CN220414819U - Auxiliary wall-attached support is installed in linking bridge on built on stilts layer - Google Patents

Abstract

The utility model relates to the technical field of building construction, and provides a connecting bracket for assisting in installing a wall-attached support on an overhead layer, which is arranged at the overhead layer and used for installing the wall-attached support. The utility model provides a can effectively solve the built on stilts layer and can't install and attach the wall support, lead to scaffold frame installation and the stability of installation to receive the influence, cause the technical problem who threatens to workman's personal safety.

Description

Auxiliary wall-attached support is installed in linking bridge on built on stilts layer

Technical Field

The utility model relates to the technical field of building construction, in particular to a connecting bracket for assisting in installing a wall-attached support on an overhead layer.

Background

The lifting scaffold for building construction is also called as an attached lifting scaffold, a lifting climbing frame and the like, is an outer scaffold which is attached to the outside of a building structure at a certain height during building construction, can climb or descend layer by layer along with the building structure, and has the anti-overturning and anti-falling functions. The lifting scaffold for building construction uses the electric hoist as a lifting mechanism, so that the whole scaffold can climb upwards along the whole outer wall of a building. The lifting scaffold for building construction in the prior art mainly comprises a frame body structure, a wall-attached support, a falling prevention device, a lifting mechanism, a control device and the like. The existing climbing frame has the advantages that in the installation and use process, as the acting points of the climbing frame body are on the building structure and can be lifted up and down along the building or the building elevation, the frame body does not need to be erected from bottom to top, and the climbing frame is more suitable for being used in high-rise building construction. It is the point of application on the building structure that its ascending, descending and stationary stability are closely related to the wall-attached support attached to the outer wall.

For the current wall-attached support, the wall-attached support is directly connected to the structural beam of each layer when the wall-attached support is installed on a standard layer, namely, a building with the layer height of 3 meters to 4.2 meters. However, when the building structure is provided with an overhead layer, the layer height is far higher than that of a standard layer, so that the wall-attached support can only be installed on a structural beam of the next layer, the wall-attached support cannot be installed at the overhead position, and the installation of one layer of wall-attached support is less than that of the middle of the layer, so that the scaffold, namely the installation and the stability of the climbing frame, can be influenced, and the personal safety of workers is threatened.

Disclosure of Invention

The utility model aims to provide a connecting bracket for assisting in installing a wall-attached support on an overhead layer, which is used for solving the technical problems that the installation and the stability of the installation of a scaffold are affected and the personal safety of workers is threatened because the wall-attached support cannot be installed on the overhead layer.

The aim of the utility model is achieved by the following technical scheme:

the utility model provides an auxiliary wall support that attaches installs in overhead layer's linking bridge, locates overhead layer department for the installation attaches the wall support, linking bridge includes first coupling assembling, second coupling assembling and attaches wall support installation component, it is used for the installation to attach the wall support to attach wall support installation component, first coupling assembling's one end with overhead layer's superstructure roof beam is connected, and the other end passes through attach wall support installation component with second coupling assembling's one end is connected, the second coupling assembling deviates from attach wall support installation component's one end with overhead layer's lower floor structure roof beam is connected, attach wall support installation component's both ends to be fixed in on two support columns in the overhead layer.

In some possible embodiments, the wall-attached support mounting assembly is disposed in the middle of the overhead layer and is in the same horizontal plane as the wall-attached support.

In some possible embodiments, the first connection assembly includes a first connection flap, a pull rod, and a second connection flap, one end of the pull rod is connected with the superstructure beam through the first connection flap, and the other end of the pull rod is connected with the wall mount assembly through the second connection flap.

In some possible embodiments, the first connection flap includes a first straight plate portion and a first sloping plate portion, the first sloping plate portion being connected obliquely to the first straight plate portion; the second connecting turning plate comprises a second straight plate part and a second inclined plate part, and the second inclined plate part is obliquely connected with the second straight plate part; the pull rod is inclined towards the wall-attached support along the direction of the upper layer structure beam towards the lower layer structure beam;

wherein the first swash plate portion, the second swash plate portion, and the tie rod are located on the same straight line.

