CN213297096U - Embedded component for installing attached lifting scaffold and installation structure - Google Patents

Abstract

The utility model discloses a pre-buried subassembly and mounting structure for the installation of an attached lifting scaffold, wherein the pre-buried subassembly for the installation of the attached lifting scaffold comprises a first pre-buried part connected to the upper end of the attached lifting scaffold and a second pre-buried part positioned at the lower end of the attached lifting scaffold; the first embedded part comprises a first base plate and a first positioning rib which is arranged on the first base plate and can be used for placing the integrated heat-insulation plate, and a first mounting hole for connecting a fastening piece is formed in the first base plate; the second embedded part comprises a second base plate and a second positioning rib arranged on the second base plate and capable of being placed into the integrated heat-insulation plate, and a second mounting hole used for connecting a fastening piece is formed in the second base plate. The utility model discloses a pre-buried subassembly installation demolishs integration heated board when having avoided the installation of inserted lift scaffold support, has eliminated the quality hidden danger such as outer wall fracture, seepage that demolishs the integration heated board and bring, has also effectively avoided potential safety hazards such as the heated board drops.

Description

Embedded component for installing attached lifting scaffold and installation structure

The technical field is as follows:

the utility model belongs to the technical field of compound incubation exterior sheathing high-rise building and inserted scaffold frame attach the technical field of the piece device that buries that the support can have enough to meet the need.

Background art:

the energy-saving design in the design of high-rise buildings and super high-rise buildings adopts a composite heat-insulating outer template cast-in-place concrete heat-insulating system (hereinafter referred to as a heat-insulating integrated plate), the outer wall cast-in-place reinforced concrete and the outer wall heat-insulating system are constructed together by the technology, a steel wire frame is used for rechecking the outer template cast-in-place concrete heat-insulating system heat-insulating plate manufacturer for integrated production and processing, the steel wire frame is transported to the site and constructed according to the typesetting drawing of the related outer wall heat-insulating plate.

The high-rise building generally adopts the whole lift scaffold technique of inserted type, and the heat preservation intergral template that adheres to the support position can't satisfy support position atress safety and safe handling, need to adhere to the heat preservation excision of support position, guarantees to adhere to support position and cast-in-place concrete outer wall lug connection, otherwise can't satisfy the safe handling of whole lift scaffold of inserted type, treats that whole lift scaffold of inserted type promotes to carry out the secondary after finishing.

The method has the disadvantages of serious resource waste and cost increase; the safety risk of the later secondary plugging operation is high, and the repair is inconvenient; the construction method is unscientific, irregular and not advanced, and can easily cause the quality hidden troubles of the falling of the insulation board, the cracking of the outer wall surface, the leakage and the like.

Disclosure of Invention

The utility model aims to solve the technical problem that to the not enough of above-mentioned prior art existence, and provide an eliminate because integration heated board intensity is not enough and need install the embedded component and the mounting structure that are used for the installation of inserted lift scaffold frame disadvantage after deducting again.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a pre-buried subassembly for inserted lift scaffold installation, its characterized in that: the embedded part is connected with the upper end of the attached lifting scaffold; the first embedded part comprises a first base plate and a first positioning rib which is arranged on the first base plate and can be used for placing an integrated heat-insulation plate, a first mounting hole for connecting a fastener is formed in the first base plate, and the first positioning rib is perpendicular to the first base plate and arranged around the first mounting hole; the second embedded part comprises a second base plate and a second positioning rib which is arranged on the second base plate and can be placed into the integrated heat-insulation plate, a second mounting hole for connecting a fastener is formed in the second base plate, and the second positioning rib is perpendicular to the second base plate and surrounds the second mounting hole.

The number of the first positioning ribs is four, the four first positioning ribs are arranged in a rectangular mode, and the first mounting holes are located in the centers of diagonal lines of the rectangular.

The first substrate is a steel plate.

The first positioning rib is a steel bar.

The number of the second positioning ribs is eight, and the eight second positioning ribs are divided into 4 rows, and each row is 2; 2 of each row are positioned at two sides of the second mounting hole; the first row is positioned at the upper end of the second mounting hole, and the third row and the fourth row are positioned at the lower end of the second mounting hole; the second row is located within a height range of the second mounting hole.

The second substrate is a steel plate.

