CN220247095U - Assembled shock-insulation type drainage pipe joint - Google Patents

Assembled shock-insulation type drainage pipe joint Download PDF

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Publication number
CN220247095U
CN220247095U CN202321792507.6U CN202321792507U CN220247095U CN 220247095 U CN220247095 U CN 220247095U CN 202321792507 U CN202321792507 U CN 202321792507U CN 220247095 U CN220247095 U CN 220247095U
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China
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plug
fluctuation
socket
drop
falling
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CN202321792507.6U
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Inventor
李振荣
宋高云
南长江
安卫俭
赵晓红
张宇
王俊伟
崔文波
李飞
李晗
杨子静
桑俊芳
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Shanxi Second Construction Group Co Ltd
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Shanxi Second Construction Group Co Ltd
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Abstract

An assembled shock-insulation type drainage pipe joint belongs to the field of shock insulation construction of concrete buildings, and comprises a base socket, a dustproof cover plate, an anti-falling fluctuation plug, an upper socket, a lower socket and a fluctuation plug; the base socket connector is formed by combining a cylindrical shell, an annular bottom plate, an annular top plate, a spherical table type shell and a drain pipe connector, and the dustproof cover plate is an annular thin plate. The anti-drop fluctuation plug is a horn-shaped hollow shell, and an anti-drop ring is arranged at the hollow position of the upper part of the shell. The upper and lower plug-in components are formed by cylindrical casing, annular bottom plate, annular roof, spherical table type casing, anticreep formula slip intubate combination. The utility model has simple operation and quick installation, reduces the probability of water burst pollution of the water discharge outlet of the low floor caused by the blockage of the water discharge pipeline, prolongs the service life of the water discharge pipeline joint, avoids the repeated maintenance phenomenon in the operation and maintenance process, avoids the problem of environment pollution caused by the cross flow of sewage, and reduces the operation and maintenance cost of the building.

