CN113073813A

CN113073813A - High-rise building rubbish transportation device

Info

Publication number: CN113073813A
Application number: CN202110466340.3A
Authority: CN
Inventors: 张致富; 熊小渊; 王新华
Original assignee: Henan Zhongxiangrui Engineering Consulting Co ltd
Current assignee: Henan Zhongxiangrui Engineering Consulting Co ltd
Priority date: 2021-04-28
Filing date: 2021-04-28
Publication date: 2021-07-06
Anticipated expiration: 2041-04-28
Also published as: CN113073813B

Abstract

The invention discloses a high-rise building garbage transporting device, and relates to the technical field of high-rise building garbage treatment devices. The invention comprises a high-rise garbage treatment conveying pipe. According to the invention, through the design of the pretreatment leading-in structure and the sorting leading-in module in the structure, the device is convenient for classifying the size of construction waste, the situation that large recyclable materials are discarded along with the waste is avoided, the waste is stably led out, the functionality of the device is improved, and due to the pretreatment module in the structure, the device is convenient for wetting and sterilizing the led-out waste, a large amount of dust is prevented from being raised in the waste transportation process, the influence on the environment is reduced, and through the design of the loss reduction leading-out structure, the buffer guide on the waste is formed in the waste blanking leading-out process, the device is prevented from being damaged in the falling leading-out process of high-rise waste, and the service life of the device is prolonged.

Description

High-rise building rubbish transportation device

Technical Field

The invention relates to the technical field of high-rise building garbage treatment devices, in particular to a high-rise building garbage conveying device.

Background

Along with the rapid development of society, more and more high-rise building's appearance leads to high-rise building rubbish to appear piling up in a large number easily, consequently need transport high-rise building rubbish, the transportation of prior art to rubbish divide into fork truck transportation and high altitude to build the pipeline and directly drops in downwards, but because the high altitude is built the pipeline and directly drops in downwards and wholly lacks the preliminary treatment and the letter sorting to building rubbish, lead to the waste of recoverable material and flying upward of dust and bacterium, and because the distance to the pipeline bottom is too high among the tenesmus process, lack buffer structure, injure the pipeline easily, influence life.

Disclosure of Invention

The invention aims to provide a high-rise building garbage transporting device, which solves the existing problems that: because the pipeline is directly put downwards to be totally lack of the pretreatment and sorting of the construction waste when being put up at high altitude, the waste of the recyclable materials and the flying of dust and bacteria are caused.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high floor building rubbish conveyer, includes high-rise refuse treatment transport pipe, the one end of high-rise refuse treatment transport pipe is fixed with and is used for sorting rubbish and goes the leading-in structure of preliminary treatment that the fungus was handled to rubbish go to dirt, the inboard fixedly connected with of high-rise refuse treatment transport pipe bottom is used for cushioning the reduction loss that supports avoiding smashing the device and deriving the structure to rubbish under the eminence.

Preferably, the pretreatment introducing structure comprises a sorting introducing module and a pretreatment module, and a plurality of pretreatment modules are fixedly connected to the top end of the sorting introducing module.

Preferably, select separately leading-in module and push away baffle, rotation guide arm and screening including built-in carrier, first motor, straight to supporting rod, conveyer belt, eccentricity and move the guide block, the inboard one end fixedly connected with of built-in carrier is straight to supporting rod, straight to the first motor of one side through screw fixedly connected with of supporting rod, straight to the inboard fixedly connected with conveyer belt on supporting rod top, the output fixedly connected with eccentricity of first motor pushes away the baffle, one side that the eccentricity pushed away the baffle is rotated and is connected with the rotation guide arm, the other end that rotates the guide arm rotates and is connected with the screening and moves the guide block.

Preferably, select separately leading-in module still includes spacing spring, extension drive plate, screening and carries on the frame and reserve the board, the screening is moved the guide block and is taken the inboard other end sliding connection of carrier in with, the screening is moved the both sides of guide block and all has been welded spacing spring, spacing spring's opposite side and built-in carrier welded connection, the top welding that the guide block was moved in the screening has the extension drive plate, the top fixedly connected with screening of extension drive plate one side carries on the frame, the inboard welding that the frame was carried in the screening has and reserves the board, reserve the inside of board and seted up a plurality of screening blanking holes.

