CN114775953B - Vertical conveying pipeline for building body attached type high-rise building rubbish - Google Patents

Abstract

The invention discloses a vertical conveying pipeline for building body attached type high-rise building garbage, which comprises a vertical pipeline main body and a garbage recycling bin at the bottom, wherein a fixed installation frame is arranged between a floor slab and the vertical pipeline main body, a movable pedal is arranged on the upper surface of the fixed installation frame, a buffer movable frame is uniformly distributed in the vertical pipeline main body, a limit inserted link is arranged between the movable pedal and an adjacent buffer movable frame, a spray pipe is arranged above the buffer movable frame, the spray pipe is communicated with a circulating water supply pipe through a connecting hose, and the connecting hose is clamped and fixed at the adjacent buffer movable frame. According to the invention, the garbage is buffered and guided to drop through the buffering movable frame, the buffering movable frame deflects and controls the spraying pipe to discharge water and dust, meanwhile, the circulating water flow formed by the circulating water supply pipe of the spraying pipe is matched with the garbage recycling bin to carry out flotation and water resource recycling of the construction garbage, so that the garbage recycling bin has good linkage functionality.

Description

Vertical conveying pipeline for building body attached type high-rise building rubbish

Technical Field

The invention relates to the technical field related to building construction, in particular to a vertical conveying pipeline for building body attached type high-rise building rubbish.

Background

In the building construction process, more building rubbish is usually generated, and the building rubbish comprises concrete blocks, broken bricks, some plastics, wooden waste materials and the like, and needs to be frequently cleared, so that the ground construction rubbish and the bottom building construction rubbish are relatively convenient to treat, and the rubbish cleared for high-rise buildings often needs to be transported through a lifter such as an elevator.

The existing high-rise building rubbish has a certain problem in the clearing and treating process:

1. The elevator needs to transport back and forth, single conveying capability is limited, each time of transportation is time-consuming and labor-consuming, the elevator needs to move to a bottom layer and further needs to go to a stacking area to stack, the elevator lacks the systematic treatment of cleaning, clearing and recycling of construction waste, waste cleaning is not timely in the waste treatment process, and site environment and construction progress are affected by site waste accumulation;

2. At present, part of high-rise building garbage adopts pipeline transportation, but most of the vertical pipeline structures are simpler, the impact is larger in the process of throwing the high-rise building garbage, more dust and larger noise are easy to generate, the garbage is piled up in situ when falling to the ground, the garbage is easy to splash and larger dust, classification treatment is inconvenient, and systematic cleaning dust fall and garbage classification recovery treatment auxiliary measures are lacked.

Aiming at the problems, innovative design is carried out on the basis of the original high-rise building garbage clearing equipment.

Disclosure of Invention

The invention aims to provide a vertical conveying pipeline for building body attached type high-rise building rubbish, which aims to solve the problems of low cleaning and disposal work efficiency of the high-rise building rubbish and lack of systematic disposal of cleaning and disposal dust and rubbish recovery in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a vertical conveying pipeline for building body attached type high-rise building rubbish comprises a vertical pipeline main body and a rubbish recycling bin at the bottom;

The vertical pipeline main body is attached to the floor slab, a fixed mounting frame is arranged between the floor slab and the vertical pipeline main body, and the fixed mounting frame and the vertical pipeline main body are fixedly mounted through a mounting hoop;

The vertical pipeline main body is provided with a floor throwing opening above the side of the fixed mounting frame, the opening of the floor throwing opening is hinged with a movable cover plate, and the upper surface of the fixed mounting frame is provided with a movable pedal;

A buffer movable frame is uniformly distributed in the vertical pipeline main body, and a limit inserted link is arranged between the movable pedal and the adjacent buffer movable frame;

A spray pipe is arranged above the buffering movable frame, and a circulating water supply pipe is arranged on the side edge of the vertical pipeline main body;

The spray pipe is communicated with the circulating water supply pipe through a connecting hose, and the connecting hose is clamped and fixed at the adjacent buffer movable frames;

an outlet arc tube is arranged between the lower end of the vertical pipeline main body and the garbage recycling bin, the garbage recycling bin is provided with a circulating water pump at the other end far away from the connecting end of the outlet arc tube, and the circulating water supply pipe and the circulating water pump form a water supply passage.

