CN218374949U - Vertical transportation device for construction waste - Google Patents

Abstract

The utility model discloses a vertical transportation device for construction waste, which comprises a guide discharging component, a bottom supporting seat, a floor slab lapping component, a movable door (9), a feeding plate (14) and a transportation pipe (18); the conveying pipes are vertically arranged beside a plurality of layers of floor slabs (10), and the conveying pipes are positioned at the height of each layer of floor slabs and are fixedly connected with the floor slabs through floor slab lap joint assemblies; the conveying pipe is provided with a feed inlet at the height of each floor, the feed inlet is opened towards the floor, and a movable door can be installed on the feed inlet in an opening-closing manner; one end of the feeding plate is lapped on the floor slab, and the other end of the feeding plate horizontally extends into the conveying pipe through the feeding port and is positioned at the bottom of the movable door; the bottom sprag seat is established at the bottom, and direction ejection of compact subassembly sets up at the inside lower extreme of bottom sprag seat, and the lower extreme of transport pipe is vertical to be extended to in the bottom sprag seat and be located the top of direction ejection of compact subassembly. The utility model discloses can high-efficient, safe perpendicular transportation building rubbish, reduce manpower, material resources and man-hour consumption, do not occupy the construction elevator.

Description

Vertical transportation device for construction waste

Technical Field

The utility model relates to a transportation equipment for construction especially relates to a perpendicular conveyer of building rubbish.

Background

During the construction process of the building engineering, dregs, waste concrete, waste masonry and other wastes are inevitably generated. The traditional construction waste transportation method comprises the following steps: utilize a spade shovel one shovel full complement hopper car through the workman, the hopper car transports bottom outward transport department from each floor through construction elevator whole car, and traditional construction waste conveying efficiency depends on labour's quantity, construction elevator's quantity, construction progress's requirement etc. both need consume a large amount of manpower, material resources, time, need occupy construction elevator transportation construction material and construction labour's efficiency again, has reduced building engineering's efficiency of construction.

Disclosure of Invention

An object of the utility model is to provide a perpendicular conveyer of building rubbish, the perpendicular transportation building rubbish that can be high-efficient, safe reduces manpower, material resources and man-hour consumption, and does not occupy the construction elevator.

The utility model discloses a realize like this:

a vertical transportation device for construction waste comprises a guide discharging assembly, a bottom supporting seat, a floor slab lap joint assembly, a movable door, a feeding plate and a transportation pipe; the conveying pipes are vertically arranged beside the floor slabs of a plurality of floors, and the conveying pipes are positioned at the height of each floor slab and fixedly connected with the floor slabs through the floor slab lap joint assemblies; the conveying pipe is provided with a feeding hole at the height of each floor, the feeding hole is opened towards the floor, and a movable door can be installed on the feeding hole in an opening and closing manner; one end of the feeding plate is lapped on the floor slab, and the other end of the feeding plate horizontally extends into the conveying pipe through the feeding port and is positioned at the bottom of the movable door; the bottom sprag seat sets up in building structure's bottom, and direction ejection of compact subassembly sets up at the inside lower extreme of bottom sprag seat, and the lower extreme of transport pipe is vertical to be extended to in the bottom sprag seat and be located the top of direction ejection of compact subassembly.

The guide discharging assembly comprises a first cushion block, a second cushion block, a third cushion block, a bottom layer template and a surface layer template; the first cushion blocks are respectively arranged on the floor at the bottom of the bottom supporting seat at intervals, and the bottom layer template is horizontally laid on the first cushion blocks; the third cushion block is arranged on one side of the top of the bottom layer template, the plurality of second cushion blocks are respectively arranged on the other side of the top of the bottom layer template at intervals, and the surface layer template is obliquely laid on the plurality of second cushion blocks and the third cushion block.

The bottom supporting seat comprises supporting rods and a connecting plate, and a plurality of vertically arranged supporting rods are connected with a plurality of horizontally arranged supporting rods to form a rectangular frame structure; the lower part of the conveying pipe extends into the cuboid frame structure and is fixedly connected with the transversely arranged support rods through a plurality of connecting plates.

