CN113235869B - Garbage clearing device for high-rise building construction floors - Google Patents

Abstract

The invention discloses a garbage clearing and transporting device for high-rise building construction floors, which relates to the technical field of high-rise garbage clearing and transporting and comprises the following components: at least two external connection pipes, wherein two adjacent external connection pipes are detachably connected by adopting a connecting pipe; the anchoring mechanism is correspondingly sleeved on the external connecting pipe, and the external connecting pipe can be anchored in the building wall body through the anchoring mechanism; the inner pipe assembly is detachably arranged in the outer connecting pipes, one inner connecting pipe assembly is arranged in each outer connecting pipe, and the inner diameters of the inner pipe assemblies are kept consistent; the inner pipe assembly at least comprises a speed reducing pipe, and a speed reducing mechanism in the speed reducing pipe can be hidden in the speed reducing pipe and stretches out when the garbage is required to be decelerated.

Description

Garbage clearing device for high-rise building construction floors

Technical Field

The invention relates to the technical field of high-rise garbage clearing and transporting, in particular to a garbage clearing and transporting device for high-rise building construction floors.

Background

In the construction process of the building, building waste such as concrete, brick wall blocks, wood, waste water and the like are often generated, so that corresponding clearing treatment is needed, the building waste is easy for a low-rise building, and the building waste is needed to be treated by corresponding clearing equipment for a high-rise building, wherein the building waste is conveyed to the ground by utilizing a pipe body to guide the waste, but the simple pipe body structure cannot meet the actual clearing requirement of the building waste, on one hand, the building waste is heavier in weight, and has higher speed when passing through the pipe body structure, if a speed reducing mechanism is not arranged, potential safety hazards easily appear, and on the other hand, if the speed reducing mechanism is arranged in the pipe body, the building waste is likely to be blocked on the speed reducing mechanism, and the speed reducing mechanism also limits the delivering amount of the waste each time.

Therefore, there is a need to provide a garbage disposal device for high-rise building construction floors, so as to solve the problems in the prior art.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions: a high-rise building construction floor is with rubbish clearance device includes:

at least two external connection pipes, wherein two adjacent external connection pipes are detachably connected by adopting a connecting pipe;

the anchoring mechanism is correspondingly sleeved on the external connecting pipe, and the external connecting pipe can be anchored in the building wall body through the anchoring mechanism; and

the inner connecting pipe assemblies are detachably arranged in the outer connecting pipes, one inner connecting pipe assembly is arranged in each outer connecting pipe, and the inner diameters of the inner connecting pipe assemblies are kept consistent;

the inner pipe assembly at least comprises a speed reducing pipe, and a speed reducing mechanism in the speed reducing pipe can be hidden in the speed reducing pipe and stretches out when the garbage is required to be decelerated.

Further, preferably, a velocimeter is disposed in the inner tube assembly, and the velocimeter and the speed reducing mechanism are both electrically connected with a controller, and the controller is configured to: when the speed measuring instrument measures that the falling speed of the garbage exceeds a threshold value, the controller controls the speed reducing mechanism to extend out of the speed reducing pipe so as to reduce and intercept the garbage.

Further, preferably, the deceleration tube includes:

the pipe body is provided with a plurality of through grooves extending along the radial direction;

the speed reducing mechanism includes:

the speed reducing plate is correspondingly arranged in the through groove in a sliding manner along the radial direction of the pipe body;

the speed reducing plate is driven to slide by the telescopic device, and the telescopic device is fixed outside the pipe body.

Further, preferably, the speed reducing plate is L-shaped, the top of the speed reducing plate is hinged with a hinged plate, and a speed reducing bag is preset between the hinged plate and the speed reducing plate.

Further, preferably, the inner tube assembly further includes:

three groups of internal connecting pipes which are arranged at intervals;

and a speed reducing pipe is connected between two adjacent inner connecting pipes, one side of the speed reducing pipe is connected with the inner connecting pipes by adopting an oscillation blanking mechanism, and the other side of the speed reducing pipe is connected with the inner connecting pipes by adopting a buffer mechanism.

Further, preferably, a positioning locking ring is arranged on the outer circumference of the inner joint pipe and used for locking the inner joint pipe assembly in the inner wall of the outer joint pipe, and the positioning locking ring comprises a plurality of angle adjusting seats arranged in a circumferential array and locking bags embedded in the angle adjusting seats.

