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CN-224227985-U - Prefabricated wall beam slab module assembly system

CN224227985UCN 224227985 UCN224227985 UCN 224227985UCN-224227985-U

Abstract

The application provides a prefabricated wall beam slab module assembly system which comprises a first module, a third module and a fourth template, wherein the first module is of a hollow square structure and comprises a first top plate and four first walls which are arranged around the first top plate in a surrounding mode, the four first walls are divided into a pair of first connecting walls which are oppositely arranged along a first direction and a pair of second connecting walls which are oppositely arranged along a second direction, the second module is of a hollow square structure and comprises a second top plate and a pair of second walls which are oppositely arranged on the second top plate, the third module comprises a third top plate and a pair of beam structures which are oppositely arranged on the third top plate, and the fourth template, one side of the second module adjacent to the second walls is used for being in butt joint with the first connecting walls, the beam structures are used for being connected with the second connecting walls, and the first top plate, the second top plate, the third top plate and the fourth template can be mutually overlapped, so that the first module, the second module and the fourth template can be spliced into a target form.

Inventors

  • ZHOU JIAN
  • CHU MINGJIN
  • XU YIMING
  • LI YONGXING
  • WANG ZHENXING
  • LIU QINGJIAN
  • CHU QIANJIN
  • SHI ZHANQI

Assignees

  • 中建研科技股份有限公司
  • 中国建筑科学研究院有限公司
  • 山东艾科福建筑科技有限公司

Dates

Publication Date
20260512
Application Date
20250509

Claims (10)

  1. 1. A prefabricated wall panel module assembly system, comprising: The first module is of a hollow square structure and comprises a first top plate and four first walls which are arranged around the first top plate in a surrounding mode, wherein the four first walls are divided into a pair of first connecting walls which are oppositely arranged along a first direction and a pair of second connecting walls which are oppositely arranged along a second direction; The second module is of a hollow square structure and comprises a second top plate and a pair of second walls arranged opposite to the second top plate; a third module including a third top plate and a pair of beam structures disposed opposite the third top plate, and A fourth template; One side of the second module, which is adjacent to the second wall, is used for being in butt joint with the first connecting wall, the beam structure is used for being connected with the second connecting wall, and the first top plate, the second top plate, the third top plate and the fourth template can be mutually overlapped, so that the first module, the second module and the fourth template can be spliced into a target form.
  2. 2. The prefabricated wall panel module assembly system according to claim 1, wherein, The first module can be used to form a building structure; The first connecting wall body can be used as a wall body of the second module to form a house structure with the second wall body; the third module can form a corridor space with a pair of the second connecting walls; the fourth formwork can form a corridor space with a pair of the second walls.
  3. 3. The prefabricated wall panel module assembly system according to claim 2, wherein, The first top plate is rectangular, first lap joint grooves are formed in four side edges of the first top plate, ribs extend out of the first top plate to the periphery of the first top plate along the horizontal direction, ribs extend out of the first lap joint grooves along the vertical direction, and the first lap joint grooves can be in butt joint with the second top plate and/or the third top plate; The second top plate is rectangular, two side edges of the second top plate, which are connected with the second wall body, are provided with second lap joint grooves, ribs extend from the second top plate to the peripheral side of the second top plate along the horizontal direction, ribs extend from the second wall body along the vertical direction in the second lap joint grooves, and the second lap joint grooves can be in butt joint with the fourth template; The third top plate is rectangular, third lap joint grooves are formed in two side edges, connected with the beam structure, of the third top plate, ribs extend out of the third top plate to the peripheral side of the third top plate along the horizontal direction, and the third lap joint grooves can be in butt joint with the fourth template.
  4. 4. A prefabricated wall panel module assembly system according to claim 3, wherein, The fourth template is of a rectangular plate-shaped structure, a pair of opposite side edges of the fourth template are provided with fourth lap joint grooves, and ribs extend out of the fourth template along the horizontal direction towards the periphery of the fourth template; The fourth overlapping groove is used for being in butt joint with the third overlapping groove, and the other two side edges in the fourth template are used for being in butt joint with the second overlapping groove.
  5. 5. A prefabricated wall panel module assembly system according to claim 3, wherein, The outer surface of the first connecting wall body is uniformly provided with a plurality of transverse connecting ribs along the height direction of the first connecting wall body, the transverse connecting ribs are arranged along the horizontal direction and are annular, and the positions of the transverse connecting ribs corresponding to a pair of second wall bodies are arranged in two rows; The second wall body is provided with connecting grooves along two sides of the length direction, a plurality of annular lap joint ribs and longitudinal control ribs are arranged in the connecting grooves, the longitudinal control ribs are connected with the annular lap joint ribs, and the longitudinal control ribs are used for controlling the annular lap joint ribs to switch between a horizontal state and an inclined state; and the transverse connecting ribs can extend into the connecting grooves to be overlapped with the annular overlap joint ribs in the state that the first connecting wall body is in butt joint with the second module.
  6. 6. The prefabricated wall panel module assembly system according to claim 5, wherein, The outer surface of the second connecting wall body is provided with first section steel at a position close to the first top plate; The beam structure is arranged along the side edge of the third top plate, the beam structure is arranged on the surface of one side of the third top plate, which faces away from the third lap joint groove, second section steel is respectively arranged at two ends of the beam structure along the length direction, and the second section steel is fixedly connected with the first section steel.
  7. 7. The prefabricated wall panel module assembly system according to claim 6, wherein, A pair of first longitudinal connecting ribs are arranged on the second connecting wall body and positioned on two sides of the first section steel; The beam structure is also provided with a pair of second longitudinal connecting ribs on two sides of the second section steel, the length of the second longitudinal connecting ribs is greater than that of the second section steel, and the sum of the lengths of the pair of second longitudinal connecting ribs and the second section steel is smaller than that of the side edge of the third top plate; The first longitudinal tie may be cinched with the second longitudinal tie.
  8. 8. The prefabricated wall panel module assembly system according to claim 4, wherein, The range enclosed by the four first walls is larger than the size of the first top plate, the first top plate is covered on the top surfaces of the four first walls, the first overlapping grooves are in a step shape, and the first overlapping grooves on the four sides of the first top plate are communicated; The set range of the pair of second walls is larger than the size of the second roof board, the second overlapping groove is in a ladder shape, and the fourth template can be overlapped on the second walls; At least part of the beam structure exceeds the range of the third top plate, the third lap joint groove is in a ladder shape, and the fourth template can be lapped on the beam structure.
  9. 9. The prefabricated wall panel module assembly system according to claim 4, wherein, And concrete materials are filled between the first lap joint groove and the second top plate, between the first lap joint groove and the third top plate, between the second lap joint groove and the fourth template and between the third lap joint groove and the fourth lap joint groove.
  10. 10. The prefabricated wall panel module assembly system according to claim 4, wherein, The first module further comprises a plurality of first oblique reinforcing ribs extending from the first top plate into the first wall body; The second module further comprises a plurality of second diagonal stiffeners extending from the second top plate into the second wall where the second top plate has the second overlap groove; The third module further includes a plurality of third diagonal stiffeners extending from the third top plate into the beam structure.

