CN109806959B

CN109806959B - Construction waste treatment system

Info

Publication number: CN109806959B
Application number: CN201910195057.4A
Authority: CN
Inventors: 曲毅; 郝进伟; 丁宇; 张华巍; 王兆选; 张培杨; 谢辉; 杨宏旺; 徐慧荟; 刘雪; 曹贻社; 常安; 盖君朋; 贾宁; 金田宗; 康琦; 李鹏; 梁春花; 柳晓明; 马吉飞
Original assignee: Econ Technology Co Ltd
Current assignee: Econ Technology Co Ltd
Priority date: 2019-03-14
Filing date: 2019-03-14
Publication date: 2023-05-09
Anticipated expiration: 2039-03-14
Also published as: CN109806959A

Abstract

The invention discloses a construction waste treatment system, in particular to equipment capable of separating multiple components in construction waste, wherein the lower part of a feed hopper is provided with a fine particle storage box, the inner side wall of the fine particle storage box is provided with a first micropore spraying hole for dedusting and ash reduction, and the bottom of the fine particle storage box is provided with an openable door; the feeding hopper is communicated with the conveying belt through a first conveying trough, one side of the conveying belt is connected with a lower opening of the conveying trough, the other side of the conveying belt is connected with an inner cavity of the X-ray imaging analyzer, and an upper opening of the first conveying trough is fixed and communicated with the side wall of the feeding hopper; the X-ray imaging analyzer is in signal connection with a display screen of the host, and a fluorescent marking bin and a sorting bin are respectively arranged on the right side of the X-ray imaging analyzer; the sorting bin is internally provided with a mechanical grabbing arm, the free end of the mechanical grabbing arm is provided with a mechanical arm, and two sides of the interior of the sorting bin are respectively connected with a wood storage box and a plastic storage box.

Description

Construction waste treatment system

Technical Field

The invention relates to environment-friendly equipment, in particular to a construction waste treatment system.

Background

At present, china is in a tripod-like period, most of the construction waste in China is directly transported to suburbs or the periphery of cities for landfill or open-air stacking without any treatment, so that the land and resources are wasted, and meanwhile, environmental pollution is caused, including that residues enter surface water along with rainwater, sulfate radicals are oxidized to become hydrogen sulfide with smelly eggs, and the hydrogen sulfide is released to the atmosphere. Therefore, the research on recycling the construction wastes is needed to be tightened, so that the construction wastes become a ring in the recycling economy, and the construction wastes are recycled and utilized into an ecological balance system.

However, at present, aiming at the problem of treatment of construction waste, no equipment capable of fully utilizing the construction waste is available, and as is well known, the construction waste is rich in plastic, cement and steel waste, the existing equipment cannot separate the plastic, cement and steel waste, recycling of resources cannot be realized, and most common construction waste treatment equipment is completed through simple crushing and has defects.

Disclosure of Invention

Based on the above-mentioned shortcomings of the prior art, the present invention provides a construction waste disposal system.

The invention adopts the following technical scheme to overcome the technical problems, and specifically comprises the following steps:

the utility model provides a construction waste processing system, includes feeder hopper, X ray imaging analyzer, fluorescence mark storehouse, letter sorting storehouse, crushing cylinder and secondary reinforcing bar screen remove conveyer belt and secondary crushing cylinder, the inside intermediate position of feeder hopper is provided with the vibration screening net that is used for the screening, and the feeder hopper lower part is tiny granule storage box, is provided with the first micropore spraying hole that carries out dust removal and falls ash on tiny granule storage box's the inside wall, is provided with the door of opening and shutting at tiny granule storage box's bottom; the feeding hopper is communicated with the conveying belt through a first conveying trough, one side of the conveying belt is connected with a lower opening of the conveying trough, the other side of the conveying belt is connected with an inner cavity of the X-ray imaging analyzer, and an upper opening of the first conveying trough is fixed and communicated with the side wall of the feeding hopper; the X-ray imaging analyzer is in signal connection with a display screen of the host, and a fluorescent marking bin and a sorting bin are respectively arranged on the right side of the X-ray imaging analyzer; a mechanical grabbing arm is arranged in the sorting bin, a mechanical arm is arranged at the free end of the mechanical grabbing arm, and two sides of the interior of the sorting bin are respectively connected with a wood storage box and a plastic storage box; the tail part of the sorting bin is communicated with the crushing roller through a second material conveying groove, second micropore spraying holes are formed in the crushing roller, two rotating motors are respectively arranged at symmetrical positions on the outer side of the crushing roller, the output ends of the rotating motors are rotationally connected with a rotating shaft, the rotating shaft is positioned in the crushing roller, and a plurality of crushing gears are fixed on the crushing shaft; crushing cylinder passes through third defeated silo intercommunication secondary reinforcing bar screen out conveyer belt one side, and secondary reinforcing bar screen out conveyer belt is magnetite structure, and secondary reinforcing bar screen out conveyer belt below is provided with the reinforcing bar scraper blade, and the fourth defeated silo upper shed is connected to secondary reinforcing bar screen out conveyer belt opposite side, and fourth defeated silo lower shed communicates secondary crushing cylinder, and the structure of secondary crushing cylinder is the same with crushing cylinder, secondary crushing cylinder tail end intercommunication discharge gate.

