CN210097897U

CN210097897U - Building solid waste in-situ recycling treatment device

Info

Publication number: CN210097897U
Application number: CN201920371142.7U
Authority: CN
Inventors: 赵海涛; 张仁; 王孟昭; 李国栋; 吉喆
Original assignee: Shanghai Daren Construction Engineering Co Ltd
Current assignee: Shanghai Daren Construction Technology Group Co ltd
Priority date: 2019-03-22
Filing date: 2019-03-22
Publication date: 2020-02-21
Anticipated expiration: 2029-03-22

Abstract

The utility model discloses a building solid useless normal position resourceful treatment device, including magnet separator, dustbin, dust removal case, push mechanism, broken case and conveyer belt, the discharge gate of dustbin lower extreme and the feed inlet of magnet separator intercommunication, link to each other through the conveyer belt between magnet separator and the dust removal case, the conveyer belt passes the inside of dust removal case, and the other end stretches into the outside of dust removal case and is connected with the feed inlet of rose box upper end, conveyer belt between dust removal case and the rose box sets up for the slope, the discharge gate has been seted up to rose box and the relative one end limit wall upper end of conveyer belt, and the welding has the hang plate on the discharge gate outer wall, the other end of hang plate stretches into the inside to broken case, the upper end of broken case sets up for the opening, and the last surface welding has the bracing piece. The in-situ resource treatment device for the solid waste of the building has a reasonable structure, maximizes the utilization of resources, protects the environment and can be widely used.

Description

Building solid waste in-situ recycling treatment device

Technical Field

The invention belongs to the technical field of building waste treatment, and particularly relates to a building solid waste in-situ recycling treatment device.

Background

The basic planning of the recycling economy society, the European zero waste plan and the general planning of the recycling economy in Japan and the 'zero waste vision' are promoted in Singapore, but the concept of the recycling economy is carried out in China for a year, all departments in China have already developed a series of trial works for recycling solid waste, and the recycling economy industry park is also like the spring bamboo shoots in the afterrain, branches and leaves are scattered all over the country, but the trial plan is that the whole city is firstly taken as the main part in China, and the system, mechanism, technology and mode which can be practically applied to city operation are integrated in the Shanbao sea area, so that the 'zero waste' comprehensive management system and technology system are built and are subsequently copied and popularized all over the country.

The construction waste is often a lot of, bulky, and wherein some rubbish can be recycled in life to resources are saved, promote the feature of environmental protection.

Disclosure of Invention

The invention aims to provide a construction solid waste in-situ recycling treatment device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a building solid waste in-situ recycling treatment device comprises a magnetic separator, a garbage can, a dust removal box, a pushing mechanism, a crushing box and a conveying belt, wherein a discharge port at the lower end of the garbage can is communicated with a feed port of the magnetic separator, the magnetic separator is connected with the dust removal box through the conveying belt, the conveying belt penetrates through the dust removal box, the other end of the conveying belt extends into the outer part of the dust removal box and is connected with a feed port at the upper end of a filter box, the conveying belt between the dust removal box and the filter box is in an inclined arrangement, a discharge port is formed in the upper end of one end side wall of the filter box opposite to the conveying belt, an inclined plate is welded on the outer wall of the discharge port, the other end of the inclined plate extends into the crushing box, the upper end of the crushing box is in an opening arrangement, a support rod is welded on, a hydraulic cylinder is vertically arranged at the middle of the bottom end surface of the movable plate towards the interior of the crushing box, one end of the hydraulic cylinder far away from the movable plate is fixedly connected with the pressing plate, a blocking plate is arranged in the crushing box and divides the interior of the crushing box, the bottom end of the barrier plate is rotatably provided with a rotating arm, two groups of rotating plates are rotatably arranged inside the barrier plate, and a second connecting shaft is fixedly connected on the side wall of the wide side of the rotating plate, a first driving belt is sleeved at the outer end of the second connecting shaft, the other end of the first transmission belt is sleeved on a driving wheel fixedly connected with an output shaft of the first motor, the first motor is arranged on the outer wall of the crushing box, the lower end of the first motor is also provided with a third motor on the outer wall of the crushing box, the first motor drives the rotating plate to turn, and the second connecting shaft extends into the box wall of the crushing box.