The method comprises the steps of placing accumulated garbage on the top end of a reserved plate, utilizing a first motor to output torque to an eccentric push guide plate at the moment, driving the eccentric push guide plate to complete rotation, utilizing the eccentric design of the eccentric push guide plate to enable the eccentric push guide plate to generate continuous change from the shortest end to the longest end in the rotation process, utilizing a rotation guide rod to conduct the change to a screening movable guide block, utilizing the sliding connection between the screening movable guide block and an internally-arranged carrying frame to form reciprocating shaking, utilizing a limiting spring to limit the shaking of the screening movable guide block to avoid collision with the internally-arranged carrying frame, utilizing an extension driving plate to conduct the reciprocating shaking of the screening movable guide block to a screening carrying frame, utilizing the screening carrying frame to drive the reserved plate to shake, enabling small-sized and non-reusable construction garbage to fall into a conveying belt through a screening blanking hole, utilizing the conveying belt to guide a high-level garbage treatment conveying pipe, placing the garbage left on the reserved plate at the conveying belt to conduct to the high-level garbage treatment conveying The transportation pipe finishes transportation and export.

Preferably, the pretreatment module is including carrying on locating plate, water storage box, suction pump, atomizing delivery tube and lamp stand, carry on the top fixedly connected with water storage box of locating plate, the bottom fixedly connected with suction pump of water storage box one end, the output fixedly connected with atomizing delivery tube of suction pump, the top welding of water storage box inboard has the lamp stand.

Preferably, the pretreatment module still includes ultraviolet irradiation lamp, reaction plate, second motor and supplementary tipping bucket of stirring, screw fixedly connected with second motor is passed through to one side of carrying on the locating plate, the supplementary tipping bucket of stirring of output fixedly connected with of second motor, the inboard bottom fixedly connected with reaction plate of lamp stand, the inboard of lamp stand is fixed with a plurality of ultraviolet irradiation lamps, the material of reaction plate is ya keli, the upper surface coating of reaction plate has nanometer titanium dioxide.

When carrying out the screening to reservation board department rubbish, utilize the second motor to drive the supplementary tipping bucket of stirring and accomplish the rotation, utilize the supplementary tipping bucket of stirring to stir building rubbish, and utilize the water pump with the inside storage of water storage box pump drainage entering atomization delivery pipe department, utilize the atomization delivery pipe atomizing to spray, make building rubbish stir down expand with the contact of atomized water flow by supplementary stirring the tipping bucket, wash the dust, diffuse the influence air when avoiding the dust to fall in high-rise refuse treatment conveyer pipe, and utilize the ultraviolet radiation lamp to shine ultraviolet ray and the nanometer titanium dioxide of reaction plate department produces catalytic reaction, thereby carry out light medium cooperation degerming to building rubbish.

Preferably, reduce the loss and derive the structure including bearing loss prevention module and slant derivation board, the bottom mounting of slant derivation board has three to bear loss prevention module, and is three bear loss prevention module and arrange according to equilateral triangle's extreme point, utilize the design of equilateral triangle form for bear the atress of loss prevention module more evenly, derive the board to the slant and reach better stable support.

Preferably, bear and prevent that loss module slides and unload power post, first spring, push down and unload power push rod, first joining in marriage in location support base, the first branch and lead folding rod and central atress pillar, the both ends of central atress pillar are rotated and are connected with first joining in marriage and lead folding rod, the inboard rotation that first joins in marriage and lead folding rod one end is connected with push down and unload power push rod, the bottom welding of push down and unload power push rod has first spring, the outside sliding connection that pushes down and unload power push rod bottom has the first branch and slide and unload power post in leading, the bottom welding that slides and unload power post in leading has the location support base, the bottom and the location support base welded connection of first spring.

Preferably, bear loss prevention module and still include that the second is joined in marriage and leads folding rod, transversely unload power push rod, second and divide and lead interior power of unloading post and second spring, the both ends of central atress pillar bottom are rotated and are connected with the second and join in marriage and lead folding rod, the second is joined in marriage and is led the bottom of folding rod and rotate with the location support pedestal and be connected, the second is joined in marriage and is led the one end of folding rod and rotate and be connected with transversely unload power push rod, the one end welding of transversely unloading power push rod has the second spring, the one end of sliding power of unloading post in the second is led and is led interior power of unloading post welded connection in the first, transversely unload power push rod one end and second and divide interior side sliding connection who slides power of unloading post in leading, the other end of second spring and second divide and lead the interior side welded connection of sliding power of unloading post.