In some possible embodiments, the second connection assembly includes a jack-up telescoping rod, one end of the jack-up telescoping rod is connected with the substructure beam, and the telescoping end of the jack-up telescoping rod is connected with the wall-attached support mounting assembly.

In some possible embodiments, the wall-attached support mounting assembly includes a mounting beam, a fastener, a pre-buried bolt, a first connecting bolt, and a second connecting bolt, the fastener is fixed to the support column by the pre-buried bolt, the mount Liang Fang is disposed on the fastener and connected to the fastener by the second connecting bolt, and the wall-attached support is fixed to the mounting beam by the first connecting bolt.

In some possible embodiments, the connecting bracket further comprises an auxiliary connecting piece, the auxiliary connecting piece is arranged between the mounting beam and the wall attaching support, and the connecting bolt sequentially penetrates through the wall attaching support, the auxiliary connecting piece and the mounting beam to fix the wall attaching support, the auxiliary connecting piece and the mounting beam.

The technical scheme of the embodiment of the utility model has at least the following advantages and beneficial effects:

the connecting bracket for installing the auxiliary wall-attached support on the overhead layer is mainly arranged at the overhead layer and is used for installing the wall-attached support, so that the problem that the position for installing the wall-attached support is not available at the height of the standard layer because the height of the overhead layer is higher than that of the standard layer is solved. The first connecting component, the second connecting component and the wall-attached support mounting component are mainly utilized to be arranged at the overhead layer, so that the wall-attached support mounting component can be arranged at the height of the wall-attached support for mounting the wall-attached support on the standard layer, the wall-attached support can be arranged at the mountable position, the wall-attached support can be arranged in the overhead layer, and the fixing stability of the scaffold at the overhead layer can be ensured. In detail, the first connecting component is mainly arranged on the upper layer structural beam, the second connecting component is arranged on the lower layer structural beam, and then the wall attaching support mounting component is arranged between the first connecting component and the second connecting component, so that the upper layer structural beam and the lower layer structural beam of the overhead layer are connected, and a mounting position is provided for the wall attaching support, and the height of the mounting position is lower than the layer height of the overhead layer, so that the wall attaching support can be mounted in the overhead layer.

Drawings

For a clearer description of an embodiment of the present application, reference will be made to the accompanying drawings of embodiments, which, as will become apparent, relate only to some embodiments of the present application and are not limiting of the present application, wherein:

fig. 1 is a schematic structural diagram of a connection bracket for installing an auxiliary wall-attached support on an overhead layer according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a connection structure of a first connection assembly according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a fixing structure of a wall-attached support mounting assembly according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of fixing between a wall-attached support and a mounting beam according to an embodiment of the present utility model.

Icon: 1. a first connection assembly; 11. a first connection flap; 111. a first straight plate portion; 112. a first swash plate portion; 12. a second connection flap; 121. a second straight plate portion; 122. a second swash plate portion; 13. a pull rod; 2. a second connection assembly; 21. supporting the telescopic rod; 3. the wall-attached support mounting assembly; 31. mounting a beam; 32. a fixing member; 33. embedding bolts; 34. a first connecting bolt; 35. a second connecting bolt; 4. a wall-attached support; 5. a superstructure beam; 6. and a lower layer structure beam.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. Based on the embodiments herein, all other embodiments that a person skilled in the art would obtain without making any inventive effort are within the scope of protection of the present application.

In the description of the present application, it should be understood that the words "first" and "second" are used for descriptive purposes only and are not to be interpreted as indicating or implying a relative importance or number of features in which such is indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more features. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

For ease of understanding of the solution of the present application, spline curves and arrows used for reference numerals in the drawings are described herein: the parts indicated for the spline without arrow are solid parts, i.e. parts with solid structure; the parts indicated for the spline with arrow are virtual parts, i.e. parts without solid structure.

