CN215291501U - Novel high-rise building waste treatment system - Google Patents

Abstract

The utility model discloses a novel high-rise building waste treatment system, which comprises a pipeline, a material distribution port, a three-level sedimentation tank and a garbage tank, wherein the material distribution port is arranged at the outlet of the pipeline and can rotate; the three-stage sedimentation tank and the garbage tank are positioned below the material separating port, and wastes can be fed into the three-stage sedimentation tank or the garbage tank through the rotary material separating port. The utility model discloses increased tertiary sediment device, the tertiary sedimentation tank carries out reuse after with the stone after the concrete washing, the grit, the separation of water, the water resource carries out the maintenance of concrete or sprays the raise dust prevention, other materials are used for the site operation, accomplish the repeated reuse with the waste material that can be better, accord with the requirement of safe civilization construction and saving type construction, and possess the light, swift safe characteristics of installation effect, can reduce installation cost to a great extent, and adopt this installation device not have the potential safety hazard because of damage phenomenon takes place.

Description

Novel high-rise building waste treatment system

Technical Field

The utility model relates to a high-rise building waste disposal field particularly, relates to a novel high-rise building waste disposal system.

Background

At present, after most of concrete of high-rise and super high-rise buildings is poured, expansion bolts are drilled on the outer walls of the buildings, pump pipes are used for flushing and fixing drainage pipelines, and then building wastes are flushed. However, the fixing method is very insecure, and when the construction waste is washed, the pipeline is easily broken by the sewage falling at high speed or broken by stones, so that the method has certain potential safety hazard and higher maintenance cost; secondly, when the cement paste overflows from the damaged position, the outer scaffold or the outer wall is polluted, so that the requirements of safe and civilized construction site construction are not met.

In addition, the method is characterized in that a steel pipe, an iron wire and the like for the pump washing drain pipe are fixed on an external scaffold, the construction difficulty is high, the installation and the disassembly are difficult, and the external scaffold is influenced to a certain extent during construction and use and does not meet the requirements of safe and civilized construction. Meanwhile, the method has certain limitation and is not suitable for the engineering of climbing scaffolds.

Generally, the garbage channel of a high-rise building is manufactured at a flue port or an air outlet in the building simply to achieve the effect of cleaning garbage, but the method needs square timber and templates to be manufactured, assembled and disassembled with high cost and does not meet the requirement of safe civilized construction.

At present, after being conveyed from a high-rise building, building wastes are directly conveyed to a garbage pool to be discarded or are crushed firstly and then discarded, so that certain resource waste is caused, and the environment is not protected. A matched waste treatment device is not available so far, and waste is separated and recycled.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

The to-be-solved problem of the utility model is to wash fixed and the fixed shortcoming of rubbish clearance passageway of pump drainage pipe at present, provide a high-rise building waste processing system high-efficient, swift, safe, low cost.

For solving the above problem, the utility model discloses a technical scheme as follows: a novel high-rise building waste treatment system comprises a pipeline, a material distribution port, a three-stage sedimentation tank and a garbage tank, wherein the material distribution port is arranged at the outlet of the pipeline and can rotate;

the three-stage sedimentation tank and the garbage tank are positioned below the material distribution port, and wastes can be fed into the three-stage sedimentation tank or the garbage tank through rotating the material distribution port;

the third-level sedimentation tank comprises a clean water tank, a cement slurry sedimentation tank, a first-level filtering tank and a stone tank which are arranged from left to right.

Further, the primary filter tank is arranged below the material distribution port, a grating plate is arranged above the primary filter tank, the grating plate is obliquely arranged, and a water flow speed reduction device is arranged in the primary filter tank below the grating plate.

Furthermore, a first through hole is formed in the wall between the cement slurry sedimentation tank and the first-stage filtering tank, and a filter screen is arranged on the first through hole in one side of the first-stage filtering tank.

Furthermore, a second through hole is formed in the wall between the clean water tank and the cement slurry sedimentation tank, and the clean water tank is communicated with the cement slurry sedimentation tank through the second through hole.

Furthermore, a water pumping pipe is arranged in the clean water tank.