Preferably, the buffering movable frame comprises movable blades, a surface buffering layer, a movable shaft, movable supporting rods, telescopic loop bars, buffering springs and attaching protruding blocks, and the buffering movable frame is distributed on the left side and the right side of the inside of the vertical pipeline main body in a staggered mode.

By adopting the technical scheme, when high-rise building rubbish is put in, the buffer movable frames can buffer and guide the put-in rubbish to fall in stages, so that the impact caused by falling of the straight pipe is reduced, the buffer movable frames arranged on two sides in a staggered manner can be convenient for guiding the rubbish to fall back and forth in a movable manner, and the impact force is also reduced.

Preferably, the surface buffer layer is positioned on the upper surface of the movable blade, and the upper surface of the movable blade is smaller than the cross section of the vertical pipeline main body;

The laminating end of movable blade and perpendicular pipeline main part passes through loose axle swing joint, and movable blade and surface buffer layer are whole around the loose axle constitution revolution mechanic to the axis of loose axle and floor upper surface are parallel to each other.

By adopting the technical scheme, the rubber material buffering movable frame on the surface of the movable blade can help to reduce collision impact and noise, and the movable blade deflects around the movable shaft to guide the staged adjustment of the trend of the falling garbage.

Preferably, a movable telescopic structure is formed between the movable support rod and the telescopic sleeve rod, and an elastic support structure is formed between the movable support rod and the telescopic sleeve rod through a buffer spring;

the movable supporting rod is positioned at the upper end of the telescopic loop rod, the upper end of the movable supporting rod is hinged with the lower surface of the movable blade plate, and the lower end of the telescopic loop rod is hinged with the side surface of the vertical pipeline main body.

By adopting the technical scheme, the movable blade plate stretches out and draws back through the movable supporting rod and the telescopic sleeve rod to form an elastic buffer structure, and the buffer effect is achieved by extruding the buffer spring under the condition that the deflection of the movable blade plate is not affected.

Preferably, the limiting inserted bar forms a movable telescopic structure at the side edge of the adjacent buffering movable frame, the right end of the limiting inserted bar is attached to the bottom surface of the side edge of the movable blade plate, and the central axis of the limiting inserted bar and the upper surface of the floor slab are parallel to each other.

By adopting the technical scheme, the buffer movable frame corresponding to the floor throwing opening can deflect and limit through the limiting inserted rod, and the buffer movable frame can be kept flat and limited

Preferably, the left end of the limiting inserted link is integrally provided with a synchronous movable frame, and an elastic supporting structure is formed between the synchronous movable frame and the right end of the fixed mounting frame through a supporting spring;

The movable pedal is arranged above the fixed mounting frame to form a lifting structure, the lower surface of the movable pedal is provided with a jointing movable block, and an inclined surface jointing structure is arranged between the synchronous movable frame and the jointing movable block.

By adopting the technical scheme, when constructors move to the position where the movable pedal is located to dump garbage, the movable pedal is pressed down by self weight, the synchronous movable frame is pushed and extruded on an inclined plane through the attaching movable block, the compression supporting spring drives the synchronous movable frame and the limiting inserting rod to integrally move and extend out, so that the corresponding buffering movable frame is automatically limited when garbage is thrown, partial garbage is conveniently stacked and uniformly falls, and continuous noise caused by the fact that the buffering movable frame is reset and reduced is avoided.

Preferably, the attaching projection is located between the movable blade plate and the movable shaft, the attaching projection and the side wall of the vertical pipeline main body form an attaching clamping structure for the connecting hose, and the attaching projection and the buffering movable frame integrally form a synchronous deflection movable structure.