Description

Prefabricated wall beam slab module assembly system Technical Field The application relates to the technical field of building assembly, in particular to a prefabricated wall beam slab module assembly system. Background The modular building has high prefabrication degree and few connecting nodes, and can improve the field assembly efficiency. The method is suitable for building types with simple structure and high standardization degree, such as apartments, hotels, schools, dormitories, office buildings and the like. However, the existing concrete module system is imperfect in technology, the traditional concrete module box is complex in connection form, and adjacent modules need to be supported by templates, so that the construction efficiency is low, and the cost is high. Disclosure of utility model The embodiment of the application aims to provide a prefabricated wall beam slab module assembly system, which aims to solve the problems of low construction efficiency and high cost caused by complex connection of the existing concrete module system and the need of formwork support of adjacent modules. In order to solve the technical problems, the embodiment of the application provides the following technical scheme: The application provides a prefabricated wall beam slab module assembly system which comprises a first module, a second module, a third module and a fourth template, wherein the first module is of a hollow square structure and comprises a first top plate and four first walls surrounding the first top plate, the four first walls are divided into a pair of first connecting walls oppositely arranged along a first direction and a pair of second connecting walls oppositely arranged along a second direction, the second module is of a hollow square structure and comprises a second top plate and a pair of second walls oppositely arranged on the second top plate, the third module comprises a third top plate and a pair of beam structures oppositely arranged on the third top plate, and the fourth template is used for being in butt joint with the first connecting walls, the beam structures are used for being connected with the second connecting walls, and the first top plate, the second top plate, the third top plate and the fourth template can be mutually overlapped, so that the first module, the second module and the fourth template can be spliced. In some embodiments of the application, the first module can be used to form a building structure, the first connection wall can form a building structure with the second wall as the wall of the second module, the third module can form a hallway space with a pair of the second connection walls, and the fourth module can form a hallway space with a pair of the second walls. In some embodiments of the present application, the first top plate is rectangular, four sides of the first top plate are respectively provided with a first lap joint groove, ribs extend from the first top plate to the peripheral side of the first top plate along the horizontal direction, ribs extend from the second wall body in the first lap joint grooves along the vertical direction, the first lap joint grooves can be in butt joint with the second top plate and/or the third top plate, two sides of the second top plate connected with the second wall body are provided with second lap joint grooves, ribs extend from the second top plate to the peripheral side of the second top plate along the horizontal direction, ribs extend from the second wall body in the second lap joint grooves along the vertical direction, the second lap joint grooves can be in butt joint with the fourth template, two sides of the third top plate connected with the beam structure are provided with third lap joint grooves, the third top plate extends from the horizontal direction to the peripheral side of the ribs, and the third lap joint grooves can be in butt joint with the fourth template. In some embodiments of the present application, the fourth template has a rectangular plate structure, a pair of opposite sides of the fourth template are provided with fourth overlapping grooves, ribs extend from the fourth template to the periphery of the fourth template along the horizontal direction, the fourth overlapping grooves are used for abutting with the third overlapping grooves, and the other two sides of the fourth template are used for abutting with the second overlapping grooves. In some embodiments of the present application, a plurality of transverse connection ribs are uniformly distributed on the outer surface of the first connection wall along the height direction of the first connection wall, the transverse connection ribs are arranged along the horizontal direction and are annular, the positions of the plurality of transverse connection ribs corresponding to a pair of second walls are arranged in two rows, connection grooves are formed in two sides of the second wall along the length direction, a plurality of an