When garbage falls to the inclined guide plate, the central stressed strut is connected with the inclined guide plate to bear stress, the central stressed strut is pressed downwards under the action of force to guide the impact force on the inclined guide plate to the second distribution guide folding rod and the first distribution guide folding rod to form two-way distribution guide and discharge force, so that the stability of supporting the inclined guide plate is improved, the stress guided by the first distribution guide folding rod is used for deducing the internal sliding of the lower pressure discharge force push rod in the first distribution guide sliding and discharge force column, the stress is extruded and deduced to the first spring, the stress guided by the second distribution guide folding rod is used for deducing the transverse discharge force push rod through the folding of the second distribution guide folding rod, the sliding of the transverse discharge force push rod in the second distribution guide sliding and discharge force column is used for deducing and extruding the stress to the second spring, and the elastic potential energy generated by the synchronous stress compression of the first spring and the second spring is used, the sequential suction of the guiding stress of the central stress strut is counteracted, so that the supporting and guiding of the falling garbage are completed by the matching of the bearing anti-loss module and the inclined guiding plate, and the impact injury of the falling garbage to a high-rise garbage treatment conveying pipe is reduced.

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

1. according to the invention, through the design of the pretreatment leading-in structure and the sorting leading-in module in the structure, the device is convenient for classifying the size of the construction waste, the situation that a larger recyclable material is discarded along with the waste is avoided, the waste is stably led out, the functionality of the device is improved, and due to the pretreatment module in the structure, the device is convenient for wetting and sterilizing the led-out waste, a large amount of dust is prevented from being raised in the waste transportation process, and the influence on the environment is reduced;

2. according to the invention, through the design of the loss reducing guide structure, the buffer guide for the garbage is formed in the garbage blanking and guide process, so that the device is prevented from being damaged in the falling and guide process of the high-rise garbage, and the service life of the device is prolonged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a side view of the present invention in its entirety;

FIG. 3 is a schematic view of a partial structure of a pretreatment introduction structure according to the present invention;

FIG. 4 is a schematic view of a partial structure of a sorting lead-in module according to the present invention;

FIG. 5 is a side view of the sort introduction module of the present invention;

FIG. 6 is a schematic view of a partial structure of a pre-processing module according to the present invention;

FIG. 7 is a schematic diagram of a partial structure of a reduced loss derivation structure according to the present invention;

fig. 8 is a schematic view of a partial structure of the load-bearing loss prevention module according to the present invention.

In the figure: 1. a high-rise garbage treatment transport pipe; 2. preprocessing the import structure; 3. a loss reduction lead-out structure; 4. a sorting and importing module; 5. a preprocessing module; 6. a built-in erection support frame; 7. a first motor; 8. a straight support rod; 9. a conveyor belt; 10. an eccentric push guide plate; 11. rotating the guide rod; 12. screening a movable guide block; 13. a limiting spring; 14. extending the driver plate; 15. screening the carrying frame; 16. reserving a plate; 17. carrying a positioning plate; 18. a water storage tank; 19. a water pump; 20. an atomized delivery tube; 21. a lamp socket; 22. an ultraviolet irradiation lamp; 23. a reaction plate; 24. a second motor; 25. auxiliary stirring of the tipping bucket; 26. a load loss prevention module; 27. an oblique guide plate; 28. positioning the support base; 29. a first in-guide sliding force-releasing column; 30. a first spring; 31. pressing down the force-releasing push rod; 32. a first guiding and folding rod; 33. a central stressed strut; 34. the second guiding and folding rod is matched; 35. a transverse force-unloading push rod; 36. a second guide inner sliding force-releasing column; 37. a second spring.

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.

Referring to fig. 1-2, a high-rise building garbage transporting device comprises a high-rise garbage treatment transporting pipe 1, wherein a pretreatment introducing structure 2 for sorting garbage and performing dust and bacteria removing treatment on the garbage is fixed at one end of the high-rise garbage treatment transporting pipe 1, and a loss reducing leading-out structure 3 for buffering and supporting the garbage falling from a high place to avoid smashing the device is fixedly connected to the inner side of the bottom end of the high-rise garbage treatment transporting pipe 1.

