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CN-224229534-U - Multi-pipe common-frame anti-seismic support and hanger structure

CN224229534UCN 224229534 UCN224229534 UCN 224229534UCN-224229534-U

Abstract

The application relates to the technical field of building construction, in particular to a multi-pipe common-frame anti-seismic support and hanger structure which is used for connecting a building and a support pipeline and comprises an anchor body, a bottom support, an inclined support, a first anti-seismic connecting member and a second anti-seismic connecting member, wherein the anchor body is fixedly connected with the building, one end of the first anti-seismic connecting member is in threaded connection with the anchor body, and the other end of the first anti-seismic connecting member is in threaded connection with the inclined support; one end of the second anti-seismic connecting component is in threaded connection with the diagonal bracing, the other end is hinged with the bottom support; the bottom support is provided with a reinforcing member, one end of the reinforcing member is connected with a building through an anchor body, and the other end of the reinforcing member is in threaded connection with the bottom support. By adopting the technical scheme, the problems of complex construction and great difficulty of the support and the hanger in the existing multi-pipe common-frame structure can be solved by arranging the first anti-seismic connecting member and the second anti-seismic connecting member.

Inventors

  • Min Xiaowen
  • SHAO PUFA
  • CHEN JINHUI
  • MAO ZHU
  • XU LISONG

Assignees

  • 中建海嘉建设工程有限公司

Dates

Publication Date
20260512
Application Date
20231201

Claims (7)

  1. 1. A multi-pipe common-frame anti-seismic support and hanger structure is used for connecting a building (1) and a supporting pipeline (2) and is characterized by comprising an anchor body (3), a bottom support (4), an inclined support (5), a first anti-seismic connecting member (6) and a second anti-seismic connecting member (7), wherein the anchor body (3) is fixedly connected with the building (1), one end of the first anti-seismic connecting member (6) is in threaded connection with the anchor body (3), the other end of the first anti-seismic connecting member is in threaded connection with the inclined support (5), one end of the second anti-seismic connecting member (7) is in threaded connection with the inclined support (5), the other end of the second anti-seismic connecting member is hinged with a bottom support (4), a reinforcing member (8) is arranged on the bottom support (4), one end of the reinforcing member (8) is connected with the building (1) through the anchor body (3), and the other end of the reinforcing member (8) is in threaded connection with the bottom support (4).
  2. 2. The multi-pipe co-pipe anti-seismic support and hanger structure according to claim 1, wherein the pipe (2) is connected with the bottom support (4) through a first pipe hoop (41) and a second pipe hoop (42), the first pipe hoop (41) wraps the pipe (2), two ends of the first pipe hoop (41) are respectively in threaded connection with the bottom support (4), a body of the second pipe hoop (42) is welded on the bottom support (4), the second pipe hoop (42) wraps the pipe (2), and two ends of the second pipe hoop (42) are in threaded connection.
  3. 3. The multi-pipe co-pipe seismic support hanger construction according to claim 1, wherein said first seismic connection member (6) comprises a base plate (61) and a first movable plate (62), said base plate (61) being hinged at one end to the first movable plate (62) and at the other end to said anchor body (3) being screwed, and said first movable plate (62) being screwed at one end to said diagonal brace (5).
  4. 4. The multi-pipe joint-frame anti-seismic support and hanger construction according to claim 1, characterized in that said second anti-seismic connection member (7) comprises a hinged plate (71) and a second movable plate (72), said hinged plate (71) being welded to said bottom bracket (4), said second movable plate (72) being hinged at one end to said hinged plate (71) and at the other end to said diagonal bracket (5).
  5. 5. The multi-tube co-tube seismic hanger construction of claim 4 wherein said reinforcement member (8) comprises a reinforcement boom (81), said reinforcement boom (81) having one end threadably connected to said anchor (3) and the other end sequentially threaded through said hinge plate (71) and said base support (4) and threadably connected to said hinge plate (71) and base support (4), respectively.
  6. 6. The multi-pipe joint vibration-resistant hanger construction according to claim 5, wherein an angle between said diagonal braces (5) and a horizontal plane of said building (1) is set at forty-five degrees.
  7. 7. The multi-pipe joint-frame earthquake-resistant support and hanger structure according to claim 6, wherein the reinforcing hanger rods (81) are perpendicular to the bottom support (4) and the building (1), and the inclined support (5) and the reinforcing hanger rods (81) are arranged at forty-five degrees.