Description

Assembled shock-insulation type drainage pipe joint
Technical Field
The utility model belongs to the field of concrete building vibration isolation construction, and is mainly used for connection construction of a cast-in-place concrete structure and a vibration isolation layer drainage riser of an assembled concrete structure, in particular to an assembled vibration isolation type drainage pipe joint.
Background
At present, when a drainage pipeline of a concrete building engineering is constructed on a shock insulation layer, the construction is generally carried out in a mode that a corrugated hose is connected with a drainage main pipe. The construction mode is extremely easy to cause the phenomena of drainage pipeline blockage and fatigue damage of the connecting part in the earthquake process, thereby causing the drainage pipeline water burst or flood irrigation of the low floor to pollute the indoor and shock insulation layer environment, forcing the connecting part of the corrugated hose of the shock insulation layer to be dredged and maintained newly, greatly affecting the normal life of people and restricting the healthy development of the building engineering.
Disclosure of Invention
In order to avoid pipeline blockage and fatigue damage phenomena of a drainage pipeline of a concrete building engineering at a vibration isolation layer, the problem of water gushing at a low floor drainage outlet and the problem of fatigue damage at a connecting part of a corrugated hose of the vibration isolation layer are caused.
An assembled shock-insulation type drainage pipe joint consists of a base socket connector, six dustproof cover plates, five anti-drop fluctuation plugs, one fluctuation plug and five upper socket connectors and lower socket connectors;
the base socket is arranged at the bottom, the lower end of the first anti-drop fluctuation plug is embedded into the inner cavity of the base socket, the first dust-proof cover plate is arranged on the base socket and sleeved on the periphery of the first anti-drop fluctuation plug, and the upper end of the first anti-drop fluctuation plug is hinged with the lower end of the anti-drop sliding insertion pipe of the first upper socket and lower plug;
the lower end of the second anti-drop fluctuation plug is embedded into the inner cavity of the first upper socket lower plug; the upper end of the second anti-drop fluctuation plug is hinged with the lower end of the anti-drop sliding insertion pipe of the second upper and lower plug, and the second dustproof cover plate is positioned above the first upper and lower plug and sleeved on the periphery of the second anti-drop fluctuation plug;
the lower end of the third anti-drop fluctuation plug is embedded into the inner cavity of the second upper socket lower plug; the upper end of the third anti-falling fluctuation plug is hinged with the lower end of the anti-falling sliding insertion pipe of the third upper socket lower plug, and the third dustproof cover plate is positioned above the second upper socket lower plug and sleeved on the periphery of the third anti-falling fluctuation plug;
the lower end of the fourth anti-drop fluctuation plug is embedded into the inner cavity of the third upper socket lower plug; the upper end of the fourth anti-falling fluctuation plug is hinged with the lower end of the anti-falling sliding insertion pipe of the fourth upper and lower plug, and the fourth dustproof cover plate is positioned on the third upper and lower plug and sleeved on the periphery of the fourth anti-falling fluctuation plug;
the lower end of the fifth anti-drop fluctuation plug is embedded into the inner cavity of the fourth upper socket lower plug; the upper end of the fifth anti-drop fluctuation plug is hinged with the lower end of the anti-drop sliding insertion pipe of the fifth upper and lower plug, and the fifth dustproof cover plate is positioned on the fourth upper and lower plug and sleeved on the periphery of the fifth anti-drop fluctuation plug;
the lower end of the fluctuation plug is embedded into the inner cavity of the fifth upper socket lower plug; the sixth dust-proof cover plate is positioned on the fifth upper socket lower plug and sleeved on the periphery of the fluctuation plug.
The base socket connector is formed by combining a cylindrical shell, an annular bottom plate, a slip-preventing ring, a spherical table type shell and a drain pipe interface, the spherical table type shell is arranged inside the cylindrical shell, the slip-preventing ring and the annular bottom plate are respectively arranged at the upper position and the lower position of the combined body of the cylindrical shell and the spherical table type shell, and the drain pipe interface is arranged at the lower part of the joint position of the annular bottom plate and the spherical table type shell.
The dustproof cover plate is a circular thin plate.
The anti-drop fluctuation plug is a horn-shaped hollow shell, and an anti-drop ring is arranged at the hollow position of the upper part of the shell.
The upper socket lower plug-in components are formed by cylindrical casing, annular bottom plate, anticreep ring, ball table type casing, anticreep formula slip intubate combination, and cylindrical casing inside sets up ball table type casing, and the upper and lower position of the assembly of cylindrical casing and ball table type casing sets up anticreep ring and annular bottom plate respectively, and annular bottom plate and ball table type casing handing-over position lower part sets up anticreep formula slip intubate.
The fluctuation plug is a horn-shaped hollow shell, and the upper part of the shell is a socket connected with a drain pipe.
The utility model has simple operation and quick installation, and provides corresponding displacement spaces in the vertical and horizontal directions for the drainage pipe joint of the shock insulation layer, thereby reducing the probability of sewage pollution to the shock insulation layer caused by fatigue damage of the drainage corrugated hose due to earthquake reciprocating motion, reducing the probability of water burst pollution to the floor of the low floor drainage outlet caused by blockage of the drainage pipeline, accelerating the construction progress, prolonging the service life of the drainage pipeline joint, avoiding the repeated maintenance phenomenon in the operation and maintenance process, avoiding the problem of environment pollution caused by sewage cross flow, and reducing the operation and maintenance cost of a building.
Drawings
Fig. 1 is a front view of an assembled shock-insulating drain pipe joint in the utility model.
Fig. 2 is a top view of fig. 1.
Fig. 3 is a left side view of fig. 1.
Fig. 4 is a cross-sectional view taken along A-A of fig. 2.
Fig. 5 is a cross-sectional view taken along the direction B-B of fig. 2.
In the figure, 1, a base socket connector, 2, a dustproof cover plate, 3, an anti-falling fluctuation plug, 4, a fluctuation plug, 5, an upper socket lower plug, 6, a cylindrical shell, 7, an annular bottom plate, 8, an anti-falling ring, 9, a spherical table type shell, 10, a drain pipe interface, 11 and an anti-falling sliding insertion pipe.