One side end of the cuboid frame structure is used as a discharge hole, the low end of the obliquely laid surface course template extends to one side end of the cuboid frame structure, the low end of the surface course template is cut into a comb-tooth shape, and the high end of the obliquely laid surface course template extends to the other side end of the cuboid frame structure; and a residue groove is formed in the floor outside the discharge hole and is positioned below the lower end of the surface layer template.

Inclined struts are arranged in two end faces of the cuboid frame structure, and the pair of inclined struts are arranged in an X-shaped crossed manner; reinforcing ribs are respectively arranged at two corners of the top of one side end face and the other side end face of the cuboid frame structure.

The top of cuboid frame construction laid and be equipped with the protection template, be formed with the through-hole on the protection template, the transport pipe runs through the protection template through the through-hole and inserts to in the cuboid frame construction.

The bottom circumference of transport pipe arranged a plurality of buffering strips, a plurality of buffering strips interval set up and be on a parallel with the axial of transport pipe, the buffering strip is located the top of the surface course template of direction ejection of compact subassembly.

The floor slab lap joint assembly comprises a conveying pipe connecting plate, a floor connecting plate and a connecting rod; the pair of conveying pipe connecting plates are respectively fixedly arranged on the outer walls of the conveying pipes and are positioned on the two sides of the movable door; the pair of floor connecting plates are respectively fixedly arranged on the floor slab, and the pair of connecting rods are correspondingly connected between the pair of conveying pipe connecting plates and the pair of floor connecting plates, so that the pair of connecting rods are obliquely arranged on two sides of the feeding plate.

The top of the conveying pipe is covered with a protective cover plate, and the top of the protective cover plate is provided with a handle; the bottom of the protective cover plate is provided with a plurality of positioning rods which are circumferentially attached to the inner wall of the conveying pipe, so that the protective cover plate coaxially covers the upper end of the conveying pipe.

The inner wall of the conveying pipe is circumferentially provided with a plurality of guide pieces, and the guide pieces are positioned below the floor slab; one end of each guide piece is fixed on the inner wall of the conveying pipe, and the other end of each guide piece is obliquely arranged, so that a plurality of guide pieces form a conveying channel with a wide top and a narrow bottom in the conveying pipe; the guide part is wrapped with a damping layer.

Compared with the prior art, the utility model, following beneficial effect has:

1. the utility model has the advantages that the transport pipe is vertically arranged beside the floor slab, so that the construction waste of each floor can be transported vertically without manual transportation and occupying a construction elevator, the construction waste is high in clearing efficiency, and the construction efficiency and safety of the construction engineering can be improved; simultaneously, effectively prevent personnel from falling through the protective cover plate at transport pipe top and the dodge gate of every floor department, guaranteed the installation stability between transport pipe and the building structure through bottom sprag seat and floor overlap joint subassembly, can ensure the security of the perpendicular transportation of building rubbish.

2. The utility model discloses owing to be equipped with direction ejection of compact subassembly, can play the effect of buffering through cushion and template and the buffering strip that the bilayer was set up, reduce the momentum when building rubbish falls the ejection of compact to improve building rubbish's ejection of compact security, simultaneously, the face course template and the broach configuration that set up through the slope are more high-efficient, safe for the building rubbish ejection of compact provides the direction, and collect the rubbish that spills through the residue groove, avoid discharge gate department rubbish to remain, be favorable to improving construction environment.

3. The utility model is provided with the feeding plate and the guiding piece, so that the construction waste can be conveyed from the floor into the conveying pipe through the feeding plate, the construction waste is prevented from dropping from the gap between the conveying pipe and the floor, and the cleaning safety of the construction waste is improved; meanwhile, the guide piece controls the falling track of the construction waste in the conveying pipe, so that the construction waste is concentrated in the middle of the conveying pipe, the conveying pipe is prevented from being damaged or installed loosely due to collision with the pipe wall of the conveying pipe, and the cleaning safety of the construction waste is further improved.