By adopting the technical scheme, the movable deflection of the buffering movable frame can be used for synchronously adjusting the water supply, spraying and dust fall of the spray pipe, so that when the garbage is put in to press the buffering movable frame to deflect, the joint convex blocks synchronously deflect to loosen the connecting hose, the spray pipe is communicated with the water spraying and dust fall, and the dust emission is effectively reduced.

Preferably, the connecting hose and the spray pipe are integrally a connecting branch of the circulating water supply pipe, a return pipe is connected between the circulating water supply pipe and the garbage recycling bin, and the circulating water supply pipe, the return pipe, the garbage recycling bin and the circulating water pump are sequentially connected in series to form a circulating passage.

By adopting the technical scheme, the waste of water resources required by dust fall is reduced through circulating water supply.

Preferably, a reflux port is arranged at the connecting section of the reflux pipe and the garbage recycling bin, a water supply port is arranged at the connecting port of the circulating water pump and the garbage recycling bin, and a sewage outlet is arranged at the bottom of the garbage recycling bin;

The reflux port and the outlet arc tube are positioned on the same side of the garbage recycling bin.

By adopting the technical scheme, the reflux mouth and the water supply mouth arranged at the two sides can form guide water flow at the outlet arc tube, the buoyancy of the water body in the garbage recycling bin can be used for conveniently floating building materials such as plastics and timber, and the like, and the light building garbage is guided to move to one side of the water supply mouth of the garbage recycling bin by matching with the water flow, so that the light building garbage and the garbage such as concrete can be conveniently classified and recycled

Preferably, the water supply port is positioned above the right side of the garbage recycling bin, and the fracture of the water supply port is provided with an upper filter screen;

And a rough filtering isolation plate is arranged between the water supply port and the reflux port, and the height of the rough filtering isolation plate is lower than the height of the liquid level inside the garbage recycling bin.

By adopting the technical scheme, the coarse filtration isolation plate is matched with the upper filter screen to filter the circulating water body, and meanwhile, the coarse filtration isolation plate is used for separating floating light building rubbish from building rubbish such as concrete and the like for storage and recovery in different areas.

Compared with the prior art, the invention has the beneficial effects that: according to the vertical conveying pipeline for building body attached type high-rise building rubbish, rubbish is buffered and guided to drop through the buffering movable frame, meanwhile, the buffering movable frame is triggered at a floor drop-in opening through the movable pedal to limit and facilitate floor rubbish drop-in, the buffering movable frame deflects and controls the spraying pipe to discharge water and dust, meanwhile, a circulating water supply pipe of the spraying pipe is utilized to form circulating water flow to cooperate with the rubbish recycling bin to carry out floatation and water resource circulation of the building rubbish, and good linkage functionality is achieved;

1. The movable pedal structure triggered by the dead weight of the garbage cart or constructors is arranged when garbage is thrown, when the constructors move to the movable pedal at the position of a floor throwing opening in the use process of the device, the movable pedal is pressed down, the synchronous movable frame is extruded through the inclined plane of the joint movable block, the supporting spring is compressed, the limiting inserted link is driven to synchronously extend outwards, garbage is thrown at the moment, the buffering movable frame deflects to the horizontal position and is limited by the limiting inserted link, so that a temporary stacking platform is formed, garbage throwing is facilitated, meanwhile, the buffering movable frame keeps a deflected state, and the spray pipe continuously discharges water and dust when throwing is carried out on the floor;

2. The movable buffer frames are provided with buffer movable frame structures which play a role in buffering and guiding garbage and a main linkage function, in the using process of the device, the deflectable buffer movable frames which are arranged in a staggered manner can play a role in multi-stage buffering and guiding in the vertical pipeline main body, when garbage is thrown in to fall and impact the surface buffer layer of the buffer movable frames, the movable blades are wholly deflected downwards around a movable shaft, the buffer springs below the movable blades are synchronously extruded to play a role in buffering, the deflection of the buffer movable frames synchronously drives the attaching convex blocks to release the clamping limitation on the connecting hose, the synchronous water supply of the spray pipes is facilitated, the movable blades of the buffer movable frames can also be flexibly limited by matching with the limiting inserted rods at the floor throwing openings, and the movable blades have good linkage functionality;