The second positioning rib is a steel bar.

The utility model provides an attached lifting scaffold's mounting structure, includes reinforced concrete shear force wall and attached lifting scaffold support the surface of reinforced concrete shear force wall is provided with-body heated board, its characterized in that: the embedded assembly of any scheme is arranged at the joint of the integrated heat-insulation board and the attached lifting scaffold support, a first fastener penetrating through a first embedded part in the embedded assembly is arranged on the attached lifting scaffold support, one end of the first fastener is fixed with the attached lifting scaffold support, and the other end of the first fastener is fixed with the reinforced concrete shear wall; and a second fastener penetrating through a second embedded part in the embedded assembly is arranged on the attached lifting scaffold support, one end of the second fastener is fixed with the attached lifting scaffold support, and the other end of the second fastener is fixed with the reinforced concrete shear wall.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through pre-buried subassembly installation, demolish integration heated board when having avoided the installation of inserted lift scaffold support, effectually eliminated demolish quality hidden danger such as outer wall fracture, seepage that integration heated board brought, also effectively avoided the potential safety hazard such as heated board drops.

2. The raw material processing and finished product installation operations are advanced, scientific, simple and practical, the materials are all field short materials and waste materials, the field manufacturing and installation are convenient, the use and control of the materials are convenient, and the purpose of saving the cost is achieved.

3. All materials can be processed in a centralized manner in floors, so that the requirement on the site of a construction site is low, and the construction site management is facilitated.

4. The embedded component can be repeatedly used for many times, so that the material loss is reduced, the installation efficiency is improved, and the cost and the resource loss are effectively controlled.

5. The construction organization and the procedure handover are facilitated, and the field management coordination is achieved.

Description of the drawings:

fig. 1 is a schematic view of an installation structure of an attached lifting scaffold;

FIG. 2 is a schematic structural diagram of a first embedded part;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a schematic structural diagram of a first embedment;

fig. 5 is a side view of fig. 4.

Description of the illustrated Components:

1. a reinforced concrete shear wall; 2. -integrating the insulation board; 3. a first embedded part; 31. a first substrate; 32. a first positioning rib; 33. a first mounting hole; 4-a second embedded part; 41. a second substrate; 32. a second positioning rib; 43. a second mounting hole; 5, an attached lifting scaffold support; 6-a first fastener; 7-second fastener.

Detailed Description

The utility model discloses a buried subassembly's structure is as shown in figure 2 and figure 4 for the installation of inserted lift scaffold, including even first built-in fitting and second built-in fitting.

The first embedded part 3 comprises a first base plate 31 and a first positioning rib 32 arranged on the first base plate and capable of being embedded into an integrated heat insulation plate, a first mounting hole 33 used for connecting a fastener is formed in the first base plate 31, and the first positioning rib 32 is perpendicular to the first base plate 31 and arranged around the first mounting hole 33.

In this embodiment, the number of the first positioning ribs 32 is four, the four first positioning ribs 32 are arranged in a rectangular shape, and the first mounting hole 33 is located at the center of a diagonal line of the rectangular shape. The first substrate 31 is a steel plate, and the steel plate is a steel plate with a thickness of 10mmQ235 grade. The first positioning rib 32 is a steel bar, the steel bar is HRB400E grade phi 25mm steel bar, and the steel bar and the steel plate are welded into a whole.

The second embedded part 4 comprises a second substrate 41 and a second positioning rib 42 which is arranged on the second substrate 41 and can be embedded into the integrated heat-insulation board, a second mounting hole 43 for connecting a fastener is arranged on the second substrate 41, and the second positioning rib 42 is perpendicular to the second substrate 41 and is arranged around the second mounting hole 43.

In this embodiment, the number of the second positioning ribs 42 is eight, and the eight second positioning ribs are divided into 4 rows, each row includes 2 second positioning ribs; 2 of each row are located on both sides of the second mounting hole 43; the first row is positioned at the upper end of the second mounting hole, and the third row and the fourth row are positioned at the lower end of the second mounting hole; the second row is located within the height of the second mounting hole. The second substrate 41 is a steel plate, and the steel plate is a steel plate with a thickness of 10mmQ235 grade. The second positioning rib 42 is a steel bar, the steel bar is HRB400E grade phi 25mm steel bar, and the steel bar and the steel plate are welded into a whole.