Description of the embodiments
The utility model is further described below with reference to the accompanying drawings.
The assembled shock-insulation type drain pipe joint is shown in fig. 1, 2, 3, 4 and 5, and consists of a base socket 1, six dustproof cover plates 2, five anti-falling fluctuation plugs 3, one fluctuation plug 4 and five upper and lower socket connectors 5;
the base socket connector 1 is positioned at the bottom from bottom to top, the lower end of the first anti-falling fluctuation plug 3 is embedded into the inner cavity of the base socket connector 1, the first dust-proof cover plate 2 is positioned above the base socket connector 1 and sleeved on the periphery of the first anti-falling fluctuation plug 3, and the upper end of the first anti-falling fluctuation plug 3 is hinged with the lower end of the anti-falling sliding insertion pipe 11 of the first upper socket connector 5;
the lower end of the second anti-drop fluctuation plug 3 is embedded into the inner cavity of the first upper socket lower plug 5; the upper end of the second anti-falling fluctuation plug 3 is hinged with the lower end of an anti-falling sliding insertion pipe 11 of the second upper and lower plug-in unit 5, and the second dustproof cover plate 2 is positioned above the first upper and lower plug-in unit 5 and sleeved on the periphery of the second anti-falling fluctuation plug 3;
the lower end of the third anti-drop fluctuation plug 3 is embedded into the inner cavity of the second upper socket lower plug 5; the upper end of the third anti-falling fluctuation plug 3 is hinged with the lower end of an anti-falling sliding insertion pipe 11 of the third upper and lower plug-in unit 5, and the third dust-proof cover plate 2 is positioned above the second upper and lower plug-in unit 5 and sleeved on the periphery of the third anti-falling fluctuation plug 3;
the lower end of the fourth anti-drop fluctuation plug 3 is embedded into the inner cavity of the third upper socket lower plug 5; the upper end of the fourth anti-falling fluctuation plug 3 is hinged with the lower end of an anti-falling sliding insertion pipe 11 of the fourth upper and lower plug-in unit 5, and a fourth dustproof cover plate 2 is positioned above the third upper and lower plug-in unit 5 and sleeved on the periphery of the fourth anti-falling fluctuation plug 3;
the lower end of the fifth anti-drop fluctuation plug 3 is embedded into the inner cavity of the fourth upper socket and lower plug-in unit 5; the upper end of the fifth anti-drop fluctuation plug 3 is hinged with the lower end of an anti-drop sliding insertion pipe 11 of the fifth upper and lower plug-in unit 5, and a fifth dustproof cover plate 2 is positioned on the fourth upper and lower plug-in unit 5 and sleeved on the periphery of the fifth anti-drop fluctuation plug 3;
the lower end of the fluctuation plug 4 is embedded into the inner cavity of a fifth upper socket and lower plug-in unit 5; the sixth dust cover plate 2 is positioned above the fifth upper and lower plug-in unit 5 and is sleeved on the periphery of the fluctuation plug 4.
When an earthquake comes, the horn mouth position of the anti-drop fluctuation plug (or the fluctuation plug) can rotate along the earthquake wave within 360 degrees at the sphere hollow part of the upper socket and lower plug (or the base socket), and the lower part of the upper socket and lower plug and the upper part of the anti-drop fluctuation plug can stretch and retract within a certain range in the earthquake process.
The base socket 1 is formed by combining a cylindrical shell 6, an annular bottom plate 7, a release-stopping ring 8, a spherical table type shell 9 and a drain pipe interface 10, the spherical table type shell 9 is arranged inside the cylindrical shell 6, the release-stopping ring 8 and the annular bottom plate 7 are respectively arranged at the upper and lower positions of the combined body of the cylindrical shell 6 and the spherical table type shell 9, and the drain pipe interface 10 is arranged at the lower part of the joint position of the annular bottom plate 7 and the spherical table type shell 9.
The dustproof cover plate 2 is a circular thin plate.
The anti-drop fluctuation plug 3 is a horn-shaped hollow shell, and an anti-drop ring is arranged at the hollow position of the upper part of the shell.
The upper socket lower plug-in unit 5 is formed by combining a cylindrical shell 6, an annular bottom plate 7, a slip-off prevention ring 8, a spherical table type shell 9 and a slip-off prevention type sliding insertion tube 11, the spherical table type shell 9 is arranged inside the cylindrical shell 6, the slip-off prevention ring 8 and the annular bottom plate 7 are respectively arranged at the upper and lower positions of the combined body of the cylindrical shell 6 and the spherical table type shell 9, and the slip-off prevention type sliding insertion tube 11 is arranged at the lower part of the joint position of the annular bottom plate 7 and the spherical table type shell 9.
The fluctuation plug 4 is a horn-shaped hollow shell, and the upper part of the shell is a socket for connecting a drain pipe.
The installation process flow of the assembled shock-insulation type drainage pipe joint comprises the following steps:
measuring and positioning, confirming the position of a drain pipe, forming holes in the position of the drain pipe, installing the drain pipe, and installing a shock-insulating type drain pipe joint
(1) Firstly, drawing control lines at the upper and lower positions of the floor slab according to the longitudinal and transverse axes of the shock insulation layer and the requirements of a drawing, and secondly, marking the bottom elevation and the top elevation of the upper and lower water drainage pipes on the nearby wall surfaces or cylindrical surfaces.
(2) And marking the upper and lower positions of the drain pipe according to the horizontal control line of the upper and lower positions of the floor slab of the tested vibration isolation layer.
(3) And opening the concrete of the upper floor slab and the lower floor slab of the shock insulation layer out of the mounting holes of the drainage pipeline by adopting a water drill according to the confirmed positions of the drainage pipes.
(4) Cutting the drain pipe with corresponding length according to the elevation measured and tested on the wall cylindrical surface, and installing the drain pipe in the opened cavity.
(5) The assembled assembly type drainage pipe joint is smeared with uniform drainage pipe adhesive glue at the upper and lower positions, the base socket connector of the assembled assembly type drainage pipe joint is connected with the lower drainage pipe, the other end of the assembled assembly type drainage pipe joint is connected with the upper drainage pipe, and the assembled vibration isolation type drainage pipe joint is installed.