3. Be provided with the circulation delivery pipe that the cooperation shower was last supplied water, in the use of device, constitute the circulation water route through circulation delivery pipe, back flow, rubbish collection box and circulating water pump, help the cooperation to spray dust fall system and carry out water resource cyclic utilization, reduce the water waste, the cyclic action of synchronous utilization water simultaneously, when rubbish collection box inside water treatment reduces the raise dust, utilize the both ends of return port and water supply mouth to set up respectively, form the flowing water body in rubbish collection box inside, make things convenient for the flotation of rubbish collection incasement light building rubbish, cooperation coarse filtration division board separates, make things convenient for the categorised recovery of building rubbish.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of the front cross-sectional structure of the main body of the vertical pipeline in the garbage throwing process;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2a according to the present invention;

FIG. 4 is a schematic side view of a buffer movable frame according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4 b according to the present invention;

FIG. 6 is a schematic side view of a cushioning mobile frame of the present invention in a deflected configuration;

FIG. 7 is a schematic top view of the mounting bracket of the present invention;

FIG. 8 is a schematic side sectional view of the movable cover plate of the present invention when being pushed down;

Fig. 9 is a schematic top view of the limiting rod of the present invention in a limiting movement.

In the figure: 1. a vertical pipeline body; 2. a garbage recycling bin; 3. floor slab; 4. a fixed mounting rack; 5. installing a hoop; 6. a floor throwing port; 7. a removable cover; 8. a movable pedal; 9. a buffer movable frame; 91. a movable blade; 92. a surface buffer layer; 93. a movable shaft; 94. a movable support rod; 95. a telescopic loop bar; 96. a buffer spring; 97. attaching the convex blocks; 10. a limit inserted link; 11. a shower pipe; 12. a circulation water supply pipe; 13. a connecting hose; 14. an outlet arc tube; 15. a circulating water pump; 16. a synchronous movable frame; 17. attaching the movable block; 18. a support spring; 19. a return pipe; 20. a return port; 21. a water supply port; 22. a sewage outlet; 23. an upper filter screen; 24. and rough filtering the isolation plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a building body attached high-rise building rubbish vertical conveying pipeline, including vertical pipeline main part 1 and rubbish recycling bin 2 of bottom, vertical pipeline main part 1 adheres to floor 3 setting, and be provided with fixed mounting bracket 4 between floor 3 and the vertical pipeline main part 1, and install fixedly through installation staple bolt 5 between fixed mounting bracket 4 and the vertical pipeline main part 1, floor input mouth 6 has been seted up to vertical pipeline main part 1 in the side top of fixed mounting bracket 4, and the opening part hinged joint of floor input mouth 6 has movable cover plate 7, and the upper surface of fixed mounting bracket 4 is provided with movable footboard 8, the inside evenly distributed of vertical pipeline main part 1 has buffering movable frame 9, and be provided with spacing inserted bar 10 between movable footboard 8 and the adjacent buffering movable frame 9;

As shown in fig. 2 and 7-9, the limit insert rod 10 forms a movable telescopic structure on the side edge of the adjacent buffer movable frame 9, the right end of the limit insert rod 10 is attached to the side edge bottom surface of the movable blade 91, the central axis of the limit insert rod 10 is parallel to the upper surface of the floor slab 3, the buffer movable frame 9 corresponding to the floor throwing opening 6 can deflect and limit through the limit insert rod 10, the buffer movable frame 9 is kept to be horizontally limited, the left end of the limit insert rod 10 is integrally provided with the synchronous movable frame 16, an elastic supporting structure is formed between the synchronous movable frame 16 and the right end of the fixed mounting frame 4 through a supporting spring 18, the movable pedal 8 forms a lifting structure above the fixed mounting frame 4, the lower surface of the movable pedal 8 is provided with an attaching movable block 17, and an inclined plane attaching structure is arranged between the synchronous movable frame 16 and the attaching movable block 17, when a constructor moves to the position where the movable pedal 8 is located to topple garbage, the synchronous movable frame 16 is pushed and extruded through the attaching movable block 17, the compression supporting spring 18 drives the synchronous movable frame 16 and the limit insert rod 10 to integrally stretch out, thereby reducing the impact on the buffer movable frame 9 after the corresponding buffer movable frame 9 is reset, and continuous noise is avoided.