Drawings

FIG. 1 is a front view of the vertical transportation device for construction waste of the present invention;

FIG. 2 is a side view of the vertical transportation device for construction waste of the present invention;

FIG. 3 is a schematic view of the installation of the floor slab overlapping assembly in the vertical transportation device for construction waste of the present invention;

FIG. 4 is a top view of the bottom support base of the vertical transportation device for construction waste of the present invention;

FIG. 5 is a bottom view (at the surface layer template) of the guiding and discharging assembly in the vertical transportation device for construction waste of the present invention;

fig. 6 is a bottom view (lower formwork) of the guiding discharging component in the vertical transporting device for construction waste of the utility model.

In the figure, 11 first cushion blocks, 12 second cushion blocks, 2 residue grooves, 31 bottom layer templates, 32 surface layer templates, 33 protective templates, 4 third cushion blocks, 5 buffer strips, 6 inclined struts, 7 connecting rods, 81 conveying pipe connecting plates, 82 floor connecting plates, 9 movable doors, 10 floor slabs, 11 bolts, 120 protective cover plates, 121 handles, 122 positioning rods, 13 guide pieces, 14 feeding plates, 15 reinforcing ribs, 16 supporting rods, 17 connecting plates, 18 conveying pipes and 19 residue conveying vehicles.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1 and 2, the vertical transportation device for construction waste comprises a guide discharging assembly, a bottom support seat, a floor slab overlapping assembly, a movable door 9, a feeding plate 14 and a transportation pipe 18; the conveying pipes 18 are vertically arranged at the sides of the floor slabs 10 of a plurality of floors, and the conveying pipes 18 are positioned at the height of each floor slab 10 and are fixedly connected with the floor slabs 10 through floor slab lap joint assemblies; the conveying pipe 18 is provided with a feeding hole (not shown) at the height of each floor, the feeding hole is opened facing the floor slab 10, and a movable door 9 is arranged on the feeding hole in an openable manner; one end of the feeding plate 14 is lapped on the floor slab 10, and the other end of the feeding plate 14 horizontally extends into the conveying pipe 18 through the feeding port and is positioned at the bottom of the movable door 9; the bottom sprag seat sets up at building structure's bottom or the floor of the building rubbish transportation of setting for, and direction ejection of compact subassembly sets up at the inside lower extreme of bottom sprag seat, and the vertical top that extends to the bottom sprag seat in and be located direction ejection of compact subassembly of the lower extreme of transport pipe 18.

The conveying pipe 18 is vertically and stably arranged at the side of the floor slab 10 in the building structure through the bottom supporting seat and the floor slab lap joint assembly to be used as a vertical conveying channel, and the conveying pipe 18 can be arranged inside or outside the building structure according to actual construction site conditions. After the movable door 9 is opened, the construction waste can be dumped into the conveying pipe 18, the vertically arranged conveying pipe 18 is utilized to directly and vertically convey the construction waste to the bottom layer, and the feeding plate 14 can prevent the construction waste from falling into a gap between the conveying pipe 18 and the floor slab 10. Construction waste falls to direction ejection of compact subassembly in through transport pipe 18, is convenient for carry the slag car 19 with the construction waste ejection of compact in, has improved construction waste's clearance efficiency greatly.

Referring to fig. 1, fig. 2, fig. 5 and fig. 6, the guiding and discharging assembly includes a first cushion block 11, a second cushion block 12, a third cushion block 4, a bottom layer template 31 and a surface layer template 32; the first cushion blocks 11 are respectively arranged on the floor 10 at the bottom of the bottom supporting seat at intervals, and the bottom layer template 31 is horizontally laid on the first cushion blocks 11; the third cushion block 4 is arranged on one side of the top of the bottom layer template 31, the plurality of second cushion blocks 12 are respectively arranged on the other side of the top of the bottom layer template 31 at intervals, and the surface layer template 32 is obliquely laid on the plurality of second cushion blocks 12 and the third cushion block 4.

First cushion 11, second cushion 12 and third cushion 4 can adopt discarded rubber materials such as the tire of job site to make, can play the effect of support and buffering, and the speed when falling is reduced building rubbish through bilayer structure, the safe ejection of compact of being convenient for. Meanwhile, the surface layer template 32 which is obliquely arranged plays a role in guiding, so that rapid discharging is facilitated.