Referring to fig. 1 to 4, the application provides a connection bracket for installing an auxiliary wall-attached support on an overhead layer, which is arranged at the overhead layer and used for installing the wall-attached support 4, the overhead layer comprises an upper layer structure beam 5 and a lower layer structure beam 6, the connection bracket for installing the auxiliary wall-attached support on the overhead layer, which is provided by the application, comprises a first connection component 1, a second connection component 2 and a wall-attached support installation component 3, wherein the wall-attached support installation component 3 is used for installing the wall-attached support 4, one end of the first connection component 1 is connected with the upper layer structure beam 5 of the overhead layer, the other end of the first connection component is connected with one end of the second connection component 2 through the wall-attached support installation component 3, and one end of the second connection component 2 deviating from the wall-attached support installation component 3 is connected with the lower layer structure beam 6 of the overhead layer.

The technical scheme that this application provided mainly sets up this linking bridge in built on stilts layer department for install and attach wall support 4, in order to solve built on stilts layer because highly be higher than the standard layer, make in standard layer height department not supply the problem of attaching wall support 4 mounted position. The first connecting component 1, the second connecting component 2 and the wall-attached support mounting component 3 are mainly utilized to be arranged at the overhead layer, so that the wall-attached support mounting component 3 can be arranged at the height of the standard layer for mounting the wall-attached support 4, the wall-attached support 4 can be arranged at a mountable position, the wall-attached support 4 can be mounted in the overhead layer, and the fixing stability of the scaffold at the overhead layer can be ensured. In detail, the first connecting component 1 is mainly used to be arranged on the upper layer structural beam 5, the second connecting component 2 is arranged on the lower layer structural beam 6, and then the wall-attached support mounting component 3 is arranged between the first connecting component 1 and the second connecting component 2, so that the upper layer structural beam and the lower layer structural beam of the overhead layer are connected, and a mounting position is provided for the wall-attached support 4, and the height of the mounting position is lower than the layer height of the overhead layer, so that the wall-attached support 4 can be mounted in the overhead layer.

It should be noted that, the specific dimensions and positions of the first connection assembly 1, the second connection assembly 2, and the wall-attaching support mounting assembly 3 may be adjusted according to the range of positions where the wall-attaching support 4 can be mounted. For example, the wall-attached support 4 can be installed at a position higher than the lower structural beam 6 by 3 m, and if the height of the overhead layer is 5.4 m to 6 m, the length of the first connection assembly 1 can be set to be approximately 3 m so that the height of the wall-attached support installation assembly 3 corresponds to the height of the wall-attached support 4. The wall attaching support 4 is fixed on the wall attaching support mounting assembly 3 by using a connecting piece such as a bolt, and one side of the wall attaching support 4 away from the wall attaching support mounting assembly 3 is contacted with a rail on the scaffold so as to apply a supporting force for preventing the scaffold from deviating or even overturning to the rail. The wall-attached support mounting assembly 3 can move in the horizontal direction to adjust the distance from the wall-attached support 4, so that the wall-attached support 4 can be contacted and fixed with the wall-attached support mounting assembly 3, and the movement of the wall-attached support mounting assembly 3 mainly depends on the elastic deformation of the first connecting assembly 1 and/or the second connecting assembly 2, or elastic connecting pieces such as springs are arranged at the connection positions of the first connecting assembly 1 and/or the second connecting assembly 2 and the wall-attached support mounting assembly 3 and/or the upper and lower structural beams, so that the wall-attached support mounting assembly 3 can be tensioned by the first connecting assembly 1 and the second connecting assembly 2, and meanwhile, certain position adjustment can be performed according to the position of the wall-attached support 4.

In order to facilitate understanding of the specific structure of the connection bracket of the auxiliary wall-attached support 4 mounted on the overhead floor, the following details of the specific structure and the cooperation relationship of the first connection assembly 1, the second connection assembly 2 and the wall-attached support mounting assembly 3 will be described:

referring to fig. 1, in some embodiments, the wall-attached support mounting assembly 3 is disposed in the middle of the overhead floor and is positioned at the same level as the wall-attached support 4. The middle part of the overhead layer refers to the middle height of the overhead layer, and if the height of the overhead layer is 5.4 meters, the middle part of the overhead layer is 2.7 meters. The height of the wall-attached support mounting assembly 3 is consistent with the height of the wall-attached support 4, and the wall-attached support mounting assembly is in the same horizontal plane, so that the wall-attached support mounting assembly 3 can horizontally move to the wall-attached support 4, and the wall-attached support 4 can be mounted on the wall-attached support mounting assembly 3. When the electric hoist lifts or descends the scaffold, the wall-attached support 4 leans on a track of the scaffold, so that the scaffold is assisted to stably ascend, and overturning is avoided; when the scaffold falls downwards due to the fact that the outside of the scaffold, the falling-preventing device on the wall-attached support 4 can be abutted with the track on the scaffold, and the scaffold is prevented from falling. The specific matching relationship between the wall-attached support 4 and the scaffold is the prior art, and will not be described herein.