As a further scheme of the invention: and two fluorescent marking liquid storage boxes are arranged above the fluorescent marking bin.

As still further aspects of the invention: the upper part of the fluorescent marking liquid storage box is provided with a medicine injection port, and the bottom of the fluorescent marking liquid storage box is provided with a spray gun.

As still further aspects of the invention: and a power switch is arranged on the upper surface of the fluorescent marking liquid storage box.

As still further aspects of the invention: the center department of manipulator is equipped with sensitization chip, a plurality of grippers of circumference swing joint below the manipulator.

As still further aspects of the invention: the mechanical claw is provided with mechanical claw teeth.

As still further aspects of the invention: the wood storage box and the plastic storage box are respectively provided with an output port, and the two output ports are respectively communicated with the two material collecting boxes through two material conveying pipes.

As still further aspects of the invention: and a crushing roller bracket used for supporting the crushing roller with the ground is fixedly connected below the crushing roller.

As still further aspects of the invention: the vibration screening net is a steel wire net with five meshes.

After adopting the structure, compared with the prior art, the invention has the following advantages: the system realizes the fluorescent marking of garbage by carrying out ray imaging analysis after preliminary screening, realizes the identification and separation of the components of wood and plastics in the garbage, is convenient for recycling, and adds concrete block crushing equipment at the rear part of the system to separate the reinforcing steel bars in the cement blocks, realizes the separation of cement and reinforcing steel bars by utilizing a magnetite structure to adsorb the reinforcing steel bars, achieves the full separation function of multiple components, is convenient for the recycling of materials and saves resources.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a construction waste treatment system.

Fig. 2 is a schematic structural view of a fluorescent marking bin in a construction waste treatment system.

Fig. 3 is a schematic view of the structure of a sorting bin in the construction waste treatment system.

Fig. 4 is a schematic structural view of a mechanical gripper arm in a construction waste treatment system.

In the figure: 1. a feed hopper; 2. vibrating the screen; 3. a fine particle storage bin; 4. a first microporous spray hole; 5. an opening/closing door; 6. a first material conveying groove; 7. a conveyor belt; 8.X ray imaging analyzer; 9. a host display screen; 10. a fluorescent marking bin; 11. a fluorescent marking liquid storage tank; 12. a medicine injection port; 13. sorting bins; 14. a material conveying pipe; 15. a material collecting box; 16. a second material conveying groove; 17. a second microporous spray hole; 18. a rotating electric machine; 19. crushing a roller; 20. crushing a gear; 21. a rotation shaft; 22. crushing a roller bracket; 23. a third material conveying groove; 24. secondary reinforcing steel bar screening conveyor belt; 25. a steel bar scraping plate; 26. a fourth material conveying groove; 27. a secondary crushing roller; 28. a discharge port; 29. a power switch; 30. a fluorescent marking gun; 31. an output port; 32. a mechanical gripper arm; 33. a manipulator; 34. a photosensitive chip; 35. a mechanical claw; 36. mechanical claw teeth.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In addition, an element in the present disclosure may be referred to as being "fixed" or "disposed" on another element or being directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Example 1

