CN112160544A - A rubbish discharging equipment for each floor in construction - Google Patents

Abstract

The invention discloses a garbage discharging device for each floor in building construction, and belongs to the field of building equipment. The connecting pipe sections are connected at the first position and vertically arranged along floors, a feeding pipe section is connected at the position close to the floor of each floor for feeding garbage, the connecting pipe sections and the feeding pipe section are connected together through corresponding flanges A and flanges B in a plugging mode, the damping sleeves arranged on the inner side walls of the flanges A are used for buffering and absorbing radial vibration, the damping gaskets sleeved outside the flanges B are used for buffering and absorbing axial vibration, and finally the adjacent flanges and fastening bolt pieces inserted into holes between the flanges are connected stably, so that the adjacent connecting pipe sections or the connecting pipe sections and the feeding pipe sections are flexibly connected, the damping effect is achieved through elastic deformation of the damping sleeves and the damping gaskets, extrusion deformation of rigid connection at the connecting positions is avoided, and the service life is influenced.

Description

A rubbish discharging equipment for each floor in construction

Technical Field

The invention belongs to the field of building equipment, and particularly relates to a garbage discharging device for each floor in building construction.

Background

In the building construction process, can produce various building waste usually, need in time clear away in order not to influence follow-up operation, but the rubbish of high floor is not convenient for transport, and the tradition mode relies on loop wheel machine or interim elevator to carry, occupies working resource, and is inefficient to be not convenient for unify the collection processing to rubbish.

To this patent no: CN201821904874.X discloses a construction waste discharge device for use in construction, wherein vertically arranged discharge pipes are arranged along floors for waste to fall, a waste inlet is arranged at each floor for feeding waste, the waste enters from a first waste inlet and a second waste inlet, and then falls into a ground waste bin after being buffered by a buffer plate in the discharge pipes during falling, and is collected and treated in a centralized manner, so that the efficiency is high, the influence on normal operation of construction caused by occupying a lifting mechanism is avoided, but some defects exist, most of construction waste is heavy materials such as stones or metals, the construction waste cannot be prevented from contacting the device to cause impact on the pipes to cause vibration and generate noise when falling, the pipes are rigidly connected through flanges and fasteners, and the pipes are easily distorted and deformed and damaged at the joints due to the influence of vibration for a long time, reducing the service life.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: aiming at the problems that the existing construction waste discharge device is easy to generate noise due to the influence of vibration, and the rigid connection mode of the device enables the pipeline to have poor capability of resisting distortion and deformation at the joint and be easy to bend and damage, thereby influencing the service life, the device is provided for the waste discharge device of each floor in the building construction.

In order to solve the technical problems, the invention adopts the following technical scheme:

a garbage discharging device for each floor in building construction mainly comprises a connecting pipe section and a feeding pipe section, wherein the connecting pipe section comprises a pipe body, two ends of the pipe body are respectively and fixedly connected with a flange, and eyelets are arranged on the flanges and close to the outermost circle in a surrounding mode; the end cut position of one end of the pipe body in the connecting pipe section is fixedly connected with an outward flange A, the end cut position of the other end of the pipe body is fixedly connected with a flange B which is also arranged outward, the inner diameter of the flange A is larger than the outer diameter of the flange B, the inner part of the pipe body in the connecting pipe section is fixed on the inner side wall of the pipe body along the axial direction and is distributed around the central shaft of the pipe body, the arc rubber plate is fixed on the inner side wall of the pipe body through a connecting rod arranged on one side facing the inner side wall direction of the pipe body, the flanges B at the bottom ends of the two adjacent connecting pipe sections are inserted into the corresponding flanges A at the top ends of the lower connecting pipe sections, and are inserted into vertically corresponding holes in the two flanges at the adjacent positions on the two connecting pipe sections through fastening bolts, so that the two connecting pipe sections are fixedly connected, and the connecting pipe sections are vertically arranged, and a feeding pipe section between the two connecting pipe sections is arranged at a position close to a floor bottom plate in a floor, the feeding pipe section and the connecting pipe sections have the same shape and structure, the difference is that a feeding end is fixedly connected to the side surface of the feeding pipe section and faces the floor direction, and no arc-shaped rubber plate is arranged in the feeding pipe section.