Referring to fig. 1, fig. 2 and fig. 4, the bottom support seat includes a support rod 16 and a connecting plate 17, and a plurality of vertically arranged support rods 16 are connected with a plurality of horizontally arranged support rods 16 to form a rectangular frame structure; the lower part of the transport pipe 18 extends into the rectangular frame structure and is fixedly connected with the transversely arranged support rods 16 through a plurality of connecting plates 17.

The support rods 16 can be connected by welding and the like, and the connecting plate 17 is fixed with the conveying pipe 18 and the connecting rod 16 by welding, so that reliable support can be formed at the lower end of the conveying pipe 18.

One side end (namely one side end close to the slag car 19) of the cuboid frame structure is used as a discharge hole, the lower end of the obliquely laid surface layer template 32 extends to one side end of the cuboid frame structure, the lower end of the surface layer template 32 can be cut into a comb-tooth shape, and the high end of the obliquely laid surface layer template 32 extends to the other side end of the cuboid frame structure; the floor slab 10 outside the discharge hole is provided with a residue groove 2, and the residue groove 2 is positioned below the lower end of the surface layer template 32.

The comb-tooth-shaped structure of the surface layer template 32 is convenient for building garbage to slide into the slag hopper of the slag transport vehicle 19, the residue groove 2 is convenient for collecting scattered building garbage, is convenient for centralized cleaning, reduces the garbage residue, and ensures the sanitation of the garbage cleaning position.

Referring to fig. 1, inclined struts 6 are arranged in two end faces of the rectangular frame structure, and a pair of inclined struts 6 are arranged in an X-shaped cross manner; referring to fig. 2, two corners of the top of one side end surface and the other side end surface of the rectangular parallelepiped frame structure are respectively provided with a reinforcing rib 15. The structural strength of the rectangular frame structure is improved by the diagonal braces 6 and the reinforcing ribs 15, thereby ensuring stable installation of the transport pipe 18.

Referring to fig. 1 and 2, a protective formwork 33 is laid on the top of the rectangular frame structure, through holes (not shown) are formed in the protective formwork 33, and the transport pipe 18 penetrates through the protective formwork 33 through the through holes and is inserted into the rectangular frame structure. The dust raising during the ejection of compact of building rubbish is reduced to accessible protection template 33, is favorable to improving the environment of job site.

Referring to fig. 1, fig. 2 and fig. 5, a plurality of buffer strips 5 are circumferentially arranged at the bottom of the conveying pipe 18, the plurality of buffer strips 5 are arranged at intervals and parallel to the axial direction of the conveying pipe 18, and the buffer strips 5 are located above the surface layer template 32 of the guide discharging assembly. Preferably, the buffer strip 5 is made of rubber material, so as to reduce the impact force on the surface layer template 32 when the construction waste falls out from the lower end of the conveying pipe 18.

Referring to fig. 1 to 3, the floor slab overlapping assembly includes a transport pipe connection plate 81, a floor connection plate 82, and a connecting rod 7; a pair of conveying pipe connecting plates 81 are respectively fixedly arranged on the outer wall of the conveying pipe 18, and the pair of conveying pipe connecting plates 81 are positioned at two sides of the movable door 9; the pair of floor connecting plates 82 are respectively fixedly arranged on the floor slab 10, and the pair of connecting rods 7 are correspondingly connected between the pair of conveying pipe connecting plates 81 and the pair of floor connecting plates 82, so that the pair of connecting rods 7 are obliquely arranged on two sides of the feeding plate 14.

Each layer is fixed through the drawknot between transport pipe 18 and floor 10 all through transport pipe connecting plate 81, floor connecting plate 82 and connecting rod 7, and each layer all sets up the stress point in order to improve the installation stability of transport pipe 18, even install transport pipe 18 outside the building structure, also enable it to bear the wind pressure, and the safety in utilization is high.