Referring to fig. 1 and 2, in some embodiments, the first connection assembly 1 includes a first connection flap 11, a pull rod 13, and a second connection flap 12. One end of a pull rod 13 is connected with the upper layer structure beam 5 through a first connection turning plate 11, and the other end of the pull rod 13 is connected with the wall-attached support mounting assembly 3 through a second connection turning plate 12. The pull rod 13 has certain deformation characteristics, and under the action of the pull force, the pull rod 13 can deform and the length is increased. When the wall-attached support mounting assembly 3 needs to move towards the wall-attached support 4, the deformation characteristic of the pull rod 13 gives the condition of the wall-attached support mounting assembly 3 to move so that the wall-attached support mounting assembly 3 can adjust the position in a certain range to adapt to the position of the wall-attached support 4. The first connection turning plate 11 and the pull rod 13, and the second connection turning plate 12 and the pull rod 13 are fixedly connected through the matching of bolts and nuts. The first connection turning plate 11 is fixedly connected with the upper layer structure beam 5 through the matching of bolts and nuts. The second connection turning plate 12 is fixedly connected with the wall-attached support mounting assembly 3 through the matching of bolts and nuts.

Further, referring to fig. 2, for the first connection flap 11, it includes a first straight plate portion 111 and a first inclined plate portion 112. The first swash plate portion 112 is connected to the first straight plate portion 111 in an inclined manner so that the first swash plate portion 112 and the first straight plate portion 111 are not on the same plane in the height direction. Specifically, the first swash plate portion 112 is inclined toward the wall mount 4 and is connected to one end of the tie rod 13 by a bolt and a nut. The second connection flap 12 includes a second straight plate portion 121 and a second inclined plate portion 122, and the second inclined plate portion 122 is connected to the second straight plate portion 121 so as to be inclined such that the second inclined plate portion 122 and the second straight plate portion 121 are not on the same plane in the height direction. Specifically, the second swash plate portion 122 is inclined toward the coanda mount 4 and is connected to one end of the coanda mount assembly 3 by bolts and nuts. Along the direction of the upper layer structure beam 5 towards the lower layer structure beam 6, the pull rod 13 is inclined towards the wall-attached support 4, namely, the inclination directions of the pull rod 13, the first inclined plate part 112 and the second inclined plate part 122 are the same, so that the pull rod 13 can be conveniently moved, and the position of the wall-attached support mounting assembly 3 connected with the pull rod 13 can be adjusted. Furthermore, the first inclined plate portion 112, the second inclined plate portion 122 and the pull rod 13 are positioned on the same straight line, which is favorable for the cooperation between the bolt and the nut, so that the bolt can be connected perpendicular to the surfaces of the first inclined plate portion 112, the second inclined plate portion 122 and the pull rod 13, and the connection is more stable.

In some embodiments, the second connection assembly 2 includes a top stay telescoping rod 21. One end of the top support telescopic rod 21 is connected with the lower layer structure beam 6, and the other end, namely the telescopic end of the top support telescopic rod 21 is connected with the wall-attached support mounting assembly 3, and the height position of the wall-attached support mounting assembly 3 can be effectively adjusted through the telescopic function of the top support telescopic rod 21, so that the top support telescopic rod can adapt to overhead layers with different layers and rails with different heights. The jack-up expansion link 21 may be of a hydraulic expansion structure, an air pressure expansion structure, a screw structure, or two steel pipes having different diameters, wherein a steel pipe having a small diameter is provided in a steel pipe having a large diameter, and can expand and contract in the axial direction of the steel pipe, and then is fixed by a pin, and the specific structure is not limited. In this embodiment, adopt lead screw or two different diameter steel pipe sleeve to establish the structure, be favorable to saving the cost, sustained utilization nature is better, and is not fragile, and intensity is higher.