Preferably, the inside level of rose box is provided with the filter screen, filter screen both ends an organic whole is constructed there is the connecting block, the connecting block stretches into inside the tank wall of rose box to with tank wall sliding connection.

Preferably, a second pushing cylinder fixedly connected with the connecting block is further installed inside the box wall of the filter box, the bottom end of the second pushing cylinder is fixedly installed on the upper surface of the supporting plate, the box wall of the filter box is horizontally and fixedly welded to the supporting plate, the box wall of the filter box is arranged in a hollow mode and is used for the second pushing cylinder to be placed, and a discharge hole is formed in the bottom end of the filter box.

Preferably, the fan is symmetrically installed on the side wall of the interior of the dust removal box, the box wall of one end opposite to the fan is an opening, a blocking cover is installed on the exterior of the box wall, the opening is sealed by the blocking cover, and the bottom end of the blocking cover is communicated with the collecting pipe.

Preferably, an output shaft of the third motor is connected with a rotating arm, the rotating arm is rotatably arranged at the bottom end of the interior of the crushing box, and stirring blades are distributed on the outer wall of the rotating arm in an array manner.

Preferably, the bottom end of the crushing box is provided with a discharge port, two groups of grooves are formed in the bottom end face of the movable plate side by side, the top end face of the supporting rod extends into the grooves and is fixedly connected with a first connecting shaft of the T-shaped structure, and two ends of the first connecting shaft are fixedly connected with gears.

Preferably, the groove is internally provided with a tooth groove meshed with the gear.

Preferably, a second transmission belt is sleeved on the outer wall of the first connecting shaft, and the other end of the second transmission belt is sleeved on a driving wheel fixedly connected with a second motor driving wheel.

Preferably, push mechanism is installed to the upper end position of rose box, push mechanism includes the shell that links to each other with the rose box wall is fixed at least to and install inside the shell, and flexible end stretches into to the inside first pushing cylinder of rose box, first pushing cylinder stretches into to the inside one end of rose box and push pedal fixed linking to each other.

In addition, the invention also provides a treatment process of the in-situ recycling one-stop treatment device for the garbage, which comprises the following steps:

s1, firstly separating the construction waste from the soil, wherein the concrete separation mode can be that a vibrating machine in the prior art is adopted to shake off the soil from the recyclable construction waste, then the garbage is placed in a garbage can, a discharge hole at the bottom end of the garbage can is opened, the garbage enters a magnetic separator, the magnetic separator is used for screening the metal garbage, the metal is separated, the remaining garbage enters a dust removal box through a conveying belt, and the conveying belt can be used for manually separating large wood blocks, plastic blocks and the like when conveying the remaining garbage;

s2, turning on a fan, blowing out light garbage such as garbage ash and plastic debris on a conveying belt, blowing the light garbage onto a blocking cover, sliding the light garbage into a collecting pipe along the blocking cover, continuously conveying the residual garbage with heavy mass into a filter box through the conveying belt, and continuously manually sorting large wood blocks, plastic blocks and the like when the conveying belt conveys the residual garbage;

s3, conveying the filter screen to the upper end of the interior of the filter box when the second pushing cylinder is in a maximum distance unfolding state, arranging a feed inlet of the filter box at the upper end position, shaking off particles such as small wood blocks and plastic blocks on the filter screen by the aid of rapid vertical sliding of the second pushing cylinder after garbage is received, pushing the particles to the highest position by the second pushing cylinder after shaking is finished, driving a push plate to push the garbage out of a discharge port by the aid of the first pushing cylinder, and enabling the garbage to slide into the crushing box along the inclined plate;