Referring to fig. 1 to 4, in an embodiment of the present invention, a construction waste treatment system includes a feed hopper 1, an X-ray imaging analyzer 8, a fluorescent marking bin 10, a sorting bin 13, a pulverizing drum 19, a secondary reinforcing bar screening conveyor 24, and a secondary pulverizing drum 27; the middle position inside the feed hopper 1 is provided with a vibration screening net 2 for screening, specifically, the vibration screening net 2 is a steel wire net with five meshes, the lower part of the feed hopper 1 is provided with a fine particle storage box 3, the inner side wall of the fine particle storage box 3 is provided with a first micropore spraying hole 4 for dedusting and ash reduction, in addition, the bottom of the fine particle storage box 3 is provided with an openable door 5, after building garbage enters the feed hopper 1, small particle bricks and tiles fall into the fine particle storage box 3 through the screening of the vibration screening net 2, meanwhile, the first micropore spraying hole 4 is opened for spraying water mist to perform dedusting and ash reduction, and the fine particle storage box is cleaned regularly through the openable door 5; the feeder hopper 1 is communicated with the conveyor belt 7 through the first conveying chute 6, one side of the conveyor belt 7 is connected with the lower opening of the first conveying chute 6, the other side is connected with the inner cavity of the X-ray imaging analyzer 8, the upper opening of the first conveying chute 6 is fixed and communicated with the side wall of the feeder hopper 1, the height of the side wall is slightly higher than that of the vibration screening net 2, small-particle building garbage is prevented from being discharged through the first conveying chute 6, and large-particle building garbage remained above the vibration screening net 2 is discharged onto the conveyor belt 7 through the first conveying chute 6 and is fed into the X-ray imaging analyzer 8 through the conveyor belt 7.

The X-ray imaging analyzer 8 is in signal connection with the host computer display screen 9, the right side of the X-ray imaging analyzer 8 is respectively provided with a fluorescent marking bin 10 and a sorting bin 13, furthermore, the upper part of the fluorescent marking bin 10 is provided with a fluorescent marking liquid storage box 11, the number of the fluorescent marking liquid storage boxes 11 is two, the two fluorescent marking liquid storage boxes 11 are respectively provided with a green fluorescent ethanol solution and a red fluorescent ethanol solution, the upper part of the fluorescent marking liquid storage box 11 is provided with a medicine injection port 12, the bottom of the fluorescent marking liquid storage box is provided with a spray gun 30, the upper surface of the fluorescent marking liquid storage box 11 is provided with a power switch 29, large-particle building rubbish conveyed into the X-ray imaging analyzer 8 is irradiated by X-rays, and the absorption degree of the X-rays is different according to the different density thickness of different substances, so that the host computer display screen 9 displays different results, when the building rubbish is conveyed to the fluorescent marking bin 10, the host computer controls the two fluorescent marking spray guns 30 to spray different colors of fluorescent ethanol liquids, the red fluorescent liquid sprays plastic rubbish, and the green fluorescent liquid sprays wood rubbish; the mechanical grabbing arm 32 is arranged in the sorting bin 13, the mechanical grabbing arm 32 is provided with a mechanical arm 33 at the free end, a photosensitive chip 34 is arranged at the center of the mechanical arm 33, a plurality of mechanical claws 35 are circumferentially and movably connected below the mechanical arm 33, mechanical claw teeth 36 are arranged on the mechanical claws 35, two sides of the interior of the sorting bin 13 are respectively connected with a wood storage box and a plastic storage box, the bottoms of the wood storage box and the plastic storage box are respectively provided with an output port 31, the two output ports 31 are respectively communicated with two material collecting boxes 15 through two material conveying pipes 14, when building rubbish enters the sorting bin 13, the mechanical grabbing arm 32 with the photosensitive chip 34 in the sorting bin 13 cleans red and green rubbish, and the wood and the plastic in the building rubbish are respectively recovered into the material collecting boxes 15 on the left side and the right side through the output ports 31 communicated with the material conveying pipes 14.