As shown in fig. 1 to 6, the buffer movable frame 9 comprises a movable blade 91, a surface buffer layer 92, a movable shaft 93, a movable supporting rod 94, a telescopic sleeve rod 95, a buffer spring 96 and a fitting convex block 97, the buffer movable frame 9 is distributed at the left side and the right side of the inside of the vertical pipeline main body 1 in a staggered manner, when high-rise building garbage is put in, the buffer movable frame 9 can buffer and guide the garbage to fall in a staged manner, the impact caused by falling of the straight pipe is reduced, the buffer movable frame 9 arranged at the two sides in a staggered manner can facilitate the garbage to be guided to fall back and forth in a movable manner, the impact force is reduced, the surface buffer layer 92 is positioned on the upper surface of the movable blade 91, the upper surface of the movable blade 91 is smaller than the cross section of the vertical pipeline main body 1, the fitting ends of the movable blade 91 and the vertical pipeline main body 1 are movably connected through the movable shaft 93, and the movable blade 91 and the surface buffer layer 92 integrally form a rotary structure around the movable shaft 93, the central axis of the movable shaft 93 and the upper surface of the floor slab 3 are parallel to each other, the rubber material buffering movable frame 9 on the surface of the movable blade 91 can help to reduce collision impact and noise, the movable blade 91 deflects around the movable shaft 93 to guide the staged adjustment of the trend of falling garbage, a movable telescopic structure is formed between the movable supporting rod 94 and the telescopic sleeve rod 95, an elastic supporting structure is formed between the movable supporting rod 94 and the telescopic sleeve rod 95 through a buffering spring 96, the movable supporting rod 94 is positioned at the upper end of the telescopic sleeve rod 95, the upper end of the movable supporting rod 94 and the lower surface of the movable blade 91 form hinge connection, the lower end of the telescopic sleeve rod 95 and the side surface of the vertical pipeline main body 1 form hinge connection, the movable blade 91 stretches out and stretches out through the movable supporting rod 94 and the telescopic sleeve rod 95 to form the elastic buffering structure, the cushioning effect is achieved by pressing the cushioning spring 96 without affecting the deflection of the movable blade 91.

As shown in fig. 1 and 3-5, the spray pipe 11 is arranged above the buffer movable frame 9, the circulating water pipe 12 is arranged on the side edge of the vertical pipeline main body 1, the spray pipe 11 is communicated with the circulating water pipe 12 through the connecting hose 13, the connecting hose 13 is clamped and fixed at the adjacent buffer movable frame 9, the joint lug 97 is positioned between the movable blade 91 and the movable shaft 93, the joint lug 97 and the side wall of the vertical pipeline main body 1 form a joint clamping structure to the connecting hose 13, the joint lug 97 and the whole buffer movable frame 9 form a synchronous deflection movable structure, and the water supply and spraying dust fall of the spray pipe 11 can be synchronously regulated through the movable deflection linkage of the buffer movable frame 9, so that the joint lug 97 synchronously deflects and loosens the connecting hose 13 when the garbage is thrown into the buffer movable frame 9 to ensure that the spray pipe 11 is communicated with the water to fall dust, the dust emission is effectively reduced, the joint hose 13 and the whole spray pipe 11 are connecting branches of the circulating water pipe 12, the circulating water pipe 12 is connected with the garbage recovery box 2, the circulating water supply pipe 12, the return pipe 19, the garbage recovery box 2 and the circulating water pump 15 form a circulating passage in turn, and waste of water required by the circulating water resource is reduced.