s4, the pressing plate is driven by the hydraulic cylinder to move towards the large stone blocks and bricks on the barrier plate to extrude and crush the large stone blocks and the bricks, the second motor rotates, the second driving belt drives the first connecting shaft to rotate, the gear rotates, the plate is driven to move by the moving plate, and the extruding position is adjusted;

s5, after extrusion, the first motor rotates, the first transmission belt drives the second connecting shaft to rotate, the rotating plate rotates, the extruded garbage enters the bottom of the crushing box to be further stirred, the third motor is started, the rotating arm rotates to drive the stirring blades to rotate, the garbage is continuously crushed into aggregates, the aggregates are discharged from a discharge hole at the bottom end, and the aggregates are subsequently recycled.

The invention has the technical effects and advantages that: this solid useless normal position resourceful treatment device of building, pass through the magnet separator, the dust removal case, the rose box, the work of broken case, sort to rubbish, whole work flow is efficient, through low degree letter sorting and simple breakage, the screening, lower cost, just can consume the building waste in a large number, make its resourceful, produce great social and economic benefits, promote rubbish utilization, effectively promote the feature of environmental protection, reduce the damage of building waste to the environment, overall structure is convenient for install, can really suit according to the circumstances, the principle of handling nearby, the convenience of use has been promoted greatly, further promote the planning management to the building waste, this solid useless normal position resourceful treatment device of building, and is rational in infrastructure, the maximize utilizes the resource, the environmental protection, can be widely used.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the dust box of the present invention;

FIG. 3 is a schematic view of the internal structure of the filtration tank of the present invention;

FIG. 4 is a schematic view of the internal structure of the crushing box of the present invention;

FIG. 5 is a schematic view of the structure of the barrier plate of the present invention;

FIG. 6 is a schematic diagram of the structure of the movable plate of the present invention;

fig. 7 is a block diagram of the workflow of the present invention.

In the figure: 1 magnetic separator, 2 dustbin, 3 conveyer belt, 4 dust removal case, 5 pushing mechanism, 6 filter box, 7 first connecting shaft, 8 inclined plate, 9 hydraulic cylinder, 10 moving plate, 11 bracing piece, 12 crushing case, 13 fan, 14 baffle cover, 15 collecting pipe, 16 push pedal, 17 first push cylinder, 18 shell, 19 filter screen, 20 connecting block, 21 second push cylinder, 22 backup pad, 23 clamp plate, 24 baffle plate, 25 stirring vane, 26 rocking arm, 27 first motor, 28 revolving plate, 29 first driving belt, 30 second connecting shaft, 31 gear, 32 recess, 33 second driving belt, 34 second motor, 35 third motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a construction solid waste in-situ recycling treatment device shown in figures 1-7, which comprises a magnetic separator 1, a garbage can 2, a dust removing box 4, a pushing mechanism 5, a crushing box 12 and a conveyer belt 3, wherein a discharge hole at the lower end of the garbage can 2 is communicated with a feed hole of the magnetic separator 1, the magnetic separator 1 is connected with the dust removing box 4 through the conveyer belt 3, the conveyer belt 3 penetrates through the dust removing box 4, the other end of the conveyer belt extends into the outer part of the dust removing box 4 and is connected with a feed hole at the upper end of a filter box 6, the conveyer belt 3 between the dust removing box 4 and the filter box 6 is obliquely arranged, a discharge hole is formed in the upper end of one end side wall of the filter box 6 opposite to the conveyer belt 3, an inclined plate 8 is welded on the outer wall of the discharge hole, the other end of the inclined plate 8 extends into the crushing box 12, and the upper surface welding has the bracing piece 11, the bracing piece 11 is the distribution of rectangular array, surface sliding connection movable plate 10 on the bracing piece 11, the department located in the middle of the bottom end face of movable plate 10 is towards the inside vertical pneumatic cylinder 9 that is provided with of broken case 12, the one end that keeps away from movable plate 10 of pneumatic cylinder 9 is fixed with clamp plate 23 and links to each other, the inside of broken case 12 is provided with barrier plate 24, barrier plate 24 separates the inside of broken case 12, and barrier plate 24's bottom is rotated and is provided with rocking arm 26, barrier plate 24's inside is rotated and is provided with two sets of commentaries on classics board 28, and on 28 broad side wall of commentaries on classics board fixed connection second connecting axle 30, the outer pot head of second connecting axle 30 is equipped with first drive belt 29, the other pot head of first drive belt 29 is established on the action wheel that links to each other end with first motor 27 output shaft, the third motor 35 is further installed on the outer wall of the crushing box 12 at the lower end of the first motor 27, the first motor 27 drives the rotating plate 28 to turn, the second connecting shaft 30 extends into the box wall of the crushing box 12, the first driving belt 29 drives the second connecting shaft 30 to rotate, the rotating plate 28 rotates, and the extruded garbage enters the bottom of the crushing box 12 to be further stirred.