The tail of the sorting bin 13 is communicated with a crushing roller 19 through a second conveying trough 16, a second micropore spraying hole 17 is formed in the crushing roller 19, two rotating motors 18 are respectively arranged at symmetrical positions on the outer sides of the crushing roller 19, the output ends of the rotating motors 18 are rotationally connected with a rotating shaft 21, the rotating shaft 21 is positioned in the crushing roller 19, a plurality of crushing gears 20 are fixed on the crushing shaft 21, preferably, a crushing roller bracket 22 used for supporting the crushing roller 19 with the ground is fixedly connected below the crushing roller 19, building wastes after plastic box wood is sorted out through a manipulator 33 enter the crushing roller 19 through the second conveying trough 16, the second micropore spraying hole 17 in the crushing roller 19 is used for spraying water and reducing dust, the rotating shaft 21 and the crushing gears 20 are driven to rotate under the action of the rotating motors 18, and the symmetrically arranged crushing gears 20 are meshed to crush concrete blocks; the crushing roller 19 is communicated with one side of a secondary steel bar screening conveyor belt 24 through a third conveying trough 23, specifically, the secondary steel bar screening conveyor belt 24 is of a magnet structure, a steel bar scraping plate 25 is arranged below the secondary steel bar screening conveyor belt 24, the other side of the secondary steel bar screening conveyor belt 24 is connected with an upper opening of a fourth conveying trough 26, a lower opening of the fourth conveying trough 26 is communicated with a secondary crushing roller 27, the structure of the secondary crushing roller 27 is the same as that of the crushing roller 19, the tail end of the secondary crushing roller 27 is communicated with a discharge opening 28, materials such as steel bars in crushed construction waste can be adsorbed on the secondary steel bar screening conveyor belt 24 of the magnet structure, when the secondary steel bar screening conveyor belt 24 runs below, the steel bar scraping plate 25 arranged below can scratch the adsorbed steel bars, the construction waste of other bricks and tiles is conveyed to the secondary crushing roller 27 along with the secondary steel bar screening conveyor belt 24 through the conveying trough 26, and is discharged through the discharge opening 28 after being meshed through the crushing gears, so as to form small-particle construction aggregates.

From the detailed description of the above embodiments, it is apparent that the working principle of the present invention is: after the construction waste enters the feed hopper 1, the construction waste is screened by the vibration screening net 2 to enable small particle bricks and tiles to fall into the fine particle storage box 3, meanwhile, the micropore spraying holes 4 are opened to spray water mist to remove dust and ash, the fine particle storage box is cleaned regularly by the opening and closing door 5, the upper opening of the conveying trough 6 is slightly higher than the vibration screening net 2, the construction waste with small particles is prevented from being discharged by the conveying trough 6, the large particle construction waste remained above the vibration screening net 2 is discharged onto the conveying belt 7 by the conveying trough 6 and is sent into the X-ray imaging analyzer 8 by the conveying belt 7, the green fluorescent ethanol solution and the red fluorescent ethanol solution are respectively stored in the two fluorescent marking liquid storage boxes 11, the large particle construction waste conveyed into the X-ray imaging analyzer 8 is irradiated by X-rays, and the absorption degree of the X-rays is different according to the density thickness and the like of different substances, when the construction waste is conveyed to the fluorescent marking bin 10, the host controls the two fluorescent marking spray guns 30 to spray fluorescent ethanol liquid with different colors, red fluorescent liquid sprays plastic waste and green fluorescent liquid sprays wood waste, when the construction waste enters the sorting bin 13, the mechanical grabbing arm 32 with the photosensitive chip 34 in the sorting bin 13 cleans the red and green waste, the wood and the plastic in the construction waste are respectively recycled to the material collecting boxes 15 on the left side and the right side through the conveying pipe 14 communicated with the output port 31, the construction waste after the plastic box wood is sorted out through the mechanical arm 33 enters the crushing roller 19 through the second conveying groove 16, the second micropore spraying holes 17 in the crushing roller 19 spray water to reduce dust, the rotating shaft 21 and the crushing gear 20 are driven to rotate under the action of the rotating motor 18, the crushing gear 20 that the symmetry set up is interlock and is smashed the concrete piece, and substances such as reinforcing bar in the construction waste after smashing can adsorb on the secondary reinforcing bar screen removal conveyer belt 24 of magnetite structure, and when secondary reinforcing bar screen removal conveyer belt 24 operation was put the below, the reinforcing bar scraper 25 that the below set up can cut the absorbing reinforcing bar off, and the construction waste of other brick and tile class is along with secondary reinforcing bar screen removal conveyer belt 24 conveys secondary crushing cylinder 27 through material conveying groove 26, after crushing gear interlock, is discharged through discharge gate 28, forms the construction aggregate of granule.