In some embodiments, referring to fig. 1 and 2, the wall mount mounting assembly 3 includes a mounting beam 31 and a first connecting bolt 34. The mounting beam 31 is made of I-steel, and the first connecting bolt 34 penetrates through the mounting beam 31 along the width direction of the mounting beam and is fixedly connected with the second connecting turning plate 12 and the wall attaching support 4, so that the wall attaching support 4 is fixed on the mounting beam 31. The bottom of the mounting beam 31 is fixedly connected with the second connecting component 2 through bolts, so that the wall-attached support mounting component 3 is fixed between the first connecting component 1 and the second connecting component 2 and is positioned at the corresponding mounting position of the wall-attached support 3.

In some embodiments, to enhance the stability of the installation of the wall mount 4 and the wall mount mounting assembly 3, as well as the shear and pressure that the wall mount can withstand, the mounting beam 31 is secured between two support columns within the overhead layer. The concrete installation structure is as follows:

referring to fig. 3, the wall-attached stand mounting assembly 3 further includes: a fixing member 32, a second connecting bolt 35 and a pre-buried bolt 33. The fixing piece 32 is fixed on the support column through the embedded bolt 33, the mounting beam 31 is fixed on the fixing piece 32 through the second connecting bolt 35, and the wall-attached support 4 is fixed on the mounting beam 31 through the first connecting bolt 34. The fixing member 32 is mainly composed of a plurality of steel beams, which are grafted to each other to form a triangular structure as seen from the side, so as to increase the supporting strength of the fixing member 32. A plurality of mounting positions for mounting the wall-attached support 4 are provided on one mounting beam 31, and the plurality of mounting positions are provided along the length direction of the mounting beam 31. For the embedded bolt 33, the embedded bolt is L-shaped, one part of the embedded bolt is embedded into the supporting column, the other part of the embedded bolt and the part embedded into the supporting column are provided with corners and extend out of the supporting column, and the embedded bolt 33 with the corners is used for improving the integral strength of the wall-attached support mounting assembly 3. It should be noted that, the fixing member 32 may be a support column or a wall body constructed during the construction process.

By using the oppositely disposed support columns, the fixing pieces 32 are formed on the support columns, and the mounting beams 31 are fixed to the fixing pieces 32, thereby enhancing the stability of the mounting beams 31, and enabling the mounting beams 31 to mount a plurality of the wall-attached stand mounting assemblies 3. In addition, the mounting beam 31 has a long length, and a plurality of wall-attached mount assemblies 3 are provided in the middle portion of the mounting beam 31, but only the support columns and the embedded bolts 33 that can support the mounting beam 31 have poor reliability of the support strength. Therefore, a plurality of second connection members 2, i.e., the jack-up telescoping rods 21, are connected to the bottom of the mounting beam 31, and the height can be adjusted by utilizing the telescoping function of the jack-up telescoping rods 21. Each second connecting component 2 is correspondingly provided with a wall-attached support mounting component 3. And because the wall-attached support 4 is mainly connected with the scaffold to support the scaffold and form fixed protection for the scaffold, the scaffold is prevented from overturning and falling. When the wall-attached support 4 is used for supporting the scaffold, larger horizontal force and shearing force can be met, and particularly, the wall-attached support 4 arranged in the overhead layer can better transfer force to the wall body because the wall-attached support 4 is not directly fixed in the wall body. Therefore, the present application connects the wall-attached stand mounting assembly 3 with the upper and lower structural beams by using the first and second connection assemblies 1 and 2, in addition to fixing the wall-attached stand mounting assembly 3 between the two support columns. By utilizing the arrangement of the first connecting component 1 and the second connecting component 2, the connecting strength can be improved, the first connecting component 1 and the second connecting component 2 can bear large horizontal and shearing forces, and stronger support and reinforcement are provided for the wall-attached support, so that the connecting strength and stability are improved; the first connecting component 1 and the second connecting component 2 can be used for dispersing the load to a plurality of supporting points, so that the load born by the connecting points is more uniform, the load accumulated on a single supporting point is reduced, and the pressure and deformation of the supporting point are reduced.

