CN113737905A

CN113737905A - Drainage system for prefabricated building

Info

Publication number: CN113737905A
Application number: CN202110901063.4A
Authority: CN
Inventors: 汪耀武; 方梅
Original assignee: Xianning Vocational Technical College
Current assignee: Xianning Vocational Technical College
Priority date: 2021-08-06
Filing date: 2021-08-06
Publication date: 2021-12-03

Abstract

The invention relates to the field of buildings, in particular to a drainage system for an assembly type building. The sewage draining device is communicated with a drainage pipeline of a building; the crushing device is connected with the sewage discharge device and is used for grinding hard materials mixed in the sewage; the plurality of inclined columns are distributed in a conical shape with a large upper end and a small lower end around the grinding column. A plurality of crushing plate groups are uniformly distributed at intervals along the vertical direction; each crushing plate group comprises a plurality of crushing plates which are hinged end to form an annular structure; the pin joint between a plurality of crushing boards divide into the free pin joint and the installation pin joint that set up in turn, and a plurality of tilting columns can slide from top to bottom on the tilting column with the universal articulated just installation pin joint of installation pin joint. When the crushing resistance increases, the free hinge point moves outwards in the radial direction, and the crushing plate group moves in a shrinkage mode downwards under the guidance of the inclined column. An elastic linkage mechanism is arranged between the upper and lower adjacent installation hinge points. The effect of preventing the equipment from being stuck and improving the grinding efficiency is achieved.

Description

Drainage system for prefabricated building

Technical Field

The invention relates to the field of buildings, in particular to a drainage system for an assembly type building.

Background

The prefabricated building comprises a factory building, is used for using by constructors during construction, comprises the assembly of a factory building main body and the assembly of a factory building drainage system, and the drainage system is used for discharging domestic sewage of the factory building and contains a plurality of impurities and easily causes the drainage system to be blocked if the drainage system is not treated. It is therefore necessary to break up the impurities in the drainage system.

The existing crusher is easy to cause the phenomenon of blocking of a crushing knife due to harder materials in the crushing process. In the crushing process, the materials are often crushed once and are not divided into two uniform halves, so that the stepless grinding is particularly important, however, in the process of crushing the materials into qualified materials (crushing the qualified materials into small particles after large particles are crushed into medium particles), the efficiency of the process is inconsistent, so that the phenomenon of stacking at a certain position in the middle of the materials is easily caused, the crushing efficiency is influenced, and further, sewage cannot be quickly discharged and blocked.

Disclosure of Invention

The invention provides a drainage system for an assembly type building, which aims to solve the problem of blockage of the existing drainage system.

The invention discloses a drainage system for an assembly type building, which adopts the following technical scheme:

the assembled drainage system for building includes building, sewage draining unit and crushing unit; the sewage draining device is communicated with a drainage pipeline of a building; the crushing device is connected with the sewage discharge device and is used for grinding hard materials mixed in the sewage; the crushing device comprises a grinding barrel, grinding columns, a plurality of inclined columns and a plurality of crushing plate groups, wherein the grinding barrel is cylindrical and is provided with an upward opening; the grinding column is vertically arranged and can be rotatably arranged in the grinding barrel; the plurality of inclined columns are distributed in a conical shape with a large upper end and a small lower end around the grinding column; a plurality of crushing plate groups are uniformly distributed at intervals along the vertical direction; each crushing plate group comprises a plurality of crushing plates which are hinged end to form an annular structure; hinge points among the crushing plates are divided into free hinge points and installation hinge points which are alternately arranged, the inclined columns are universally hinged with the installation hinge points, and the installation hinge points can slide up and down on the inclined columns; when the crushing resistance is increased, the free hinge point moves outwards in the radial direction, and the crushing plate group moves in a downward shrinkage mode under the guidance of the inclined column; an elastic linkage mechanism is arranged between the upper and lower adjacent installation hinge points.

Furthermore, the inclined column is provided with a spherical hinge sleeve in a sliding manner, and the installation hinge point is connected with the inclined column in a universal hinge manner through the spherical hinge sleeve.

Furthermore, the elastic linkage mechanism comprises a spring sleeved on the inclined column, the spring is positioned between two adjacent spherical hinge sleeves, and the upper end and the lower end of the spring are fixedly connected with the corresponding spherical hinge sleeves.