Referring to fig. 1 and fig. 2, the top of the transport pipe 18 is covered by a protective cover plate 120, and a handle 121 is disposed on the top of the protective cover plate 120; the bottom of the protective cover plate 120 is provided with a plurality of positioning rods 122, and the plurality of positioning rods 122 are circumferentially attached to the inner wall of the conveying pipe 18, so that the protective cover plate 120 coaxially covers the upper end of the conveying pipe 18. Handle 121 and locating lever 122 are convenient for the dismouting of protective cover plate 120, prevent through protective cover plate 120 that personnel from dropping into in the conveying pipe 18, and easy dismounting can recycle in the pipeline protection of various construction scenes.

Referring to fig. 2 to 4, a plurality of guiding members 13 are circumferentially arranged on the inner wall of the transporting pipe 18, and the plurality of guiding members 13 are located below the floor slab 10; one end of the guide piece 13 is fixed on the inner wall of the conveying pipe 18, and the other end of the guide piece 13 is obliquely arranged, so that a plurality of guide pieces 13 form a conveying channel with a wide top and a narrow bottom in the conveying pipe 18; the guide 13 is wrapped with a shock absorbing layer.

The construction waste is guided to the central axis direction of the conveying pipe 18 through the guide piece 13, and the construction waste is prevented from violently colliding with the pipe wall of the conveying pipe 18, so that the service life and the installation stability of the conveying pipe 18 are ensured. The shock-absorbing layer can adopt sponge, effectively reduces the momentum of construction waste whereabouts in-process, reduces its impact force to the bottom.

Referring to fig. 1 and 2, the movable door 9 is a double door which is locked by a bolt 11, the movable door 9 is convenient to open and close, and is locked when not in use, so that the safety is improved. Meanwhile, alarm equipment in the prior art can be matched with the movable door 9, so that the construction safety is further improved.

Referring to fig. 1 to fig. 6, the installation process of the present invention is:

processing the conveying pipe 18:

in the interior of the conveying pipe 18, a threaded pipe with a proper pipe diameter is selected as the conveying pipe 18 according to the size, the material and the quantity of the construction waste, so that the rigidity is high, the quality is good, and the safe transportation of the construction waste is ensured. The inner wall of the conveying pipe 18 is welded with L-shaped steel bars as guide pieces 13, and the guide pieces 13 are distributed at equal intervals along the circumferential direction of the conveying pipe 18 and are in full-welding connection with the conveying pipe 18. The guide member 13 is wrapped with a sponge of a certain thickness as a shock-absorbing layer,

the bottom of the conveying pipe 18 is radially connected with the buffer strip 5 at the bottom of the conveying pipe 18 by a hot melting method, a connecting plate 17 made of three steel plates is welded on the outer wall of the conveying pipe 18, and the distance between the connecting plate 17 and the bottom of the conveying pipe 18 is 500-1000mm.

On the pipe body of the transport pipe 18, at the height of each floor, a feed inlet is cut, and a double-opening type movable door 9 capable of opening and closing is installed, and a bolt 11 is arranged for locking the movable door 9. Meanwhile, steel plates are symmetrically welded on two sides of the movable door 9 to serve as conveying pipe connecting plates 81.

Processing the protective cover plate 120: the protective cover plate 120 can be made by cutting steel plates or welding steel bars, and the diameter of the protective cover plate 120 is slightly larger than that of the conveying pipe 18, so that the cover on the top of the conveying pipe 18 is ensured, and personnel can be prevented from falling. Handle 121 that the top both sides welding reinforcing bar of protective cover plate 120 was made, locating lever 122 that the bottom of protective cover plate 120 was made all around the welding reinforcing bar, the shroud of protective cover plate 120 of being convenient for with lift off, the convenient use of having enough to meet the need.

Processing a bottom support seat: the supporting rods 16 are made by cutting square steel tubes, and the supporting rods 16 with proper length and quantity are selected to be vertically and horizontally welded to form a cuboid frame structure with certain manufacturing strength, so that reliable support of the discharge position of the conveying pipe 18 is guaranteed. Reinforcing ribs 15 are arranged on the top of the discharge port and the two side faces facing the discharge port, and X-shaped cross-connected inclined struts 6 are arranged on the faces beside the discharge port so as to improve the strength of the rectangular frame structure. And laying a protective template 33 on the top of the cuboid frame structure, and forming a through hole in the middle of the protective template 33.