As shown in fig. 1, an outlet arc tube 14 is arranged between the lower end of the vertical pipeline main body 1 and the garbage collection box 2, the circulating water pump 15 is arranged at the other end far away from the connecting end of the outlet arc tube 14, the circulating water pipe 12 and the circulating water pump 15 form a water supply passage, a reflux pipe 19 and the connecting section of the garbage collection box 2 are provided with reflux ports 20, the connecting ports of the circulating water pump 15 and the garbage collection box 2 are provided with water supply ports 21, the bottom of the garbage collection box 2 is provided with a sewage drain 22, the reflux ports 20 and the outlet arc tube 14 are positioned on the same side of the garbage collection box 2, the reflux ports 20 and the water supply ports 21 arranged on two sides can form guide water flow at the outlet arc tube 14, buoyancy of water in the garbage collection box 2 can be used for facilitating floating of building materials such as plastics and timber, the light building garbage can be guided to one side of the water supply ports 21 of the garbage collection box 2 by matching with the water flow, the light building garbage can be conveniently recovered in a classified mode, the water supply ports 21 are positioned on the right side of the garbage collection box 2, the water supply ports 21 are positioned on the upper layer 23, the positions of the ports of the water supply ports 21 are arranged at the positions of the ports of the left side of the garbage collection box 2, sewage drain 22 are arranged at the bottom of the garbage collection box, the sewage drain 22, the reflux ports 20 and the water supply ports are positioned at the positions of the water supply ports 21, the water supply ports are positioned at the positions of the water filter layers, the filter plates 24 are arranged at the positions, the positions of the coarse filter plates 24 are arranged at the positions, and the coarse filter layers are separated by the coarse isolation layers, and the coarse isolation layers are separated by the coarse isolation layers, and have the coarse isolation layers, and are separated by the coarse isolation layers, and are separated and have and are separated and separated by the coarse and separated.

While embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a building body attached high-rise building rubbish vertical transfer pipeline, includes rubbish recycling bin (2) of perpendicular pipeline main part (1) and bottom, its characterized in that:

The vertical pipeline main body (1) is attached to the floor slab (3), a fixed mounting frame (4) is arranged between the floor slab (3) and the vertical pipeline main body (1), and the fixed mounting frame (4) and the vertical pipeline main body (1) are fixedly mounted through a mounting hoop (5);

The vertical pipeline main body (1) is provided with a floor throwing opening (6) above the side of the fixed mounting frame (4), the opening of the floor throwing opening (6) is hinged with a movable cover plate (7), and the upper surface of the fixed mounting frame (4) is provided with a movable pedal (8);

a buffer movable frame (9) is uniformly distributed in the vertical pipeline main body (1), and a limit inserted link (10) is arranged between the movable pedal (8) and the adjacent buffer movable frame (9);

A spray pipe (11) is arranged above the buffer movable frame (9), and a circulating water supply pipe (12) is arranged on the side edge of the vertical pipeline main body (1);

the spray pipe (11) is communicated with the circulating water supply pipe (12) through a connecting hose (13), and the connecting hose (13) is clamped and fixed at the adjacent buffer movable frames (9);

An outlet arc tube (14) is arranged between the lower end of the vertical pipeline main body (1) and the garbage recycling bin (2), the other end of the garbage recycling bin (2) far away from the connecting end of the outlet arc tube (14) is provided with a circulating water pump (15), and the circulating water supply pipe (12) and the circulating water pump (15) form a water supply passage.

2. A building body attached type high-rise building rubbish vertical conveying pipeline as claimed in claim 1, wherein: the buffering movable frame (9) comprises a movable blade plate (91), a surface buffering layer (92), a movable shaft (93), a movable supporting rod (94), a telescopic sleeve rod (95), a buffering spring (96) and a fitting convex block (97), and the buffering movable frame (9) is distributed on the left side and the right side of the inside of the vertical pipeline main body (1) in a staggered mode.