Furthermore, each crushing plate group is provided with a plurality of upper crushing knives and a plurality of lower crushing knives; the upper crushing knife and the lower crushing knife are arranged in a staggered mode in the vertical direction and are arranged alternately in the circumferential direction.

Furthermore, a filter screen is arranged at the bottom of the grinding barrel, and the grinding column is rotatably arranged on the filter screen.

Furthermore, the grinding column is in a circular truncated cone structure with a small upper part and a big lower part, the upper end of the grinding column protrudes upwards to form a spherical structure, and the lower end of the grinding column is rotatably arranged on the filter screen; a plurality of grinding racks are arranged on the peripheral wall of the grinding column, and each grinding rack is spirally arranged around the grinding wall.

Furthermore, a feed hopper extends upwards from the opening of the grinding barrel, and the feed hopper is of a flaring structure.

Furthermore, the mounting barrel is vertically arranged, and the upper end of the mounting barrel is fixedly connected with the lower end of the grinding barrel; the material guide plate is horizontally arranged in the middle of the installation barrel, a space formed by the upper surface of the material guide plate and the filter screen is a material collection cavity, and the material collection cavity is used for collecting ground materials; the space formed by the lower surface of the material guide plate and the bottom of the installation barrel is a power cavity, and the power cavity drives the grinding column to rotate through a transmission mechanism.

Further, the stock guide is the bellied half spherical structure that makes progress, and is equipped with the discharge gate in the lowest of chamber of gathering materials.

Further, a motor is arranged in the power cavity, and the vertically arranged lower end of the motor is fixedly arranged at the bottom of the mounting barrel; the transmission mechanism is a transmission shaft, the transmission shaft is sequentially and rotatably inserted in the axes of the guide plate and the filter screen from bottom to top, the upper end of the transmission shaft is fixedly connected with the axes of the grinding columns, and the lower end of the rotating shaft is fixedly connected to the output shaft of the motor.

A dredging process of a drainage system for an assembly type building comprises the following steps:

s1, communicating a sewer pipeline of the building with a sewage draining device, and communicating the sewage draining device with a feeding pipe at the upper end of the crushing device;

s2, opening the crushing device when the sewage discharge device discharges sewage, filtering the sewage by the crushing device, and grinding and crushing materials mixed in the sewage which cannot be regularly discharged;

s3, grinding and crushing the materials in a crushing device into small particles, and discharging the small particles along with water flow;

s4, when the crushing plate group deforms when the crushing knife bears crushing resistance, the free hinge point moves inwards, the mounting hinge point moves outwards, the mounting hinge point moves downwards along the grinding column, the effect of reducing the crushing resistance of the crushing knife and releasing the blockage is achieved, and the effect that the sewage discharge device is not blocked is achieved.

The invention has the beneficial effects that: according to the assembled type drainage system for the building, the inclined column in the crushing device can enable the free hinge point to move inwards, the mounting hinge point to move outwards and the mounting hinge point to move downwards along the grinding column when the crushing plate group deforms when the crushing knife is subjected to crushing resistance, and the effect of reducing the crushing resistance and releasing the blockage of the crushing knife is achieved. The arrangement of the buffering linkage mechanism enables the crushing plate group to be gradually dense from top to bottom when the crushing plate group is subjected to crushing resistance to move downwards, so that the crushing efficiency is increased, and the effect of dredging a drainage system is achieved.

Further, buffering link gear includes the spring, and the setting of two adjacent installation pin joints of spring fixed connection vertical direction to the windrow phenomenon of taking place a certain position at broken plate group, can make broken plate group concentrate earlier and handle the broken position that is located under the windrow position, handle the windrow position after the processing is accomplished, make holistic crushing efficiency higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art 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 view of an embodiment of a prefabricated building drainage system of the present invention;

FIG. 2 is an exploded view of a fragmenting device in an embodiment of a prefabricated building drainage system of the present invention;

FIG. 3 is a top view of a fragmenting device in an embodiment of a prefabricated building drainage system of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic diagram of the inner structure of FIG. 3 during unfreezing;

FIG. 6 is a top view of a set of breaker plates of a breaker device in an embodiment of a prefabricated building drainage system of the present invention;

FIG. 7 is a schematic view of the breaker plate configuration of the breaker device in an embodiment of the prefabricated building drainage system of the present invention;

FIG. 8 is a schematic view of the upper portion of the breaker assembly in an embodiment of the prefabricated building drainage system of the present invention;