Please refer to fig. 3:

the pretreatment introducing structure 2 comprises a sorting introducing module 4 and a pretreatment module 5, wherein the top end of the sorting introducing module 4 is fixedly connected with a plurality of pretreatment modules 5;

please refer to fig. 4-5:

the sorting and leading-in module 4 comprises an internal erection support frame 6, a first motor 7, a straight support rod 8, a conveyor belt 9, an eccentric push guide plate 10, a rotating guide rod 11 and a screening movable guide block 12, wherein one end of the inner side of the internal erection support frame 6 is fixedly connected with the straight support rod 8, one side of the straight support rod 8 is fixedly connected with the first motor 7 through a screw, the inner side of the top end of the straight support rod 8 is fixedly connected with the conveyor belt 9, the output end of the first motor 7 is fixedly connected with the eccentric push guide plate 10, one side of the eccentric push guide plate 10 is rotatably connected with the rotating guide rod 11, and the other end of the rotating guide rod 11 is rotatably connected with the screening;

the sorting and leading-in module 4 further comprises a limiting spring 13, an extending driving plate 14, a screening and carrying frame 15 and a reserved plate 16, a screening movable guide block 12 is connected with the other end of the inner side of the built-in carrying frame 6 in a sliding mode, the limiting springs 13 are welded on two sides of the screening movable guide block 12, the other side of the limiting spring 13 is connected with the built-in carrying frame 6 in a welding mode, the extending driving plate 14 is welded at the top end of the screening movable guide block 12, the screening and carrying frame 15 is fixedly connected to the top end of one side of the extending driving plate 14, the reserved plate 16 is welded on the inner side of the screening and carrying frame 15, and a plurality of screening and;

the method comprises the steps of placing accumulated garbage on the top end of a reserved plate 16, outputting torque to an eccentric push-guide plate 10 by using a first motor 7 at the moment, driving the eccentric push-guide plate 10 to rotate, enabling the eccentric push-guide plate 10 to generate continuous change from the shortest end to the longest end in the rotating process by using the eccentric design of the eccentric push-guide plate 10, conducting the change to a screening movable guide block 12 by using a rotating guide rod 11, forming reciprocating shaking by using the sliding connection of the screening movable guide block 12 and an internally-installed carrying frame 6, limiting the shaking of the screening movable guide block 12 by using a limiting spring 13 to avoid collision with the internally-installed carrying frame 6, conducting the reciprocating shaking of the screening movable guide block 12 to a screening carrying frame 15 by using an extending driving plate 14, driving the reserved plate 16 to shake by using the screening carrying frame 15, enabling small-sized and non-recyclable construction garbage to fall into a conveyor belt 9 through a screening blanking hole, and guiding the small-sized and non-recyclable construction garbage, the garbage left on the reserved plate 16 is placed on the conveyor belt 9 to be conducted to the high-layer garbage treatment conveying pipe 1 to finish the conveying and leading-out after being screened again without errors;

please refer to fig. 6:

the pretreatment module 5 comprises a carrying positioning plate 17, a water storage tank 18, a water pump 19, an atomization delivery pipe 20 and a lamp holder 21, wherein the top end of the carrying positioning plate 17 is fixedly connected with the water storage tank 18, the bottom end of one end of the water storage tank 18 is fixedly connected with the water pump 19, the output end of the water pump 19 is fixedly connected with the atomization delivery pipe 20, and the lamp holder 21 is welded at the top end of the inner side of the water storage tank 18;

the pretreatment module 5 further comprises ultraviolet radiation lamps 22, a reaction plate 23, a second motor 24 and an auxiliary stirring tipping bucket 25, one side of the carrying positioning plate 17 is fixedly connected with the second motor 24 through screws, the output end of the second motor 24 is fixedly connected with the auxiliary stirring tipping bucket 25, the bottom end of the inner side of the lamp holder 21 is fixedly connected with the reaction plate 23, a plurality of ultraviolet radiation lamps 22 are fixed on the inner side of the lamp holder 21, the reaction plate 23 is made of acrylic, and the upper surface of the reaction plate 23 is coated with nano titanium dioxide;

when the garbage at the reserved plate 16 is screened, the auxiliary stirring tipping bucket 25 is driven by the second motor 24 to complete rotation, the construction garbage is stirred by the auxiliary stirring tipping bucket 25, water stored in the water storage tank 18 is pumped and discharged into the atomization delivery pipe 20 by the water pump 19, the atomization delivery pipe 20 is used for atomizing and spraying, so that the construction garbage is stirred by the auxiliary stirring tipping bucket 25 to expand the contact with atomized water flow, dust is washed away, the dust is prevented from influencing air in a diffusion mode when falling in the high-rise garbage treatment conveying pipe 1, the ultraviolet radiation lamp 22 is used for irradiating ultraviolet rays and carrying out catalytic reaction with the nano titanium dioxide at the reaction plate 23, and the light-medium cooperation sterilization is carried out on the construction garbage;

please refer to fig. 7-8:

the loss reducing and guiding structure 3 comprises a bearing loss prevention module 26 and an oblique guiding plate 27, wherein three bearing loss prevention modules 26 are fixed at the bottom end of the oblique guiding plate 27, the three bearing loss prevention modules 26 are arranged according to the end points of an equilateral triangle, and the bearing loss prevention modules 26 are more evenly stressed and the oblique guiding plate 27 is better and stably supported by the equilateral triangle;

the bearing loss prevention module 26 comprises a positioning support base 28, a first guide inner sliding force unloading column 29, a first spring 30, a lower pressing force unloading push rod 31, a first matching guide folding rod 32 and a center stress support column 33, wherein two ends of the center stress support column 33 are rotatably connected with the first matching guide folding rod 32, the inner side of one end of the first matching guide folding rod 32 is rotatably connected with the lower pressing force unloading push rod 31, the bottom end of the lower pressing force unloading push rod 31 is welded with the first spring 30, the outer side of the bottom end of the lower pressing force unloading push rod 31 is slidably connected with the first guide inner sliding force unloading column 29, the bottom end of the first guide inner sliding force unloading column 29 is welded with the positioning support base 28, and the bottom end of the first spring 30 is welded with the positioning support base 28;

the bearing loss prevention module 26 further comprises a second distribution guide folding rod 34, a transverse force unloading push rod 35, a second distribution guide inner sliding force unloading column 36 and a second spring 37, two ends of the bottom end of the central stressed strut 33 are rotatably connected with the second distribution guide folding rod 34, the bottom end of the second distribution guide folding rod 34 is rotatably connected with the positioning support base 28, one end of the second distribution guide folding rod 34 is rotatably connected with the transverse force unloading push rod 35, one end of the transverse force unloading push rod 35 is welded with the second spring 37, one end of the second distribution guide inner sliding force unloading column 36 is welded with the first distribution guide inner sliding force unloading column 29, one end of the transverse force unloading push rod 35 is slidably connected with the inner side of the second distribution guide inner sliding force unloading column 36, and the other end of the second spring 37 is welded with the inner side of the second distribution guide inner sliding force unloading column 36.

When the garbage falls to the inclined guide plate 27, the central stressed strut 33 is connected with the inclined guide plate 27 to bear stress, the central stressed strut 33 is pressed downwards under the action of force to guide the impact force on the inclined guide plate 27 to the second matched guide folding rod 34 and the first matched guide folding rod 32 to form two-way guide and discharge force, so that the support stability of the inclined guide plate 27 is improved, the stress guided by the first matched guide folding rod 32 is used for deducing that the downward pressing force push rod 31 slides in the first matched guide sliding and discharge force column 29, the stress is extruded and guided to the first spring 30, the stress guided by the second matched guide folding rod 34 is used for being guided out through the folding transverse force discharge push rod 35 of the second matched guide folding rod 34, the stress guided by the transverse force discharge push rod 35 in the second matched guide sliding and discharge force column 36 is used for deducing and pressing the stress to the second spring 37, the sequential suction force offset of the leading-out stress of the central stress strut 33 is completed by utilizing the elastic potential energy generated by the synchronous stress compression of the first spring 30 and the second spring 37, so that the support and leading-out of the falling garbage are completed by utilizing the matching of the bearing loss prevention module 26 and the inclined leading-out plate 27, and the impact injury of the falling garbage to the high-rise garbage treatment conveying pipe 1 is reduced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a high floor building rubbish conveyer, includes high-rise refuse treatment transport pipe (1), its characterized in that: the one end of high-rise refuse treatment transport pipe (1) is fixed with and is used for sorting rubbish and goes the leading-in structure of preliminary treatment (2) that the fungus was handled to the rubbish that goes, the inboard fixedly connected with of high-rise refuse treatment transport pipe (1) bottom is used for carrying out the buffering support to rubbish that falls to the eminence and avoids pounding reduction loss derivation structure (3) of hindering the device.

2. A high-rise construction waste transport device according to claim 1, characterized in that: the pretreatment introducing structure (2) comprises a sorting introducing module (4) and a pretreatment module (5), and the top end of the sorting introducing module (4) is fixedly connected with a plurality of pretreatment modules (5).