Processing a guide discharging assembly: four waste tires with the same height are placed at four corners and the middle part of the bottom in the processed bottom supporting seat to serve as first cushion blocks 11, and bottom layer templates 31 made of wood plates or steel plates are horizontally laid on the four first cushion blocks 11. The strip-shaped third cushion block 4 made of rubber is laid on one side of the bottom layer template 31, three waste tires are placed on the other side of the bottom layer template 31 at intervals to serve as the second cushion block 12, the top surfaces of the second cushion block 12 and the third cushion block 4 are in an inclined state, and the surface layer template 32 made of wood boards or steel plates is obliquely laid on the second cushion block 12 and the third cushion block 4 to play a role in guiding and facilitate discharging. In the outside of bottom sprag seat, the below that is located the discharge gate sets up the residue groove 2 that the square timber was made, is convenient for collect the building rubbish that spills the hourglass.

Mounting and fixing of the transport pipe 18: a tower crane is adopted to hoist the conveying pipe 18, the lower end of the conveying pipe 18 penetrates through the through hole of the protective template 33 and extends into the cuboid frame structure, and three connecting plates 17 at the bottom of the conveying pipe 18 are welded and fixed on the supporting rod 16. Floor connecting plates 82 made of steel plates are fixed on the floor slab 10 through expansion bolts, and channel steel is adopted as a connecting rod 7 to be connected and fixed between a conveying pipe connecting plate 81 and the floor connecting plates 82. The transport pipes 18 are fixed to the floor slab 10 of each floor in the same manner and will not be described in detail here. A protective cover plate 120 is capped over the upper end of the transport pipe 18.

The utility model discloses a use method is:

the feeding plate 14 is lapped between the feeding hole and the floor slab 10 to prevent the construction waste from entering a gap between the floor slab 10 and the conveying pipe 18, the movable door 9 is opened to pour the construction waste into the conveying pipe 18, the construction waste falls under the guiding action of the guiding piece 13 and is gathered towards the central axis direction of the conveying pipe 18, and the conveying pipe 18 is prevented from being damaged or installed loosely due to severe collision with the inner wall of the conveying pipe 18.

Building rubbish drops to conveying pipe 18 bottom after on the effect whereabouts to surface course template 32 of buffering strip 5 to in the direction of its inclined plane is discharged to slag car 19 down, the partial building rubbish accessible residue groove 2 that spills that falls is collected, is convenient for concentrate the clearance.

After the construction waste is dumped, the movable door 9 is closed in time and locked by the bolt 11, so that the personnel can be prevented from falling.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a perpendicular conveyer of building rubbish which characterized by: comprises a guide discharging component, a bottom supporting seat, a floor slab lapping component, a movable door (9), a feeding plate (14) and a conveying pipe (18); the conveying pipes (18) are vertically arranged beside the floor slabs (10) of a plurality of floors, and the conveying pipes (18) are positioned at the height of each floor slab (10) and are fixedly connected with the floor slabs (10) through floor slab lap joint assemblies; a feeding hole is formed in the position, located at the height of each floor, of the conveying pipe (18), faces the floor slab (10), and a movable door (9) is installed on the feeding hole in an openable mode; one end of the feeding plate (14) is lapped on the floor slab (10), and the other end of the feeding plate (14) horizontally extends into the conveying pipe (18) through the feeding port and is positioned at the bottom of the movable door (9); the bottom sprag seat sets up at building structure's bottom, and direction ejection of compact subassembly sets up at the inside lower extreme of bottom sprag seat, and the lower extreme of transport pipe (18) is vertical to be extended to in the bottom sprag seat and be located the top of direction ejection of compact subassembly.

