat gear (919), a second crushing roller (920) and a second motor (921); the fourth driving wheel (901) is in driving connection with the third driving wheel (812) through a belt; the fourth driving wheel (901) is fixedly connected with an eighth driving rod (902); the eighth transmission rod (902) is rotationally connected with the underframe (1); the eighth transmission rod (902) is fixedly connected with the fifth transmission wheel (903); the fifth driving wheel (903) is in driving connection with the sixth driving wheel (905) through a belt; the cam (904) is fixedly connected with the eighth transmission rod (902); the sixth transmission wheel (905) is fixedly connected with a ninth transmission rod (906); the ninth transmission rod (906) is rotationally connected with the underframe (1); the ninth transmission rod (906) is fixedly connected with the different gear (907); the different gear (907) is meshed with the second flat gear (908); the second flat gear (908) is fixedly connected with the electromagnetic roller (909); the electromagnetic roller (909) is rotationally connected with the underframe (1); a disc (910) is arranged below the cam (904); the disc (910) is fixedly connected with the fixed shaft (911); the fixed shaft (911) is fixedly connected with the lifting slide block (912); the lifting slide block (912) is in sliding connection with the lifting slide rail frame (913); the lifting slide block (912) is fixedly connected with the pressing plate (915); the lifting sliding rail frame (913) is fixedly connected with the underframe (1); the lifting slide rail frame (913) is fixedly connected with the spring (914); the spring (914) is fixedly connected with the lifting slide block (912); a group of springs (914) are symmetrically arranged on two sides of the lifting slide block (912); the two sides of the pressing plate (915) are symmetrically provided with a combination of a lifting slide block (912), a lifting slide rail frame (913) and a spring (914); a second guide plate (916) is arranged below the pressing plate (915); the second guide plate (916) is fixedly connected with the underframe (1); a first crushing roller (917) is arranged above the second guide plate (916); the first crushing roller (917) is fixedly connected with the third flat gear (918); the first crushing roller (917) is rotationally connected with the underframe (1); the third flat gear (918) is meshed with the fourth flat gear (919); the fourth flat gear (919) is fixedly connected with the second crushing roller (920); the second crushing roller (920) is rotationally connected with the underframe (1); an output shaft of the second motor (921) is fixedly connected with the first crushing roller (917); the second motor (921) is fixedly connected with the underframe (1).
2. The municipal solid waste treatment separation large-block masonry recycling device according to claim 1, wherein: rectangular grooves are formed in the side faces of the second translation sliding rails (716).
3. The municipal solid waste treatment separation large-block masonry recycling device according to claim 2, wherein: a plurality of groups of elastic poking sheets are arranged below the first poking plate (725) and the second poking plate (810).
4. A municipal solid waste treatment separation large-block masonry recycling device according to claim 3, wherein: the outer circumferential surfaces of the first crushing roller (917) and the second crushing roller (920) are provided with mutually staggered lugs.
5. The municipal solid waste treatment separation large-block masonry recycling device according to claim 4, wherein: the outer ring surface of the electromagnetic roller (909) is provided with a plurality of groups of semicircular iron rings.
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| CN114618867B (en) * | 2022-03-11 | 2023-08-25 | 南京唐壹信息科技有限公司 | Anti-blocking folding asbestos tile quick recovery equipment |
| CN115069349B (en) * | 2022-06-27 | 2023-07-04 | 菏泽城建绿源环保科技有限公司 | Environment-friendly dust fall falls broken letter sorting regeneration processing apparatus of fitment rubbish of making an uproar |
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Effective date of registration: 20240625 Address after: No. 27, Group 1, Jiannan Village, Wenjiang Town, Gao County, Yibin City, Sichuan Province, 645150 Patentee after: Hu Yunqiu Country or region after: China Address before: 242807 North Shaling Section, Luojiatan Village, Dingqiao Town, Qingyang County, Chizhou, Anhui Province Patentee before: Qingyang County Yixin New Building Materials Co.,Ltd. Country or region before: China |