Furthermore, rivers decelerator includes support and flabellum, and support upper portion is equipped with the pivot, and flabellum fixed mounting is in the pivot, and the flabellum both ends are equipped with the separation blade, and the separation blade is about pivot central symmetry.

Furthermore, the length of the pipeline is determined according to the number of floors of a building, a fixing clamp is arranged on the pipeline, two ends of the fixing clamp are respectively led into the positioning holes in the shear wall, the back surfaces of the positioning holes are firmly fixed through a base plate and a nut, and the fixing clamp makes full use of a wall penetrating sleeve in the shear wall to fix the pipeline on the shear wall.

Furthermore, the top of the pipeline is provided with a horn mouth which can be disassembled and assembled and fixed, and the horn mouth is horn-shaped.

Furthermore, a feed inlet is formed in each layer of pipeline and communicated with the pipeline, a baffle is hinged to the upper edge of the inner wall of the pipeline at the position of the feed inlet, and the baffle corresponds to the inner wall of the pipeline in shape and is tightly attached to the inner wall of the pipeline.

Furthermore, a flange is arranged between two adjacent layers of connected pipelines, the flange is fixed on the pipelines by using drill tail wires, and each pipeline is in a straight line from bottom to top.

The utility model adopts the above technical scheme, compare with prior art, have following advantage: the utility model discloses, place the position that the temporary convenient ann of the major structure outside was torn open with waste disposal system, fixing clip lug connection major structure reaches the purpose of washing pump drainage pipe snap-on in the major structure, moreover the utility model discloses increased tertiary sediment device, carry out reuse again after tertiary sedimentation tank with stone, grit, the separation of water after the concrete washing, the water resource carries out the maintenance of concrete or sprays the dust-proof, other materials are used for the site operation, can be better accomplish the repeated recycle with the waste material, accord with the requirement of safe civilization construction and saving type construction. Compared with the traditional method, the installation device has the characteristics of light installation effect, rapidness and safety, can reduce the installation cost to a greater extent, and has no potential safety hazard caused by the damage phenomenon.

Drawings

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

FIG. 1 is a schematic structural diagram of a novel high-rise building waste treatment system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a three-stage sedimentation tank in an embodiment of the present invention;

fig. 3 is a schematic structural view of a water flow speed reducer in an embodiment of the present invention;

in the figure:

1-pipeline, 2-feed inlet, 3-fixing clamp, 4-bell mouth, 5-flange, 6-material separating port, 7-baffle, 8-water flow speed reducer, 9-filter screen, 10-water pumping pipe, 11-grid plate, 12-three-stage sedimentation tank, 13-first-stage filtration tank, 14-cement slurry sedimentation tank, 15-clear water tank, 16-stone tank, 17-garbage tank, 18-first through hole, 19-second through hole, 81-bracket, 82-fan blade, 83-rotating shaft and 84-baffle.

Detailed Description

In order to clearly understand the technical features, objects and effects of the present invention, the detailed embodiments of the present invention will be described with reference to the accompanying drawings, and those skilled in the art will understand that the following does not limit the scope of the present invention.

In the embodiment, as shown in fig. 1-3, a novel high-rise building waste treatment system comprises a pipeline 1, a flange 5, a material distributing port 6, a three-stage sedimentation tank 12 and a garbage tank 17. The length of the pipeline 1 is determined according to the number of floors of a building, generally, each floor is covered by one floor, a section of the pipeline 1 is added, the added length is consistent with the height of the floor, the pipelines 1 between two adjacent floors are connected by a flange 5, the flange 5 is fixed on the pipeline 1 by a drill tail wire, and each pipeline is in a straight line from bottom to top.