Further, preferably, the oscillating blanking mechanism includes:

two mounting rings, wherein one mounting ring is coaxially connected with the speed reducing pipe, the other mounting ring is coaxially connected with the inner connecting pipe, and a plurality of telescopic rods are hinged between the two mounting rings;

the buffer mechanism includes:

two mounting ring pads, wherein one mounting ring pad is coaxially connected with the speed reducing pipe, the other mounting ring pad is coaxially connected with the inner connecting pipe, a plurality of buffer springs are connected between the two mounting ring pads, and a flexible protection ring is also connected between the two mounting ring pads;

the expansion and contraction actions of the telescopic device and the locking bag are controlled by a controller;

the controller is further configured to: when the garbage is clamped in the speed reducing pipe, the controller controls the adjacent telescopic rods to drive the speed reducing pipe to oscillate up and down; and when the garbage is clamped on the inner connecting pipe, the controller controls the locking bag on the inner connecting pipe to shrink and controls the adjacent telescopic rod to drive the inner connecting pipe to oscillate up and down.

Further, preferably, a plurality of dust removing nozzles are disposed on each of the inner connecting pipes.

Further, as the preference, be located the bottommost be provided with two at least crushing boards inside the extension tube, the crushing board is the grid structure, and the interval is provided with broken awl on it, and the broken awl on two adjacent crushing boards is crisscross to be arranged.

Further, preferably, a space exists between the bottom of the outer tube and the receiving surface, and a buffer collecting net is connected to the bottom of the outer tube.

Compared with the prior art, the invention provides a garbage clearing device for high-rise building construction floors, which has the following beneficial effects:

according to the embodiment of the invention, the arranged speed reducing mechanism can be hidden in the speed reducing pipe and extends out when the garbage is required to be decelerated, so that the problem that the garbage is blocked due to the speed reducing mechanism can be effectively solved, and the speed measuring instrument is arranged in the inner connecting pipe assembly;

in addition, when the garbage is clamped in the speed reducing pipe, the controller can control the adjacent telescopic rods to drive the speed reducing pipe to oscillate up and down; and when rubbish card is on the takeover in, the controller can control the locking bag on this takeover to shrink, and controls adjacent telescopic link drive this takeover and go on oscillating from top to bottom to can effectually promote the rubbish whereabouts of card shell.

Drawings

FIG. 1 is a schematic perspective view of a garbage disposal device for a high-rise building construction floor;

FIG. 2 is a schematic structural view of an outer connection pipe and inner connection pipe assembly in a garbage disposal device for a high-rise building construction floor;

FIG. 3 is a schematic view of a part of the enlarged structure of FIG. 2;

FIG. 4 is a schematic diagram of the structure of a deceleration tube in a garbage disposal apparatus for a high-rise building construction floor;

in the figure: 1. an outer connecting pipe; 2. a connecting pipe; 3. an anchoring mechanism; 31. an anchor tube; 32. an anchor seat; 33. a bolt; 4. an inner connecting pipe; 5. a deceleration tube; 6. oscillating a blanking mechanism; 7. a buffer mechanism; 8. a breaker plate; 9. a buffer collection net; 41. positioning the locking ring; 411. an angle adjusting seat; 412. a locking bag; 42. a guide opening; 43. dust removal spray head; 61. a mounting ring; 62. a telescopic rod; 71. a mounting ring pad; 72. a buffer spring; 73. a guard ring; 51. a tube body; 52. a through groove; 53. a speed reducing plate; 54. a telescopic device; 55. a hinged plate; 56. a speed reducing bag.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present invention, a garbage collection device for a high-rise building construction floor includes:

the two external connection pipes 1 are detachably connected by adopting a connection pipe 2, and in practical application, the number of the external connection pipes can be further determined according to the height of a high-rise building construction floor, and the connection pipe 2 can be a rigid threaded connection pipe or a flexible pipe;

the anchoring mechanism 3 is correspondingly sleeved on the extension pipe 1, and the extension pipe 1 can be anchored in a building wall through the anchoring mechanism 3, specifically, as shown in fig. 1, the anchoring mechanism 3 comprises two semi-annular anchoring pipes 31, an anchoring seat 32 is fixedly connected to the anchoring pipes 31, the anchoring mechanism 33 penetrates through the two anchoring seats 32 and is embedded in the building wall, so that the fixation of the extension pipe 1 can be realized, and preferably, one anchoring mechanism 3 can be arranged on each extension pipe 1; and

the inner connecting pipe assemblies are detachably arranged in the outer connecting pipes 1, one inner connecting pipe assembly is arranged in each outer connecting pipe 1, the inner diameters of the inner connecting pipe assemblies are kept consistent, and it is to be explained that the inner diameters of the inner connecting pipe assemblies are kept consistent, so that the garbage blocking situation is reduced, otherwise, the smaller inner diameter becomes a standard for measuring the delivery amount of garbage each time;

the inner pipe assembly at least comprises a reduction pipe 5, and a reduction mechanism in the reduction pipe 5 can be hidden in the reduction pipe 5 and stretches out when the garbage is required to be reduced, so that the phenomenon that the reduction mechanism causes garbage to be blocked can be effectively solved.