Further, a damping sleeve made of rubber is fixedly connected in the inner side wall of the flange A.

And a damping gasket attached to one side, close to the adjacent flange, of the flange B is sleeved on the outer side wall of the flange B.

The fastening bolt piece further comprises a screw rod, a thread section of the head of the screw rod and a nut matched with the thread section on the screw rod, a rubber wrapping layer is arranged on the part, located through the hole on the flange, of the screw rod, and a compression spring is sleeved on the screw rod and located between the nut and the flange.

Further arc rubber slab both ends are crooked and are pressed close to the inside wall of body, and its mid portion is protruding towards the body center to interval distance is in 1~2cm within range between two adjacent arc rubber slabs.

The bottom of the feeding end of the feeding pipe section is provided with a through hole, the feeding pipe section is close to a floor bottom plate in a floor, the feeding end is attached to the floor bottom plate, a drill hole is drilled in the floor bottom plate at a position right below the through hole in the feeding end, a rivet matched with the drill hole is arranged, and the rivet penetrates through the through hole and is fixed in the drill hole through self deformation or interference connection.

And a garbage truck for containing construction waste is further placed below the connecting pipe section at the lowest layer on the ground.

Compared with other methods, the method has the beneficial technical effects that:

the connecting pipe sections are connected in an initial position and vertically arranged along floors, a material feeding pipe section is connected at a position close to a floor bottom plate of each floor for feeding garbage, a plurality of arc-shaped rubber plates are arranged in the connecting pipe sections in a surrounding mode along the central shaft, the caliber of the middle position of each surrounding rubber plate is small, the garbage falling into the pipeline continuously collides with the arc-shaped rubber plates when falling, gradually loses a part of falling speed to prevent the device from being damaged by impact due to large falling speed, and the rubber plates are elastically deformed due to stress to convert and absorb a part of impact force, namely, the vibration damping effect is achieved, as the connecting pipe sections and the material feeding pipe section are spliced together through corresponding flanges A and B, the vibration damping sleeve arranged on the inner side wall of the flange A is used for buffering and absorbing radial vibration, and the vibration damping washer sleeved outside the flange B is used for buffering and absorbing axial, finally, the adjacent flanges and the fastening bolt pieces inserted into holes between the flanges are stably connected, so that the adjacent connecting pipe sections or the connecting pipe sections are flexibly connected with the feeding pipe section, and the vibration reduction effect of the vibration reduction sleeve and the vibration reduction gasket through elastic deformation is realized, and the extrusion deformation caused by rigid connection of the connecting parts is avoided, and the service life is influenced.

Drawings

FIG. 1 is a schematic view of the structure of the junction between two adjacent connecting segments 1 in the apparatus of the present invention;

FIG. 2 is an enlarged view of area A of FIG. 1;

FIG. 3 is a schematic view of the structure of the feeding pipe section 2 in the apparatus of the present invention;

FIG. 4 is a schematic view of the installation of the apparatus of the present invention along a building floor;

FIG. 5 is an enlarged view of area B of FIG. 4;

1. connecting the pipe sections; 101. a pipe body; 102. a flange A; 103. a flange B; 104. a flange; 105. an eyelet; 106. an arc-shaped rubber plate; 107. a connecting rod; 108. a damping sleeve; 109. a vibration-damping washer; 2. a feeding pipe section; 201. a feeding end; 202. a through hole; 3. a fastening bolt member; 301. a screw; 302. a threaded segment; 303. a nut; 304. a rubber wrapping layer; 305. a compression spring; 4. a garbage truck; 5. a floor; 501. a floor slab; 502. drilling; 6. and (4) riveting.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. The words "upper", "lower", "left" and "right" when used herein are merely intended to designate corresponding upper, lower, left and right directions in the drawings, and do not limit the structure thereof.