Specifically, the inside level of rose box 6 is provided with

filter screen

19, 19 both ends of filter screen an organic whole structure has connecting block 20, inside connecting block 20 stretched into the tank wall of rose box 6 to with tank wall sliding connection, the inside second that links to each other with connecting block 20 of still installing of tank wall of rose box 6 pushes away jar 21, the second pushes away jar 21 bottom fixed mounting at backup pad 22 upper surface, the fixed tank wall that welds rose box 6 of backup pad 22 level, the inside cavity setting that is of tank wall of rose box 6 supplies second to push away jar 21 and places, the discharge gate has been seted up to the bottom of rose box 6, and it shakes off through quick upper and lower slip of second push jar 21 with particulate matter such as small-size billet, the plastic pellet on the filter screen 19.

Specifically, fan 13 is installed to the symmetry on the inside lateral wall of dust removal case 4, and the one end tank wall relative with fan 13 sets up for the opening, and externally mounted has fender cover 14, fender cover 14 seals the opening, and keeps off 14 bottoms of cover and collecting pipe 15 intercommunication, and matter rubbish is blown to on the fender cover 14 to inside along keeping off 14 landing to collecting pipe 15 of cover.

Specifically, an output shaft of the third motor 35 is connected to a rotating arm 26, the rotating arm 26 is rotatably disposed at the bottom end inside the crushing box 12, stirring blades 25 are distributed in an array on the outer wall of the rotating arm 26, and the rotating arm 26 rotates to drive the stirring blades 25 to rotate, so that the garbage is continuously crushed into aggregates.

Specifically, a discharge hole is formed in the bottom end of the crushing box 12, two groups of grooves 32 are formed in the bottom end face of the moving plate 10 side by side, the top end face of the support rod 11 extends into the grooves 32 and is fixedly connected with a first connecting shaft 7 of a T-shaped structure, and gears 31 are fixedly connected to two ends of the first connecting shaft 7.

Specifically, the tooth's socket that meshes with gear 31 is seted up to the inside of recess 32, the cover is equipped with second drive belt 33 on the outer wall of first connecting axle 7, the other pot head of second drive belt 33 is established on the action wheel that links to each other with second motor 34 action wheel is fixed, and second motor 34 rotates and drives first connecting axle 7 by second drive belt 33 and rotate, and then gear 31 is rotatory, and movable plate 10 drives clamp plate 23 and removes, adjusts extruded position.

Specifically, push mechanism 5 is installed to the upper end position of rose box 6, push mechanism 5 includes the shell 18 that links to each other with 6 tank wall fixings of rose box at least to and install inside shell 18, and flexible end stretches into the first push cylinder 17 to 6 inside of rose box, first push cylinder 17 stretches into 6 inside one end of rose box and the fixed linking to each other of push pedal 16, drives push pedal 16 through first push cylinder 17 and releases rubbish by the discharge gate, and rubbish slides along hang plate 8 to inside broken case 12.