Further, preferably, a velocimeter is disposed in the inner tube assembly, and the velocimeter and the speed reducing mechanism are both electrically connected with a controller, and the controller is configured to: when the speed measuring instrument measures that the falling speed of the garbage exceeds the threshold value, the controller controls the speed reducing mechanism to extend out of the speed reducing pipe 5 to reduce speed and intercept the garbage, so that the garbage is prevented from impacting the ground surface at a higher speed and even penetrating through the outer connecting pipe 1, and potential safety hazards are caused.

In this embodiment, as shown in fig. 4, the deceleration tube 5 includes:

a tube body 51, wherein a plurality of through grooves 52 extending along the radial direction of the tube body 51 are formed on the circumference of the tube body 51;

the speed reducing mechanism includes:

the speed reducing plate 53 is correspondingly arranged in the through groove 52 in a sliding manner along the radial direction of the pipe body 51;

the reduction plate is driven to slide by a telescopic device 54 which is fixed to the outside of the pipe body 51.

In a preferred embodiment, the speed reducing plate 53 is L-shaped, the top of the speed reducing plate 53 is hinged with a hinged plate 55, a speed reducing bag 56 is preset between the hinged plate 55 and the speed reducing plate 53, and the speed reducing bag 56 can realize a buffering function.

In this embodiment, as shown in fig. 2, the inner tube assembly further includes:

three groups of internal connecting pipes 4 which are arranged at intervals;

and a speed reducing pipe 5 is connected between two adjacent inner connecting pipes 4, one side of the speed reducing pipe 5 is connected with the inner connecting pipe 4 by adopting an oscillation blanking mechanism 6, and the other side of the speed reducing pipe 5 is connected with the inner connecting pipe 4 by adopting a buffer mechanism 7, and the inner connecting pipe assembly can also form a double-layer pipe structure with the outer connecting pipe 1, so that the garbage can be effectively prevented from breaking through the pipe body and flying out.

As a preferred embodiment, the outer circumference of the inner tube 4 is provided with a positioning locking ring 41 for locking the inner tube assembly in the inner wall of the outer tube 1, the positioning locking ring 41 includes a plurality of angle adjustment seats 411 disposed in a circumferential array and a locking bag 412 embedded in the angle adjustment seats 411, the angle adjustment seats have an angle adjustment function, so that the locking bag 412 can be inclined relative to the inner tube, the locking effect is improved, and the upper opening of the inner tube assembly located at the uppermost position is provided with a guiding opening 42 for guiding.

Wherein, as shown in fig. 3, the oscillating blanking mechanism 6 includes:

two mounting rings 61, wherein one mounting ring 61 is coaxially connected with the speed reducing pipe 5, the other mounting ring 61 is coaxially connected with the inner connecting pipe 4, and a plurality of telescopic rods 62 are hinged between the two mounting rings 61;

the buffer mechanism includes:

two mounting ring pads 71, wherein one mounting ring pad 71 is coaxially connected with the speed reducing pipe 5, the other mounting ring pad 71 is coaxially connected with the inner connecting pipe 4, a plurality of buffer springs 72 are connected between the two mounting ring pads 71, and a flexible protection ring 73 is also connected between the two mounting ring pads 71;

the telescoping action of the telescoping device 54 and the telescoping action of the locking bag 412 are controlled by a controller;

the controller is further configured to: when the garbage is clamped in the deceleration tube 5, the controller controls the adjacent telescopic rods 62 to drive the deceleration tube 5 to oscillate up and down; and when the garbage is clamped on the inner connecting pipe 4, the controller controls the locking bag 412 on the inner connecting pipe 4 to shrink, and controls the adjacent telescopic rod 62 to drive the inner connecting pipe 4 to oscillate up and down, so that the garbage clamped on the shell can be effectively promoted to fall.

As a preferred embodiment, a plurality of dust removing nozzles 43 are disposed on each of the inner tubes 4.

As the preferred embodiment, be located at the bottommost be provided with two at least crushing boards 8 inside the outer tube 1, the crushing board 8 is the grid structure, and the interval is provided with broken awl on it, and the broken awl on two adjacent crushing boards 8 is crisscross arranges, is favorable to utilizing the whereabouts of building rubbish to strike, makes its natural crushing, has reduced the crushing step that follows it, convenient and fast.

As a preferred embodiment, a space exists between the bottom of the outer tube 1 and the receiving surface, and a buffer collecting net 9 is further connected to the bottom of the outer tube 1, and the buffer collecting net 9 has stretching elasticity.