As shown in fig. 4, the garbage discharging device for each floor in building construction mainly comprises a connecting pipe section 1 and a feeding pipe section 2, wherein the connecting pipe section 1 comprises a pipe body 101, as shown in fig. 1, two ends of the pipe body 101 are respectively and fixedly connected with a flange 104, and an eyelet 105 is arranged on the flange 104 close to the outermost circle in a surrounding manner; the end cut position of one end of the pipe body 101 in the connecting pipe section 1 is fixedly connected with an outward flange A102, the end cut position of the other end of the pipe body 101 is fixedly connected with a flange B103 which is also arranged outward, the inner diameter of the flange A102 is larger than the outer diameter of the flange B103, the inner part of the pipe body 101 in the connecting pipe section 1 is axially distributed around the central axis of the pipe body 101, the arc rubber 106 is fixed on the inner side wall of the pipe body 101 through a connecting rod 107 arranged on one side facing the inner side wall direction of the pipe body 101, the two adjacent connecting pipe sections 1 are inserted into the corresponding flange A102 at the top end of the connecting pipe section 1 at the lower part through the flange B103 at the bottom end of the connecting pipe section 1 at the upper part, as shown in FIG. 2, and are inserted into the corresponding holes 105 up and down in the two flanges 104 at the adjacent positions on the two connecting pipe sections 1 through fastening bolts 3, as shown in fig. 4, two connecting pipe sections 1 are fixedly connected, the connecting pipe sections 1 are vertically arranged end to end along a floor 5, and a feeding pipe section 2 between the two connecting pipe sections 1 is arranged at a position close to a floor bottom plate 501 in the floor 5, as shown in fig. 3, the feeding pipe section 2 and the connecting pipe sections 1 have the same shape and structure, and the difference is that a feeding end 201 is fixedly connected to the side surface of the feeding pipe section 2 and faces the floor 5, and an arc-shaped rubber plate 106 is not arranged in the feeding pipe section 2, so that the feeding pipe section 2 can be fixed between the two connecting pipe sections 1 in the same connection mode as the connecting pipe sections 1, and a feeding pipe section 2 for garbage to be fed is arranged at each floor 5.

Wherein a damping sleeve 108 made of rubber is fixedly connected in the inner side wall of the flange a 102.

Wherein the outer side wall of the flange B103 is sleeved with a damping gasket 109 attached to the side close to the adjacent flange 104.

The fastening bolt member 3 comprises a screw 301, a threaded section 302 of the head of the screw 301, and a nut 303 matched with the threaded section 302 of the screw 301, a rubber wrapping layer 304 is arranged on the portion, which passes through the hole 105 of the flange 104, of the screw 301, and a compression spring 305 is sleeved on the screw 301 and between the nut 303 and the flange 104, so that when the two coupled members are subjected to vibration and distortion, the rubber wrapping layer 304 and the compression spring 305 are subjected to stress deformation to play a role in damping and buffering, and the fastening bolt member 3 is not subjected to large radial shearing force and axial tension to be bent and damaged.

Wherein the crooked inside wall that presses close to body 101 in arc rubber slab 106 both ends, its mid portion is protruding to the body center to interval distance is in 1~2cm within range between two adjacent arc rubber slabs 106, and 1~2cm at interval is for providing the space for the crooked deformation of arc rubber slab 106, takes place friction collision between the rubber slab when preventing arc rubber slab 106 from receiving the rubbish impact force of whereabouts and extrusion deformation, in order to avoid further improving the impaired condition of friction.

As shown in fig. 4 and 5, the bottom of the feeding end 201 of the feeding pipe section 2 is provided with a through hole 202, the feeding pipe section 2 is close to a floor bottom plate 501 in a floor 5, the feeding end 201 abuts against the floor bottom plate 501, a drilling hole 502 is drilled on the floor bottom plate 501 at a position right below the through hole 202 on the feeding end 201, and a rivet 6 matched with the drilling hole is provided, the rivet 6 penetrates through the through hole 202 and is fixed in the drilling hole 502 by self-deformation or interference connection, so that each feeding pipe section 2 is fixedly connected with the floor bottom plate 501 through the rivet 6, and the whole pipeline system is vertically fixed along the floor 5 through the fixed feeding pipe section 2.

As shown in fig. 4, a garbage truck 4 for containing construction waste is placed below the connecting pipe section 1 at the lowest layer on the ground, and the garbage truck 4 is used for collecting the falling garbage through the pipeline in a centralized manner, so that the later-stage unified treatment is facilitated.