Claims (1)

1. The assembled shock-insulating drain pipe joint is characterized by comprising a base socket connector, six dustproof cover plates, five anti-falling fluctuation plugs, one fluctuation plug and five upper socket connectors and lower socket connectors;
the base socket is arranged at the bottom, the lower end of the first anti-drop fluctuation plug is embedded into the inner cavity of the base socket, the first dust-proof cover plate is arranged on the base socket and sleeved on the periphery of the first anti-drop fluctuation plug, and the upper end of the first anti-drop fluctuation plug is hinged with the lower end of the anti-drop sliding insertion pipe of the first upper socket and lower plug; the lower end of the second anti-drop fluctuation plug is embedded into the inner cavity of the first upper socket lower plug; the upper end of the second anti-drop fluctuation plug is hinged with the lower end of the anti-drop sliding insertion pipe of the second upper and lower plug, and the second dustproof cover plate is positioned above the first upper and lower plug and sleeved on the periphery of the second anti-drop fluctuation plug; the lower end of the third anti-drop fluctuation plug is embedded into the inner cavity of the second upper socket lower plug; the upper end of the third anti-falling fluctuation plug is hinged with the lower end of the anti-falling sliding insertion pipe of the third upper socket lower plug, and the third dustproof cover plate is positioned above the second upper socket lower plug and sleeved on the periphery of the third anti-falling fluctuation plug; the lower end of the fourth anti-drop fluctuation plug is embedded into the inner cavity of the third upper socket lower plug; the upper end of the fourth anti-falling fluctuation plug is hinged with the lower end of the anti-falling sliding insertion pipe of the fourth upper and lower plug, and the fourth dustproof cover plate is positioned on the third upper and lower plug and sleeved on the periphery of the fourth anti-falling fluctuation plug; the lower end of the fifth anti-drop fluctuation plug is embedded into the inner cavity of the fourth upper socket lower plug; the upper end of the fifth anti-drop fluctuation plug is hinged with the lower end of the anti-drop sliding insertion pipe of the fifth upper and lower plug, and the fifth dustproof cover plate is positioned on the fourth upper and lower plug and sleeved on the periphery of the fifth anti-drop fluctuation plug; the lower end of the fluctuation plug is embedded into the inner cavity of the fifth upper socket lower plug; the sixth dust-proof cover plate is positioned on the fifth upper socket lower plug and sleeved on the periphery of the fluctuation plug.
CN202321792507.6U 2023-07-10 2023-07-10 Assembled shock-insulation type drainage pipe joint Active CN220247095U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321792507.6U CN220247095U (en) 2023-07-10 2023-07-10 Assembled shock-insulation type drainage pipe joint

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321792507.6U CN220247095U (en) 2023-07-10 2023-07-10 Assembled shock-insulation type drainage pipe joint

Publications (1)

Publication Number Publication Date
CN220247095U true CN220247095U (en) 2023-12-26

Family

ID=89230786

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321792507.6U Active CN220247095U (en) 2023-07-10 2023-07-10 Assembled shock-insulation type drainage pipe joint

Country Status (1)

Country Link
CN (1) CN220247095U (en)

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