3. A high-rise construction waste transport device according to claim 2, characterized in that: sorting leading-in module (4) moves guide block (12) including built-in carrier (6), first motor (7), straight to support pole (8), conveyer belt (9), eccentric push away baffle (10), rotation guide arm (11) and screening, built-in one end fixedly connected with who takes carrier (6) inboard is straight to support pole (8), straight to one side of support pole (8) through the first motor of screw fixedly connected with (7), straight to inboard fixedly connected with conveyer belt (9) on support pole (8) top, the output fixedly connected with of first motor (7) is eccentric to push away baffle (10), one side that eccentric pushed away baffle (10) is rotated and is connected with rotation guide arm (11), the other end that rotates guide arm (11) is rotated and is connected with screening and moves guide block (12).

4. A high-rise construction waste transport device according to claim 3, characterized in that: sorting leading-in module (4) still includes spacing spring (13), extension drive plate (14), screening and carries on frame (15) and reserves board (16), the screening moves guide block (12) and the inboard other end sliding connection of built-in carrier (6), the screening moves the both sides of guide block (12) and all welds spacing spring (13), the opposite side and the built-in carrier (6) welded connection that takes of spacing spring (13), the top welding that the screening moved guide block (12) has extension drive plate (14), the top fixedly connected with screening of extension drive plate (14) one side carries on frame (15), the inboard welding that the screening carried frame (15) has reserved board (16), reserve the inside of board (16) and seted up a plurality of screening blanking holes.

5. A high-rise construction waste transport device according to claim 2, characterized in that: pretreatment module (5) is including carrying on locating plate (17), water storage box (18), suction pump (19), atomizing delivery tube (20) and lamp stand (21), carry on top fixedly connected with water storage box (18) of locating plate (17), the bottom fixedly connected with suction pump (19) of water storage box (18) one end, the output fixedly connected with atomizing delivery tube (20) of suction pump (19), the top welding of water storage box (18) inboard has lamp stand (21).

6. A high-rise building rubbish transportation device as claimed in claim 5, characterized in that: pretreatment module (5) still include ultraviolet irradiation lamp (22), reaction plate (23), second motor (24) and supplementary tipping bucket (25) of stirring, screw fixedly connected with second motor (24) is passed through to one side of carrying on locating plate (17), the supplementary tipping bucket (25) of stirring of output fixedly connected with of second motor (24), the inboard bottom fixedly connected with reaction plate (23) of lamp stand (21), the inboard of lamp stand (21) is fixed with a plurality of ultraviolet irradiation lamp (22), the material of reaction plate (23) is ya keli, the upper surface coating of reaction plate (23) has nanometer titanium dioxide.

7. A high-rise construction waste transport device according to claim 1, characterized in that: reduce the loss and derive structure (3) including bearing anti-loss module (26) and slant derivation board (27), the bottom mounting of slant derivation board (27) has three to bear anti-loss module (26), and is three bear anti-loss module (26) and arrange according to equilateral triangle's extreme point.

8. A high-rise construction waste transport device according to claim 7, characterized in that: the bearing loss-prevention module (26) comprises a positioning support base (28), a first guide inner sliding unloading column (29), a first spring (30), a lower pressure unloading push rod (31), a first guide folding rod (32) and a central stress strut (33), two ends of the central stress strut (33) are rotationally connected with a first matching and guiding folding rod (32), the inner side of one end of the first matching and guiding folding rod (32) is rotationally connected with a lower pressure-relief push rod (31), a first spring (30) is welded at the bottom end of the lower pressure-relief push rod (31), the outer side of the bottom end of the lower pressure unloading push rod (31) is connected with a first guide inner sliding unloading column (29) in a sliding way, the bottom end of the first guide inner sliding force-unloading column (29) is welded with a positioning support base (28), the bottom end of the first spring (30) is connected with the positioning support base (28) in a welding mode.

9. A high-rise construction waste transport device according to claim 8, characterized in that: the bearing anti-loss module (26) also comprises a second matching guide folding rod (34), a transverse force unloading push rod (35), a second guide inner sliding force unloading column (36) and a second spring (37), two ends of the bottom end of the central stressed strut (33) are rotatably connected with a second matching and guiding folding rod (34), the bottom end of the second guiding and folding rod (34) is rotatably connected with the positioning and supporting base (28), one end of the second matched guiding folding rod (34) is rotationally connected with a transverse force unloading push rod (35), one end of the transverse force unloading push rod (35) is welded with a second spring (37), one end of the second guide inner sliding force-discharging column (36) is welded with the first guide inner sliding force-discharging column (29), one end of the transverse force unloading push rod (35) is connected with the inner side of the second guide inner sliding force unloading column (36) in a sliding way, the other end of the second spring (37) is welded and connected with the inner side of the second guide inner sliding force-unloading column (36).