The present invention has been further described with reference to specific embodiments, but it should be understood that the detailed description should not be construed as limiting the spirit and scope of the present invention, and various modifications made to the above-described embodiments by those of ordinary skill in the art after reading this specification are within the scope of the present invention.

Claims (7)

1. A garbage discharging device for each floor in building construction mainly comprises a connecting pipe section (1) and a feeding pipe section (2), wherein the connecting pipe section (1) comprises a pipe body (101), two ends of the pipe body (101) are respectively and fixedly connected with a flange (104), and an eyelet (105) is arranged on the flange (104) close to the outermost circle in a surrounding mode, the garbage discharging device is characterized in that an outward flange A (102) is fixedly connected to a cut position of one end of the pipe body (101) in the connecting pipe section (1), a flange B (103) which is also arranged outwards is fixedly connected to a cut position of the other end of the pipe body (101), the inner diameter of the flange A (102) is larger than the outer diameter of the flange B (103), an arc-shaped rubber plate (106) is distributed in a surrounding mode along the axial direction and around the central axis of the pipe body (101) in the connecting pipe section (1), the arc-shaped rubber plate (106) is fixed on the inner side wall of the pipe body (101) through a connecting rod (107) arranged on one side facing the inner side wall direction of the pipe body (101), two adjacent connecting pipe sections (1) are inserted into corresponding flanges A (102) at the top ends of the connecting pipe sections (1) below through flanges B (103) at the bottom ends of the connecting pipe sections (1) above, and are inserted into corresponding holes (105) at the upper and lower parts of two flanges (104) at adjacent positions on the two connecting pipe sections (1) through fastening bolts (3), so that the two connecting pipe sections (1) are fixedly connected, the connecting pipe sections (1) are vertically arranged along a floor (5) in an end-to-end manner, a feeding pipe section (2) between the two connecting pipe sections (1) is arranged at a position close to a floor bottom plate (501) in the floor (5), and the feeding pipe section (2) is the same as the connecting pipe section (1) in shape and structure, the device is characterized in that a feeding end (201) is fixedly connected to the side surface of the feeding pipe section (2) and faces towards the direction of a floor (5), and an arc-shaped rubber plate (106) is not arranged inside the feeding pipe section (2).

2. A refuse discharge apparatus for stories in building construction according to claim 1, wherein a rubber-made damping sleeve (108) is fixedly attached in the inner side wall of the flange a (102).

3. A refuse discharge apparatus for use at various stories in building construction according to claim 1, wherein the outer side wall of the flange B (103) is covered with a vibration-damping washer (109) attached to the side adjacent to the adjacent flange (104).

4. A refuse discharge arrangement for floors in building construction according to claim 1, characterised in that the fastening bolt (3) comprises a threaded rod (301), a threaded section (302) at the head of the threaded rod (301) and a nut (303) cooperating with the threaded section (302) on the threaded rod (301), that a rubber coating (304) is provided on the threaded rod (301) at the portion which passes through the hole (105) in the flange (104), and that a compression spring (305) is fitted over the threaded rod (301) between the nut (303) and the flange (104).

5. The waste discharge device for the floors in building construction as claimed in claim 1, wherein the two ends of the arc-shaped rubber plates (106) are bent and close to the inner side wall of the pipe body (101), the middle part of the arc-shaped rubber plates is protruded towards the center of the pipe body, and the interval distance between two adjacent arc-shaped rubber plates (106) is in the range of 1-2 cm.

6. The waste discharge device for each floor in building construction according to claim 1 is characterized in that the bottom of the feeding end (201) on the feeding pipe section (2) is provided with a through hole (202), the feeding pipe section (2) is close to a floor bottom plate (501) in the floor (5), the feeding end (201) is abutted against the floor bottom plate (501), a drill hole (502) is drilled on the floor bottom plate (501) at a position right below the through hole (202) on the feeding end (201), and a rivet (6) matched with the drill hole is provided, and the rivet (6) penetrates through the through hole (202) and is fixed in the drill hole (502) by self-deformation or interference connection.

7. A refuse discharge arrangement for floors in building construction according to claim 1, characterised in that a refuse vehicle (4) for containing construction refuse is placed at the ground level below the connecting pipe section (1) at the lowermost floor.

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