The top of the pipeline 1 is provided with a horn mouth 4 which is temporarily fixed, the horn mouth 4 is horn-shaped, the pipeline 1 on each layer is provided with a feed inlet 2, the feed inlet 2 is communicated with the pipeline 1, the upper edge of the inner wall of the pipeline 1 at the feed inlet 2 is hinged with a baffle 7, the baffle 7 is corresponding to the inner wall of the pipeline 1 and clings to the inner wall of the pipeline 1 to just block the feed inlet 2, when waste is thrown into the feed inlet 2, the baffle 7 can be pushed away by the waste, the waste slides into the pipeline 1, the feed inlet 2 is arranged on each floor according to requirements, and the pipeline 1 in the embodiment is a cylindrical spiral air pipe with the diameter of 30cm and the length of 2900 mm.

The pipeline 1 is provided with the fixing clip 3, the two ends of the fixing clip 3 are respectively led into the positioning holes in the shear wall, the back surfaces of the positioning holes are fixed firmly by using the cushion plate and the nut, the fixing clip 3 fully utilizes the wall-penetrating sleeve on the shear wall to fix the pipeline 1 on the shear wall, the appearance of the fixing clip 3 is a U-shaped bolt, the two ends of the fixing clip 3 are fixedly connected with the shear wall through the two positioning holes, and the two positioning holes are arranged in a straight line.

The material distributing opening 6 is positioned at the bottom end of the pipeline 1 and can rotate, and waste can be collected into a garbage pool 17 or a three-stage sedimentation pool 12 at the bottom of a building.

The three-stage sedimentation tank 12 and the garbage tank 17 are positioned below the material distributing port 6, waste can be conveyed into the three-stage sedimentation tank 12 or the garbage tank 17 through rotating the material distributing port 6, general household garbage is conveyed into the garbage tank 17 after rotating, building cement slurry is conveyed into the three-stage sedimentation tank 12 for treatment after rotating, the three-stage sedimentation tank 12 comprises a clean water tank 15 arranged from left to right, a cement slurry sedimentation tank 14, a first-stage filtering tank 13 and a stone tank 16, the first-stage filtering tank 13 is arranged below the material distributing port 6, a grating plate 11 is arranged above the first-stage filtering tank 13, the grating plate 11 is obliquely arranged to facilitate stones larger than the caliber of the grating plate 11 to fall into the stone tank 16, a water flow speed reducing device 8 is arranged in the first-stage filtering tank 13 below the grating plate 11, the water flow speed reducing device 8 comprises a support 81 and fan blades 82, a rotating shaft 83 is arranged on the upper portion of the support 81, and the fan blades 82 are fixedly arranged on the rotating shaft 83, two ends of the fan blade 82 are provided with blocking pieces 84, and the blocking pieces 84 are centrosymmetric around the rotating shaft 83. Be equipped with first through-hole 18 on the pool wall between grout sedimentation tank 14 and the first order filtering ponds 13, be equipped with filter screen 9 on the first through-hole 18 of first order filtering ponds 13 one side, be equipped with second through-hole 19 on the pool wall between clean water basin 15 and the grout sedimentation tank 14, clean water basin 15 and grout sedimentation tank 14 pass through second through-hole 19 intercommunication, are equipped with drinking-water pipe 10 in the clean water basin 15.

When pump pipe waste water is treated, the material distributing port 6 is rotated to the position above the third-stage sedimentation tank 12, and when floor waste is treated, the material distributing port 6 is rotated to the position above the waste tank 17. The three-stage sedimentation tank 12 is used for cleaning concrete pouring pump pipes, and the grating plate 11 is a primary filtering system of the three-stage sedimentation tank 12 and can effectively filter stones out of the pump pipe wastewater; the water flow speed reducing device 8 can reduce the flow speed of water flow; the filter screen 9 can filter out all the mud carried in the mud water.

The third-stage sedimentation tank 12 separates the concrete washed stones, sand and water and then repeatedly utilizes the concrete washed stones, sand and water, water resources are used for maintaining the concrete or spraying the concrete to prevent dust, and other materials are used for field construction.