The foregoing is illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary. It is intended that all such variations as fall within the scope of the appended claims.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Claims

1. The utility model provides a construction waste processing system, includes feeder hopper (1), X ray imaging analysis appearance (8), fluorescence mark storehouse (10), letter sorting storehouse (13), smashes cylinder (19) and secondary reinforcing bar screen out conveyer belt (24) and secondary crushing cylinder (27), its characterized in that, inside intermediate position of feeder hopper (1) is provided with vibration screening net (2) that are used for the screening, and feeder hopper (1) lower part is tiny granule bin (3), is provided with first micropore spraying hole (4) that carry out dust removal and ash reduction on the inside wall of tiny granule bin (3), is provided with openable door (5) that open and shut in the bottom of tiny granule bin (3); the feeding hopper (1) is communicated with the conveying belt (7) through a first conveying trough (6), one side of the conveying belt (7) is connected with the lower opening of the conveying trough (6), the other side of the conveying belt is connected with the inner cavity of the X-ray imaging analyzer (8), and the upper opening of the first conveying trough (6) is fixed and communicated with the side wall of the feeding hopper (1); the X-ray imaging analyzer (8) is connected with the host display screen (9) through signals, and a fluorescent marking bin (10) and a sorting bin (13) are respectively arranged on the right side of the X-ray imaging analyzer (8); a mechanical grabbing arm (32) is arranged in the sorting bin (13), a mechanical arm (33) is arranged at the free end of the mechanical grabbing arm (32), and two sides of the interior of the sorting bin (13) are respectively connected with a wood storage box and a plastic storage box; the tail of the sorting bin (13) is communicated with a crushing roller (19) through a second conveying trough (16), second micropore spraying holes (17) are formed in the crushing roller (19), two rotating motors (18) are respectively arranged at symmetrical positions on the outer side of the crushing roller (19), the output ends of the rotating motors (18) are rotationally connected with a rotating shaft (21), the rotating shaft (21) is positioned in the crushing roller (19), and a plurality of crushing gears (20) are fixed on the crushing shaft (21); the crushing roller (19) is communicated with one side of a secondary steel bar screening conveyor belt (24) through a third conveying trough (23), the secondary steel bar screening conveyor belt (24) is of a magnet structure, a steel bar scraping plate (25) is arranged below the secondary steel bar screening conveyor belt (24), the other side of the secondary steel bar screening conveyor belt (24) is connected with an upper opening of a fourth conveying trough (26), a lower opening of the fourth conveying trough (26) is communicated with a secondary crushing roller (27), the structure of the secondary crushing roller (27) is the same as that of the crushing roller (19), and the tail end of the secondary crushing roller (27) is communicated with a discharge opening (28);

a fluorescent marking liquid storage box (11) is arranged above the fluorescent marking bin (10), and the number of the fluorescent marking liquid storage boxes (11) is two;

the center of the manipulator (33) is provided with a photosensitive chip (34), and a plurality of mechanical claws (35) are circumferentially and movably connected below the manipulator (33).

2. The construction waste treatment system according to claim 1, wherein a medicine injection port (12) is formed above the fluorescent marking liquid storage box (11), and a spray gun (30) is arranged at the bottom of the fluorescent marking liquid storage box.

3. A construction waste treatment system according to claim 1, wherein the fluorescent marking fluid storage tank (11) is provided with a power switch (29) on its upper surface.

4. A construction waste treatment system according to claim 3, wherein the gripper (35) has gripper teeth (36) thereon.

5. The construction waste treatment system according to claim 1, wherein the wood storage box and the plastic storage box are provided with output ports (31), and the two output ports (31) are respectively communicated with the two collection boxes (15) through two conveying pipes (14).

6. A construction waste treatment system according to claim 1, wherein a pulverizing drum holder (22) for supporting with the ground is fixedly connected below the pulverizing drum (19).

7. A construction waste treatment system according to any one of claims 1-6, wherein the vibrating screen mesh (2) is a five mesh size steel wire mesh.