During implementation, the number of the outer connecting pipes 1 is determined according to the height of a high-rise building construction floor, then an inner connecting pipe assembly is placed in each outer connecting pipe 1, then two adjacent outer connecting pipes 1 are detachably connected through connecting pipes 2, then each outer connecting pipe 1 is anchored in a building wall through an anchoring mechanism 3, the outer connecting pipes are integrally built, building garbage is delivered into the outer connecting pipes 1, and finally the building garbage is collected from a buffer collecting net and transported through a transport vehicle.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a high-rise building construction floor is with rubbish clearance device which characterized in that: comprising the following steps:

at least two external connection pipes (1), wherein two adjacent external connection pipes (1) are detachably connected by adopting a connecting pipe (2);

the anchoring mechanism (3) is correspondingly sleeved on the external connection pipe (1), and the external connection pipe (1) can be anchored in a building wall body through the anchoring mechanism (3); and

the inner connecting pipe assemblies are detachably arranged in the outer connecting pipes (1), one inner connecting pipe assembly is arranged in each outer connecting pipe (1), and the inner diameters of the inner connecting pipe assemblies are kept consistent;

the inner pipe assembly at least comprises a speed reducing pipe (5), and a speed reducing mechanism in the speed reducing pipe (5) can be hidden in the speed reducing pipe (5) and extends out when the garbage is required to be decelerated;

the deceleration tube (5) comprises:

the pipe body (51) is provided with a plurality of through grooves (52) extending along the radial direction of the pipe body (51);

the speed reducing mechanism includes:

the speed reducing plate (53) is correspondingly arranged in the through groove (52) in a sliding manner along the radial direction of the pipe body (51); the speed reducing plate is driven to slide by a telescopic device (54), and the telescopic device is fixed outside the pipe body (51);

the inner tube assembly further comprises:

three groups of internal connecting pipes (4) which are arranged at intervals;

a speed reducing pipe (5) is connected between two adjacent inner connecting pipes (4), one side of the speed reducing pipe (5) is connected with the inner connecting pipe (4) by adopting an oscillating blanking mechanism (6), and the other side of the speed reducing pipe is connected with the inner connecting pipe (4) by adopting a buffer mechanism (7);

the outer circumference of the inner joint pipe (4) is provided with a positioning locking ring (41) for locking the inner joint pipe assembly in the inner wall of the outer joint pipe (1), and the positioning locking ring (41) comprises a plurality of angle adjusting seats (411) arranged in a circumferential array and a locking bag (412) embedded in the angle adjusting seats (411);

the vibration blanking mechanism (6) comprises:

two mounting rings (61), wherein one mounting ring (61) is coaxially connected with the speed reducing pipe (5), the other mounting ring is coaxially connected with the inner connecting pipe (4), and a plurality of telescopic rods (62) are hinged between the two mounting rings (61);

the buffer mechanism includes:

two mounting ring pads (71), wherein one mounting ring pad (71) is coaxially connected with the speed reducing pipe (5), the other mounting ring pad is coaxially connected with the inner connecting pipe (4), a plurality of buffer springs (72) are connected between the two mounting ring pads (71), and a flexible protection ring (73) is also connected between the two mounting ring pads (71);

the expansion and contraction actions of the expansion and contraction device (54) and the expansion and contraction actions of the locking bag (412) are controlled by a controller;

the controller is further configured to: when the garbage is clamped in the deceleration tube (5), the controller controls the adjacent telescopic rods (62) to drive the deceleration tube (5) to oscillate up and down; and when the garbage is clamped on the inner connecting pipe (4), the controller controls the locking bag (412) on the inner connecting pipe (4) to shrink, and controls the adjacent telescopic rod (62) to drive the inner connecting pipe (4) to oscillate up and down.

2. The garbage collection device for high-rise building construction floors as claimed in claim 1, wherein: the speed measuring instrument is arranged in the inner connecting pipe assembly, the speed measuring instrument and the speed reducing mechanism are electrically connected with a controller, and the controller is configured to: when the speed measuring instrument measures that the falling speed of the garbage exceeds a threshold value, the controller controls the speed reducing mechanism to extend out of the speed reducing pipe (5) so as to reduce and intercept the garbage.

3. The garbage collection device for high-rise building construction floors as claimed in claim 1, wherein: the speed reducing plate (53) is L-shaped, the top of the speed reducing plate is hinged with a hinged plate (55), and a speed reducing bag (56) is preset between the hinged plate (55) and the speed reducing plate (53).

4. The garbage collection device for high-rise building construction floors as claimed in claim 1, wherein: a plurality of dust removing spray heads (43) are arranged on each inner connecting pipe (4).

5. The garbage collection device for high-rise building construction floors as claimed in claim 1, wherein: the outer joint (1) at the bottommost part is internally provided with at least two crushing plates (8), the crushing plates (8) are of grid structures, crushing cones are arranged on the crushing plates at intervals, and the crushing cones on the two adjacent crushing plates (8) are staggered.

6. The garbage collection device for high-rise building construction floors as claimed in claim 1, wherein: the space exists between the lower part of the outer tube (1) at the bottommost part and the receiving surface, and the buffer collecting net (9) is also connected below the outer tube (1) at the bottommost part.