FIG. 9 is a schematic view of a middle portion of a breaker device in an embodiment of a prefabricated building drainage system of the present invention;

FIG. 10 is a schematic view of the lower portion of the breaking device in an embodiment of the prefabricated building drainage system of the present invention;

FIG. 11 is a schematic view of the construction of the grinding bowl of the crushing device in an embodiment of the prefabricated building drainage system of the present invention;

in the figure: 1. a feed pipe; 2. a grinding device; 3. a discharge pipe; 111. a feed hopper; 112. a grinding barrel; 113. a connecting ring; 114. an inclined column; 12. grinding the column; 121. a rack; 13. a filter screen; 131. a rotating shaft; 132. a motor; 14. installing a barrel; 141. a fixing ring; 142. a power cavity; 143. a material guide plate; 20. a crushing plate group; 21. a first breaker plate; 211. a free hinge point; 212. feeding a crushing cutter; 213. installing a hinge point; 22. a second breaker plate; 222. a lower crushing knife; 30. a spherical hinge sleeve; 31. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of 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.

An embodiment of the assembled drainage system for buildings of the invention, as shown in fig. 1 to 11, comprises a building and a sewage draining device, and further comprises a crushing device; the sewage draining device is communicated with a drainage pipeline of a building; the crushing device is connected with the sewage discharge device and is used for grinding hard materials mixed in the sewage; the crushing device comprises a grinding barrel 112, a feed hopper 111 extends upwards from the opening of the grinding barrel 112, and the feed hopper 111 is of a flaring structure and is used for guiding materials to enter the grinding barrel 112. The grinding device also comprises a grinding column 12, a plurality of inclined columns 114 and a plurality of crushing plate groups 20, wherein the grinding column 12 is vertically arranged and can be rotatably arranged in the grinding barrel 112; the plurality of inclined columns 114 are distributed in a tapered shape with a large upper end and a small lower end around the grinding column 12; the plurality of crushing plate groups 20 are uniformly distributed at intervals in the vertical direction; each of the crusher plate groups 20 comprises a plurality of crusher plates, including a plurality of first crusher plates 21 and a plurality of second crusher plates 22; the first crushing plate 21 and the second crushing plate 22 are both horizontally arranged, and the first crushing plate 21 and the second crushing plate 22 are uniformly distributed along the circumferential direction of the grinding column 12 and are sequentially and alternately arranged, are positioned between the grinding barrel 112 and the grinding column 12, and are connected to form an annular structure; the hinge points of the plurality of crushing plates are divided into free hinge points 211 and mounting hinge points 213 which are alternately arranged, the plurality of inclined columns 114 are in universal hinge joint with the mounting hinge points 213, the mounting hinge points 213 can slide up and down on the inclined columns 114, the inclined columns 114 are provided with spherical hinge sleeves 30 in a sliding manner, and the mounting hinge points 213 are in universal hinge joint with the inclined columns 114 through the spherical hinge sleeves 30; as the crushing resistance increases, the free hinge point 211 moves radially outwards and the crushing plate pack 20 moves telescopically downwards guided by the tilting column 114; an elastic linkage mechanism is arranged between the upper and lower adjacent installation hinge points 213.

In this embodiment, as shown in fig. 7, the elastic linkage mechanism includes a spring 31 sleeved on the inclined column 114, the spring 31 is sleeved on the inclined column 114 in a vertically slidable manner, the spring 31 is located between two adjacent spherical hinge sleeves 30, upper and lower ends of the spring 31 are fixedly connected to the corresponding spherical hinge sleeve 30, and when the crushing plate slides downward, all the crushing plate groups 20 below are driven to slide downward by compression of the spring 31.

In this embodiment, as shown in fig. 7, each crushing plate group 20 is provided with a plurality of upper crushing blades 212 and a plurality of lower crushing blades 222; the upper crushing knives 212 and the lower crushing knives 222 are arranged in a staggered mode in the vertical direction and are arranged alternately in the circumferential direction, each upper crushing knife 212 is fixedly installed on the upper half portion of one crushing plate, and each lower crushing knife 222 is fixedly installed on the lower half portion of one crushing plate and used for preventing materials from being ejected out when the materials are crushed.

In this embodiment, as shown in fig. 4 to 5, the bottom of the grinding barrel 112 is provided with a filter screen 13, the grinding column 12 is rotatably mounted on the filter screen 13, and the filter screen 13 is used for screening materials.