2. The vertical construction waste transport device as claimed in claim 1, wherein: the guide discharging assembly comprises a first cushion block (11), a second cushion block (12), a third cushion block (4), a bottom layer template (31) and a surface layer template (32); the first cushion blocks (11) are respectively arranged on the floor (10) at the bottom of the bottom supporting seat at intervals, and the bottom layer template (31) is horizontally laid on the first cushion blocks (11); the third cushion block (4) is arranged on one side of the top of the bottom layer template (31), the second cushion blocks (12) are respectively arranged on the other side of the top of the bottom layer template (31) at intervals, and the surface layer template (32) is obliquely laid on the second cushion blocks (12) and the third cushion block (4).

3. The vertical construction waste transport device as claimed in claim 2, wherein: the bottom support seat comprises support rods (16) and a connecting plate (17), and a plurality of vertically arranged support rods (16) are connected with a plurality of horizontally arranged support rods (16) to form a rectangular frame structure; the lower part of the conveying pipe (18) extends into the cuboid frame structure and is fixedly connected with a transversely arranged support rod (16) through a plurality of connecting plates (17).

4. The vertical construction waste transport device according to claim 3, wherein: one side end of the cuboid frame structure is used as a discharge hole, the low end of the obliquely laid surface layer template (32) extends to one side end of the cuboid frame structure, the low end of the surface layer template (32) is cut into a comb shape, and the high end of the obliquely laid surface layer template (32) extends to the other side end of the cuboid frame structure; a residue groove (2) is arranged on the floor (10) outside the discharge hole, and the residue groove (2) is positioned below the lower end of the surface layer template (32).

5. The vertical construction waste transport device as claimed in claim 3 or 4, wherein: inclined struts (6) are arranged in two end faces of the cuboid frame structure, and the pair of inclined struts (6) are arranged in an X-shaped crossed manner; reinforcing ribs (15) are respectively arranged at two corners of the top of one side end face and the other side end face of the cuboid frame structure.

6. The vertical construction waste transport device as claimed in claim 5, wherein: cuboid frame construction's top laid protection template (33), be formed with the through-hole on protection template (33), transport pipe (18) run through protection template (33) through the through-hole and insert to cuboid frame construction in.

7. The vertical construction waste transport device as claimed in claim 6, wherein: the bottom circumference of transport pipe (18) arranged a plurality of buffering strip (5), a plurality of buffering strip (5) interval set up and be on a parallel with the axial of transport pipe (18), buffering strip (5) are located the top of direction ejection of compact subassembly's surface course template (32).

8. The vertical construction waste transport device according to claim 1, wherein: the floor slab lap joint assembly comprises a conveying pipe connecting plate (81), a floor connecting plate (82) and a connecting rod (7); the pair of conveying pipe connecting plates (81) are respectively fixedly arranged on the outer wall of the conveying pipe (18), and the pair of conveying pipe connecting plates (81) are positioned on two sides of the movable door (9); a pair of floor connecting plates (82) are respectively fixedly arranged on a floor slab (10), and a pair of connecting rods (7) are correspondingly connected between a pair of conveying pipe connecting plates (81) and the pair of floor connecting plates (82), so that the pair of connecting rods (7) are obliquely arranged on two sides of a feeding plate (14).

9. The vertical construction waste transport device as claimed in any one of claims 1, 3 and 6 to 8, wherein: the top of the conveying pipe (18) is covered with a protective cover plate (120), and the top of the protective cover plate (120) is provided with a handle (121); the bottom of the protective cover plate (120) is provided with a plurality of positioning rods (122), and the positioning rods (122) are attached to the inner wall of the conveying pipe (18) in the circumferential direction, so that the protective cover plate (120) coaxially covers the upper end of the conveying pipe (18).

10. The vertical construction waste transport device as claimed in claim 9, wherein: a plurality of guide pieces (13) are circumferentially arranged on the inner wall of the conveying pipe (18), and the guide pieces (13) are positioned below the floor slab (10); one end of each guide piece (13) is fixed on the inner wall of the conveying pipe (18), and the other end of each guide piece (13) is obliquely arranged, so that a plurality of guide pieces (13) form a conveying channel with a wide top and a narrow bottom in the conveying pipe (18); the guide (13) is wrapped with a shock absorbing layer.

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