To sum up, the utility model aims to solve the technical problem that a simple and convenient high-rise or super high-rise building's waste disposal system is provided, realized that waste disposal system is effective fixed on the major structure, and can reuse. For realizing technical effect, the utility model discloses a novel high-rise building waste treatment system places the device in the main structure outside the position of conveniently ann tearing open temporarily, and fixing clip lug connection main structure reaches the purpose of will washing pump drainage pipe snap-on in the main structure, and a locating hole is reserved to every floor, realizes a fixed drainage pipe of every floor. The utility model discloses waste treatment system, simple manufacture, convenient to use to the bolt fastening mode is firm. In addition, the waste treatment system of the utility model is not easy to be damaged and can be reused, thus meeting the requirement of saving construction; the utility model discloses increased tertiary device that deposits, possible repeated recycle with the waste material that can be better accords with the requirement of safe civilized construction and saving type construction.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A novel high-rise building waste treatment system comprises a pipeline (1), and is characterized in that: the device also comprises a material distributing port (6), a three-stage sedimentation tank (12) and a garbage tank (17), wherein the material distributing port (6) is arranged at the outlet of the pipeline (1) and can rotate;

the three-stage sedimentation tank (12) and the garbage tank (17) are positioned below the material distribution port (6), and wastes can be fed into the three-stage sedimentation tank (12) or the garbage tank (17) through rotating the material distribution port (6);

the third-level sedimentation tank (12) comprises a clean water tank (15), a cement slurry sedimentation tank (14), a first-level filtering tank (13) and a stone tank (16) which are arranged from left to right.

2. A novel high-rise building waste disposal system as defined in claim 1, wherein: the primary filter tank (13) is arranged below the material distributing port (6), the grating plate (11) is arranged above the primary filter tank (13), the grating plate (11) is obliquely arranged, and a water flow speed reducing device (8) is arranged in the primary filter tank (13) below the grating plate (11).

3. A novel high-rise building waste disposal system as defined in claim 2, wherein: the water flow speed reducer (8) comprises a support (81) and fan blades (82), a rotating shaft (83) is arranged on the upper portion of the support (81), the fan blades (82) are fixedly installed on the rotating shaft (83), blocking pieces (84) are arranged at two ends of each fan blade (82), and the blocking pieces (84) are centrosymmetric about the rotating shaft (83).

4. A novel high-rise building waste disposal system as defined in claim 1, wherein: a first through hole (18) is arranged on the wall between the cement slurry sedimentation tank (14) and the first-stage filtering tank (13), and a filter screen (9) is arranged on the first through hole (18) on one side of the first-stage filtering tank (13).

5. A novel high-rise building waste disposal system as defined in claim 1, wherein: and a second through hole (19) is formed in the wall between the clean water tank (15) and the cement slurry sedimentation tank (14), and the clean water tank (15) is communicated with the cement slurry sedimentation tank (14) through the second through hole (19).

6. A novel high-rise building waste disposal system as defined in claim 1, wherein: a water pumping pipe (10) is arranged in the clean water tank (15).

7. A novel high-rise building waste disposal system as defined in claim 1, wherein: the length of the pipeline (1) is determined according to the number of floors of a building, the fixing clamp (3) is arranged on the pipeline (1), two ends of the fixing clamp (3) are respectively led into the positioning holes in the shear wall, the back surfaces of the positioning holes are firmly fixed by the cushion plate and the nuts, and the fixing clamp (3) fully utilizes the wall penetrating sleeve in the shear wall to fix the pipeline (1) on the shear wall.

8. A novel high-rise building waste disposal system as defined in claim 1, wherein: the top of the pipeline (1) is provided with a bell mouth (4) which can be fixed in a detachable way, and the bell mouth (4) is in a bell shape.

9. A novel high-rise building waste disposal system as defined in claim 1, wherein: all be equipped with feed inlet (2) on pipeline (1) on every layer, feed inlet (2) are linked together with pipeline (1), and the reason is articulated to have baffle (7) on pipeline (1) inner wall of feed inlet (2) department, and the shape of baffle (7) is corresponding with the inner wall of pipeline (1) to hug closely the inner wall of pipeline (1).

10. A novel high-rise building waste disposal system as defined in claim 1, wherein: a flange (5) is arranged between two adjacent layers of connected pipelines (1), the flange (5) is fixed on the pipelines (1) by a drill tail wire, and each pipeline is in a straight line from bottom to top.

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