s1, firstly, separating the construction waste from the soil, wherein the concrete separation mode can be that a vibrating machine in the prior art is adopted to shake off the soil from the recyclable construction waste, then the garbage is placed in the garbage can 2, a discharge hole at the bottom end of the garbage can 2 is opened, the garbage enters the magnetic separator 1, the magnetic separator 1 is used for screening the metal garbage, the metal is separated, the remaining garbage enters the dust removal box 4 through the conveyer belt 3, and the conveyer belt 3 can be used for manually separating large wood blocks, plastic blocks and the like when conveying the remaining garbage;

s2, the fan 13 is turned on, light garbage such as garbage ash and plastic debris on the conveying belt 3 is blown out, the light garbage is blown to the blocking cover 14 and slides along the blocking cover 14 to the interior of the collecting pipe 15, the residual garbage with heavy mass is continuously conveyed to the interior of the filter box 6 through the conveying belt 3, and when the conveying belt 3 conveys the residual garbage, manual separation can be continuously carried out to separate large wood blocks, plastic blocks and the like;

s3, conveying the filter screen 19 to the upper end of the inside of the filter box 6 when the second pushing cylinder 21 is in a maximum distance unfolding state, arranging a feed inlet of the filter box 6 at the upper end of the filter box 6, quickly sliding the second pushing cylinder 21 up and down to shake off particles such as small wood blocks and plastic blocks on the filter screen 19 after receiving the garbage, pushing the particles to the highest position by the second pushing cylinder 21 after shaking is finished, driving the push plate 16 to push the garbage out of the discharge outlet by the first pushing cylinder 17, and sliding the garbage to the inside of the crushing box 12 along the inclined plate 8;

s4, the hydraulic cylinder 9 drives the pressing plate 23 to move towards the large stone blocks and bricks on the blocking plate 24 to extrude and crush the large stone blocks and bricks, the second motor 34 rotates and drives the first connecting shaft 7 to rotate through the second transmission belt 33, the gear 31 rotates, the moving plate 10 drives the pressing plate 23 to move, and the extruding position is adjusted;

s5, after extrusion, the first motor 27 rotates, the first transmission belt 29 drives the second connecting shaft 30 to rotate, the rotating plate 28 rotates, the extruded garbage enters the bottom of the crushing box 12 to be further stirred, the third motor 35 is turned on, the rotating arm 26 rotates to drive the stirring blade 25 to rotate, the garbage is continuously crushed into aggregate, the aggregate is discharged from a discharge hole at the bottom end, and the aggregate is subsequently recycled.

The invention can be applied to slope fixing work, China really has a large number of riverways, roadbeds and unstable mountains and urgently needs slope fixing, the performance requirement of slope protection concrete blocks on concrete is obviously lower than that of building blocks, a novel slope protection form is designed, the slope fixing effect and the ecological effect are achieved, the problems in the two aspects can be solved by taking a large amount of low-sorting building wastes as aggregates, and meanwhile, the finally screened garbage can be recycled and remanufactured, and can be used for manufacturing bricks and iron again or applied to other work fields in the prior art.

Finally, it should be noted that: 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 or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a building solid useless normal position resourceful treatment device, includes magnet separator (1), dustbin (2), dust removal case (4), push mechanism (5), broken case (12) and conveyer belt (3), its characterized in that: the discharge gate of dustbin (2) lower extreme and the feed inlet of magnet separator (1) communicate, link to each other through conveyer belt (3) between magnet separator (1) and dust removal case (4), conveyer belt (3) pass the inside of dust removal case (4), and the other end stretches into the outside of dust removal case (4) and is connected with the feed inlet of rose box (6) upper end, conveyer belt (3) between dust removal case (4) and rose box (6) are the slope setting, the discharge gate has been seted up to rose box (6) and the relative one end limit wall upper end of conveyer belt (3), and the welding has hang plate (8) on the discharge gate outer wall, the other end of hang plate (8) stretches into the inside to broken case (12), the upper end of broken case (12) is the opening setting, and the upper surface welding has bracing piece (11), bracing piece (11) are the distribution of rectangular array and set up, the movable plate is connected with the upper surface of the supporting rod (11) in a sliding manner and is provided with a movable plate (10), the bottom end face of the movable plate (10) is centrally and vertically provided with a hydraulic cylinder (9) towards the inside of the crushing box (12), one end of the hydraulic cylinder (9) far away from the movable plate (10) is fixedly connected with a pressing plate (23), the inside of the crushing box (12) is provided with a blocking plate (24), the blocking plate (24) is used for separating the inside of the crushing box (12), the bottom end of the blocking plate (24) is rotatably provided with a rotating arm (26), the inside of the blocking plate (24) is rotatably provided with two sets of rotating plates (28), a second connecting shaft (30) is fixedly connected onto the side wall of the wide side of the rotating plate (28), the outer end of the second connecting shaft (30) is sleeved with a first driving belt (29), the other end of the first driving belt (29) is, first motor (27) set up on the outer wall of broken case (12), third motor (35) are still installed to the lower extreme of first motor (27) on the outer wall of broken case (12), first motor (27) drive commentaries on classics board (28) upset, second connecting axle (30) stretch into to the incasement portion of the tank wall of broken case (12).