3. A building body attached high-rise building rubbish vertical conveying pipeline as claimed in claim 2, wherein: the surface buffer layer (92) is positioned on the upper surface of the movable blade plate (91), and the upper surface of the movable blade plate (91) is smaller than the cross section of the vertical pipeline main body (1);

The laminating end of movable vane (91) and perpendicular pipeline main part (1) passes through loose axle (93) swing joint, and movable vane (91) and surface buffer layer (92) are whole around loose axle (93) constitution revolution mechanic to the axis of loose axle (93) and floor (3) upper surface are parallel to each other.

4. A building body attached high-rise building rubbish vertical conveying pipeline according to claim 3, wherein: a movable telescopic structure is formed between the movable supporting rod (94) and the telescopic sleeve rod (95), and an elastic supporting structure is formed between the movable supporting rod (94) and the telescopic sleeve rod (95) through a buffer spring (96);

The movable supporting rod (94) is positioned at the upper end of the telescopic sleeve rod (95), the upper end of the movable supporting rod (94) is hinged with the lower surface of the movable blade plate (91), and the lower end of the telescopic sleeve rod (95) is hinged with the side surface of the vertical pipeline main body (1).

5. A building body attached high-rise building rubbish vertical conveying pipeline as claimed in claim 2, wherein: the limiting inserted link (10) forms a movable telescopic structure at the side edge of the adjacent buffering movable frame (9), the right end of the limiting inserted link (10) is attached to the bottom surface of the side edge of the movable blade plate (91), and the central axis of the limiting inserted link (10) is parallel to the upper surface of the floor slab (3).

6. The building body attached type high-rise building rubbish vertical conveying pipeline according to claim 5 is characterized in that: the left end of the limiting inserted link (10) is integrally provided with a synchronous movable frame (16), and an elastic supporting structure is formed between the synchronous movable frame (16) and the right end of the fixed mounting frame (4) through a supporting spring (18);

The movable pedal (8) forms a lifting structure above the fixed mounting frame (4), the lower surface of the movable pedal (8) is provided with a jointing movable block (17), and an inclined surface jointing structure is arranged between the synchronous movable frame (16) and the jointing movable block (17).

7. A building body attached high-rise building rubbish vertical conveying pipeline as claimed in claim 2, wherein: the joint lug (97) is located between the movable blade plate (91) and the movable shaft (93), the joint lug (97) and the side wall of the vertical pipeline main body (1) form a joint clamping structure for the connecting hose (13), and the joint lug (97) and the buffer movable frame (9) integrally form a synchronous deflection movable structure.

8. The building body attached type high-rise building rubbish vertical conveying pipeline as claimed in claim 7, wherein: the connecting hose (13) and the spray pipe (11) are integrally a connecting branch of the circulating water supply pipe (12), a return pipe (19) is connected between the circulating water supply pipe (12) and the garbage recycling bin (2), and the circulating water supply pipe (12), the return pipe (19), the garbage recycling bin (2) and the circulating water pump (15) are sequentially connected in series to form a circulating passage.

9. A building body attached high-rise building rubbish vertical conveying pipeline as claimed in claim 1 or 8, wherein: the connecting section of the return pipe (19) and the garbage recycling bin (2) is provided with a return port (20), the connecting port of the circulating water pump (15) and the garbage recycling bin (2) is provided with a water supply port (21), and the bottom of the garbage recycling bin (2) is provided with a sewage outlet (22);

the reflux port (20) and the outlet arc tube (14) are positioned on the same side of the garbage recycling bin (2).

10. The building body attached type high-rise building rubbish vertical conveying pipeline as claimed in claim 9, wherein: the water supply port (21) is positioned above the right side of the garbage collection box (2), and an upper filter screen (23) is arranged at the fracture of the water supply port (21);

a rough filtering isolation plate (24) is arranged between the water supply port (21) and the reflux port (20), and the height of the rough filtering isolation plate (24) is lower than the inner liquid level of the garbage recycling bin (2).