Description

Multi-pipe common-frame anti-seismic support and hanger structure Technical Field The application relates to the technical field of building construction, in particular to a multi-pipe co-frame anti-seismic support and hanger structure. Background In the building construction link, not only building construction is needed, but also pipelines used for setting electromechanical engineering such as fire fighting, drainage, heating, ventilation and the like in the building are needed to be lifted and supported, so that a special multi-pipe common-frame lateral anti-seismic support and hanger structure can be used, the pipelines can be kept stable and have a certain anti-seismic performance after being lifted and supported, and the safety of pipeline laying is improved. The support and hanger in the multi-pipe common-pipe structure for hoisting the pipe in the prior art needs to carry out complex construction and installation operation, for example, the base of the anti-seismic support and hanger is fixed by welding, so that the support and hanger cannot be disassembled in the future, the construction difficulty is high, and quality problems and potential safety hazards are easily caused. Disclosure of utility model In order to solve the problems of complex construction and great difficulty of support and hanger in the existing multi-pipe co-frame structure, the application provides a multi-pipe co-frame anti-seismic support and hanger structure. The application provides a multi-pipe common-frame anti-seismic support and hanger structure, which adopts the following technical scheme: A multi-pipe common-frame anti-seismic support and hanger structure is used for connecting a building and a supporting pipeline and comprises an anchor body, a bottom support, inclined supports, a first anti-seismic connecting member and a second anti-seismic connecting member, wherein the anchor body is fixedly connected with the building, one end of the first anti-seismic connecting member is in threaded connection with the anchor body, the other end of the first anti-seismic connecting member is in threaded connection with the inclined supports, one end of the second anti-seismic connecting member is in threaded connection with the inclined supports, the other end of the second anti-seismic connecting member is hinged with the bottom support, a reinforcing member is arranged on the bottom support, one end of the reinforcing member is connected with the building through the anchor body, and the other end of the reinforcing member is in threaded connection with the bottom support. According to the technical scheme, when the multi-pipe common-frame anti-seismic support and hanger are installed, one end of an anchor body is inserted into a building to enable the anchor body to be fully fixed with the building, then a second anti-seismic connecting member is connected with a bottom support in advance, one end of a reinforcing member is connected with the anchor body, the other end of the reinforcing member is connected with the bottom support, then a first anti-seismic connecting member is connected with an inclined support in advance, then the first anti-seismic connecting member is connected with the anchor body, the second anti-seismic connecting member and the inclined support in sequence, the problems that construction of the support and hanger in an existing multi-pipe common-frame structure is complex and difficult are solved by arranging the first anti-seismic connecting member and the second anti-seismic connecting member, in addition, the first anti-seismic connecting member is connected with the anchor body and the inclined support in a threaded mode, the reinforcing member is connected with the bottom support and the anchor body in a threaded mode respectively, subsequent maintenance of the bottom support and the inclined support are facilitated, and the pipeline lifting support can be kept stable and has a certain anti-seismic performance, and accordingly the safety of a pipeline is improved. Optionally, the pipeline with connect through first ferrule and second ferrule between the bottom support, first ferrule parcel live the pipeline, first ferrule both ends respectively with bottom support threaded connection, the body welding of second ferrule is on the bottom support, second ferrule parcel pipeline, the both ends threaded connection of second ferrule. By adopting the technical scheme, the first pipe hoop and the second pipe hoop are respectively connected with the bottom support in different modes, so that the fixing of pipelines with different specifications or under different scenes can be adapted, and the adaptability is improved; when the space is narrower, the second pipe hoop is adopted to fix the pipeline, the pipe hoops can be fixed only by connecting the two ends of the second pipe hoop, the operation is convenient, when the pipeline is longer, the second pipe hoop is difficult to penetrate, the first pipe ho