2. The in-situ resource treatment device for the solid wastes in the building of claim 1, which is characterized in that: the filter box is characterized in that a filter screen (19) is horizontally arranged in the filter box (6), connecting blocks (20) are integrally formed at two ends of the filter screen (19), and the connecting blocks (20) stretch into the box wall of the filter box (6) and are in sliding connection with the box wall.

3. The in-situ resource treatment device for the solid wastes in the building of claim 1, which is characterized in that: the inside second that links to each other with connecting block (20) is still installed to the tank wall of rose box (6) and is pushed jar (21), second pushes away jar (21) bottom fixed mounting at backup pad (22) upper surface, the tank wall of backup pad (22) horizontal fixed welding rose box (6), the inside cavity setting that is of tank wall of rose box (6) supplies second to push away jar (21) and places, the discharge gate has been seted up to the bottom of rose box (6).

4. The in-situ resource treatment device for the solid wastes in the building of claim 1, which is characterized in that: fan (13) are installed to the symmetry on the inside side wall of dust removal case (4), and the one end tank wall relative with fan (13) sets up for the opening, and externally mounted has fender cover (14), keep off cover (14) and seal the opening, and keep off cover (14) bottom and collecting pipe (15) intercommunication.

5. The in-situ resource treatment device for the solid wastes in the building of claim 1, which is characterized in that: an output shaft of the third motor (35) is connected with a rotating arm (26), the rotating arm (26) is rotatably arranged at the bottom end of the interior of the crushing box (12), and stirring blades (25) are distributed on the outer wall of the rotating arm (26) in an array manner.

6. The in-situ resource treatment device for the solid wastes in the building of claim 1, which is characterized in that: the discharge gate has been seted up to the bottom of broken case (12), two sets of recess (32) have been seted up on the bottom face of movable plate (10) side by side, and the top face of bracing piece (11) stretches into inside recess (32), links to each other with first connecting axle (7) fixed of T shape structure, first connecting axle (7) both ends fixed connection gear (31).

7. The in-situ resource treatment device for the solid wastes in the building of claim 6, which is characterized in that: tooth grooves meshed with the gears (31) are formed in the grooves (32).

8. The in-situ resource treatment device for the solid wastes in the building of claim 6, which is characterized in that: the outer wall of the first connecting shaft (7) is sleeved with a second transmission belt (33), and the other end of the second transmission belt (33) is sleeved on a driving wheel fixedly connected with a driving wheel of a second motor (34).

9. The in-situ resource treatment device for the solid wastes in the building of claim 1, which is characterized in that: push mechanism (5) are installed to the upper end position of rose box (6), push mechanism (5) include at least with the fixed shell (18) that link to each other of rose box (6) tank wall to and install inside shell (18), and flexible end stretches into to the inside first push cylinder (17) of rose box (6), first push cylinder (17) stretch into to the inside one end of rose box (6) and push pedal (16) fixed linking to each other.