In this embodiment, as shown in fig. 1 to 4, the grinding column 12 is a circular truncated cone structure with a small upper part and a large lower part, the upper end of the grinding column protrudes upwards to form a spherical structure, and the lower end of the grinding column is rotatably mounted on the filter screen 13; a plurality of grinding splines 121 are provided on the peripheral wall of the grinding cylinder 12, and each grinding spline 121 is helically disposed around the grinding wall.

In this embodiment, as shown in fig. 4 to 5, the installation barrel 14 is vertically disposed, the upper end of the installation barrel is fixedly connected to the connection ring 113 extending from the lower end of the grinding barrel 112, a fixing ring 141 is disposed at the connection position, and the fixing ring 141 is used for fixedly connecting the installation barrel 14 and the connection ring 113 and plays a role in sealing. The material guide plate 143 is horizontally arranged in the middle of the installation barrel 14, and a space formed by the upper surface of the material guide plate 143 and the filter screen 13 is a material collection cavity for collecting the ground materials; the space formed by the lower surface of the material guide plate 143 and the bottom of the installation barrel 14 is a power cavity 142, and the power cavity 142 drives the grinding column 12 to rotate through a transmission mechanism. The material guide plate 143 is a hemispherical structure protruding upwards, and a discharge port is arranged at the lowest position of the material collecting cavity, and a collecting device is arranged outside the discharge port and used for collecting materials discharged from the discharge port.

In this embodiment, as shown in fig. 2 to 5, a motor 132 is disposed in the power cavity 142, and the vertically disposed lower end of the motor 132 is fixedly mounted at the bottom of the mounting barrel 14; the transmission mechanism is a transmission shaft, the transmission shaft is sequentially and rotatably inserted in the axes of the material guide plate 143 and the filter screen 13 from bottom to top, the upper end of the transmission shaft is fixedly connected with the axis of the grinding column 12, and the lower end of the rotating shaft 131 is fixedly connected to the output shaft of the motor 132.

s1, communicating a sewer pipeline of a building with a sewage draining device, and communicating the sewage draining device with a feeding pipe 1 at the upper end of a crushing device;

s4, when the crushing plate group deforms when the crushing knife bears crushing resistance, the free hinge point moves inwards, the mounting hinge point 213 moves outwards, the mounting hinge point moves downwards along the grinding column 12, the effect of reducing the crushing resistance of the crushing knife and releasing the blockage is achieved, and the effect that the sewage discharge device is not blocked is achieved.

In operation, the motor 132 is turned on, and the motor 132 rotates to drive the grinding column 12 to rotate synchronously via the rotating shaft 131. Sewage in the building is discharged from a dish waste fitting discharging device, waste fitting discharging device passes through inlet pipe 1 and breaker intercommunication, be mingled with the stereoplasm material in the sewage, the material passes through inlet pipe 1 and gets into grinder 2, it drops into grinding barrel 112 in to need the ground large granule material in the sewage through feeder hopper 111, rotation through grinding post 12, the material produces relative motion between crushing board group 20 and grinding post 12, because crushing board group 20 is polygonized structure, grinding post 12 has radial direction's cutting crushing effect to the material when rotating, the cutting sword of crushing sword extrudees the cutting breakage to the material, the material is broken into the screening through the screening net behind the tiny particle, get into the material chamber and collect the material after the screening, and discharge from the discharge gate.

When broken sword met the material of difficult grinding, the broken resistance that broken sword received progressively grow, grinding efficiency step-down, and make the material pile up here, accumulational material has outside thrust to the crushing plate, because installation pin joint 213 has received the restriction of the displacement of the radial direction of batter post 114, make free pin joint 211 outwards remove, and then drive the inside motion of installation pin joint 213 on same crushing board group 20, force installation pin joint 213 along the downstream of batter post 114, crushing board group 20 follows the hexagon and approaches to twelve deformation structure. Installation pin joint 213 moves down to spring 31 decurrent pressure, drive adjacent crushing board group 20 and move down, simultaneously the crushing sword of below also receives broken resistance and moves down on the sloping pole, so be close to crushing board group 20 of downside and receive the decurrent power more, make the interval of piling up between the crushing board group 20 of material department below close more, it is more sparse to pile up the interval between the crushing board group 20 of material department top, and then it reduces to the crushing efficiency of material to pile up material department top, it increases to the crushing efficiency of material to pile up material department below, make the breakage of below more accelerate. The material at the position of reducing the crushing resistance and stacking is reached, the discharging speed at the lower side is increased, and more material enters the aggregate cavity to be collected.