The utility model relates to an attached lifting scaffold's mounting structure, as shown in figure 1, including reinforced concrete shear force wall 1, -the body keeps warm 2, pre-buried subassembly, attached lifting scaffold support 5 and high-strength bolt 6, pre-buried subassembly includes first built-in fitting 3 and second built-in fitting 4, and first built-in fitting 3 is located attached lifting scaffold support 5 and the upper end of-body 2 junctions that keep warm, and second built-in fitting 4 is located attached lifting scaffold support 5 and the lower extreme of-body 2 junctions that keep warm.

The utility model discloses attached lift scaffold's mounting structure's construction steps does:

the method comprises the following steps: and determining the respective quantity of the first embedded parts and the second embedded parts according to the deepened design condition (mainly in a support form) of the attached lifting scaffold.

Step two: and blanking the steel plate 3 and the steel bar 4 according to the determined quantity of the first embedded parts and the second embedded parts, welding the steel plate 3 and the steel bar 4 (full root welding), and processing the embedded parts for later use.

Step three: and (5) paying off and positioning the support position of the attached lifting integral scaffold, and checking the accuracy of paying off.

Step four: and carrying out embedded part positioning according to the paying-off positioning condition of the attached lifting scaffold, and checking the positioning accuracy.

Step five: and the embedded part is arranged into the integrated heat insulation board 2 according to a predetermined position, so that the verticality is ensured, and the end socket of the steel bar 4 is abutted against the reinforced concrete shear wall 1.

Step six: and (3) passing the high-strength bolt 6 through the mounting hole 7 and a reserved hole on the reinforced concrete shear wall 1, and firmly connecting the attached lifting scaffold support 5 with the reinforced concrete shear wall 1 to avoid dismantling the integrated heat insulation board 2.

Claims (8)

1. A pre-buried subassembly for inserted lift scaffold installation, its characterized in that: the embedded part is connected with the upper end of the attached lifting scaffold; the first embedded part comprises a first base plate and a first positioning rib which is arranged on the first base plate and can be used for placing an integrated heat-insulation plate, a first mounting hole for connecting a fastener is formed in the first base plate, and the first positioning rib is perpendicular to the first base plate and arranged around the first mounting hole; the second embedded part comprises a second base plate and a second positioning rib which is arranged on the second base plate and can be placed into the integrated heat-insulation plate, a second mounting hole for connecting a fastener is formed in the second base plate, and the second positioning rib is perpendicular to the second base plate and surrounds the second mounting hole.

2. The embedded assembly of claim 1, wherein: the number of the first positioning ribs is four, the four first positioning ribs are arranged in a rectangular mode, and the first mounting holes are located in the centers of diagonal lines of the rectangular.

3. The embedded assembly of claim 2, wherein: the first substrate is a steel plate.

4. The embedded assembly of claim 2, wherein: the first positioning rib is a steel bar.

5. The embedded assembly of claim 1, wherein: the number of the second positioning ribs is eight, and the eight second positioning ribs are divided into 4 rows, and each row is 2; 2 of each row are positioned at two sides of the second mounting hole; the first row is positioned at the upper end of the second mounting hole, and the third row and the fourth row are positioned at the lower end of the second mounting hole; the second row is located within a height range of the second mounting hole.

6. The embedded assembly of claim 5, wherein: the second substrate is a steel plate.

7. The embedded assembly of claim 5, wherein: the second positioning rib is a steel bar.

8. The utility model provides an attached lifting scaffold's mounting structure, includes reinforced concrete shear force wall and attached lifting scaffold support the surface of reinforced concrete shear force wall is provided with-body heated board, its characterized in that: a pre-embedded assembly according to any one of claims 1 to 7 is arranged at the joint of the integrated heat-insulation plate and the attached lifting scaffold support, a first fastener penetrating through a first pre-embedded part in the pre-embedded assembly is arranged on the attached lifting scaffold support, one end of the first fastener is fixed with the attached lifting scaffold support, and the other end of the first fastener is fixed with the reinforced concrete shear wall; and a second fastener penetrating through a second embedded part in the embedded assembly is arranged on the attached lifting scaffold support, one end of the second fastener is fixed with the attached lifting scaffold support, and the other end of the second fastener is fixed with the reinforced concrete shear wall.

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