After the material of below is ground the processing and is discharged, crushing resistance reduces, and crushing plate group 20 begins to rise and piles up the crushing efficiency increase of material to the top, and then piles up the material to the top and carry out crushing treatment. Thereby achieving the effect of self-adjusting crushing. The crushed and screened materials are discharged from the discharge pipe 3 along with sewage so as to realize the smoothness of a drainage system.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A drainage system for fabricated buildings comprises a building and a sewage discharge device, and is characterized in that: the device also comprises a crushing device;

the sewage draining device is communicated with a drainage pipeline of a building; the crushing device is connected with the sewage discharge device and is used for grinding hard materials mixed in the sewage; the crushing device comprises:

the grinding barrel is cylindrical, and an opening of the grinding barrel is arranged upwards;

the grinding column is vertically arranged and can be rotatably arranged in the grinding barrel;

the plurality of inclined columns are distributed around the grinding column in a conical manner, wherein the upper end of each inclined column is large, and the lower end of each inclined column is small;

the crushing plate groups are uniformly distributed at intervals in the vertical direction; each crushing plate group comprises a plurality of crushing plates which are hinged end to form an annular structure; hinge points among the crushing plates are divided into free hinge points and installation hinge points which are alternately arranged, the inclined columns are universally hinged with the installation hinge points, and the installation hinge points can slide up and down on the inclined columns; when the crushing resistance is increased, the free hinge point moves outwards in the radial direction, and the crushing plate group moves in a downward shrinkage mode under the guidance of the inclined column; an elastic linkage mechanism is arranged between the upper and lower adjacent installation hinge points.

2. The assembled construction drainage system of claim 1, wherein:

the inclined column is provided with a spherical hinge sleeve in a sliding mode, and the installation hinge point is in universal hinge connection with the inclined column through the spherical hinge sleeve.

3. A fabricated construction drainage system as set forth in claim 2, wherein:

the elastic linkage mechanism comprises a spring sleeved on the inclined column, the spring is positioned between two adjacent spherical hinge sleeves, and the upper end and the lower end of the spring are fixedly connected with the corresponding spherical hinge sleeves.

4. The assembled construction drainage system of claim 1, wherein:

each crushing plate group is provided with a plurality of upper crushing knives and a plurality of lower crushing knives; the upper crushing knife and the lower crushing knife are arranged in a staggered mode in the vertical direction and are arranged alternately in the circumferential direction.

5. The assembled construction drainage system of claim 4, wherein:

the bottom of the grinding barrel is provided with a filter screen, and the grinding column is rotatably arranged on the filter screen.

6. The assembled construction drainage system of claim 5, wherein:

the grinding column is in a round table structure with a small upper part and a big lower part, the upper end of the grinding column is upwards protruded with a spherical surface structure, and the lower end of the grinding column is rotatably arranged on the filter screen; a plurality of grinding racks are arranged on the peripheral wall of the grinding column, and each grinding rack is spirally arranged around the grinding wall.

7. The assembled construction drainage system of claim 1, wherein:

the grinding barrel opening part extends upwards to form a feed hopper which is of a flaring structure.

8. The assembled construction drainage system of claim 1, wherein:

the mounting barrel is vertically arranged, and the upper end of the mounting barrel is fixedly connected with the lower end of the grinding barrel; the material guide plate is horizontally arranged in the middle of the installation barrel, a space formed by the upper surface of the material guide plate and the filter screen is a material collection cavity, and the material collection cavity is used for collecting ground materials; the space formed by the lower surface of the material guide plate and the bottom of the installation barrel is a power cavity, and the power cavity drives the grinding column to rotate through a transmission mechanism.

9. The assembled building drainage system of claim 8, wherein:

the guide plate is of an upward convex hemispherical structure, and a discharge hole is formed in the lowest position of the material collecting cavity.

10. The assembled building drainage system of claim 8, wherein:

a motor is arranged in the power cavity, and the vertically arranged lower end of the motor is fixedly arranged at the bottom of the mounting barrel; the transmission mechanism is a transmission shaft, the transmission shaft is sequentially and rotatably inserted in the axes of the guide plate and the filter screen from bottom to top, the upper end of the transmission shaft is fixedly connected with the axes of the grinding columns, and the lower end of the rotating shaft is fixedly connected to the output shaft of the motor.