Further, referring to fig. 4, the connection bracket further includes an auxiliary connector (not shown). The auxiliary connecting piece is arranged between the mounting beam 31 and the wall attaching support 4, and the first connecting bolt 34 sequentially penetrates through the wall attaching support 4, the auxiliary connecting piece and the mounting beam 31 to fix the wall attaching support 4, the auxiliary connecting piece and the mounting beam 31. The auxiliary connecting piece is mainly used for assisting the connection and installation between the wall-attached support 4 and the wall-attached support installation component 3. In detail, when the distance between the wall-attached support mounting assembly 3 and the wall-attached support 4 is too long, so that the distance that the wall-attached support mounting assembly 3 can move toward the wall-attached support 4 is smaller than the distance between the wall-attached support mounting assembly 3 and the wall-attached support 4, the wall-attached support mounting assembly 3 and the wall-attached support 4 cannot be mounted or are connected by too long bolts, part of the bolt thread structure is exposed outside, and the structural connection is unstable. The auxiliary connecting piece can be arranged between the wall attaching support 4 and the wall attaching support mounting assembly 3, and the bolts penetrate through the wall attaching support 4, the wall attaching support mounting assembly 3 and the auxiliary connecting piece, so that the height of the wall attaching support mounting assembly 3 is increased, the distance between the wall attaching support 4 and the wall attaching support mounting assembly 3 is shortened, the threaded portion of the first connecting bolt 34 can be fully positioned in the wall attaching support 4, the wall attaching support mounting assembly 3 and the auxiliary connecting piece, and the threaded portion is in threaded connection with the wall attaching support 4, the wall attaching support mounting assembly 3 and the auxiliary connecting piece respectively.

While the basic concepts have been described above, it will be apparent to those skilled in the art that the foregoing detailed disclosure is by way of example only and is not intended to be limiting. Although not explicitly described herein, various modifications, improvements, and adaptations of the present application may occur to one skilled in the art. Such modifications, improvements, and modifications are intended to be suggested within this application, and are therefore within the spirit and scope of the exemplary embodiments of this application.

Meanwhile, the present application uses specific words to describe embodiments of the present application. Reference to "one embodiment," "an embodiment," and/or "some embodiments" means that a particular feature, structure, or characteristic is associated with at least one embodiment of the present application. Thus, it should be emphasized and should be appreciated that two or more references to "an embodiment" or "one embodiment" or "an alternative embodiment" in various positions in this specification are not necessarily referring to the same embodiment. Furthermore, certain features, structures, or characteristics of one or more embodiments of the present application may be combined as suitable.

Likewise, it should be noted that in order to simplify the presentation disclosed herein and thereby aid in understanding one or more application embodiments, various features are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure. This method of disclosure, however, is not intended to imply that more features than are presented in the claims are required for the subject application. Indeed, less than all of the features of a single embodiment disclosed above.

For each patent, patent application publication, and other material, such as articles, books, specifications, publications, documents, etc., cited in this application, the entire contents of which are hereby incorporated by reference into this application, except for the application history documents which are inconsistent or conflict with the contents of this application, and for documents which have limited the broadest scope of the claims of this application (currently or hereafter attached to this application). It is noted that the descriptions, definitions, and/or terms used in the subject matter of this application are subject to the use of descriptions, definitions, and/or terms in case of inconsistent or conflicting disclosure.

The foregoing is merely a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and variations may be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (7)

1. The utility model provides an auxiliary wall support that attaches installs in overhead layer's linking bridge, locates overhead layer department for the installation attaches wall support, a serial communication port, linking bridge includes first coupling assembling, second coupling assembling and attaches wall support installation component, it is used for the installation to attach wall support installation component, first coupling assembling's one end with overhead layer's superstructure roof beam is connected, and the other end passes through attach wall support installation component with second coupling assembling's one end is connected, the second coupling assembling deviates from attach wall support installation component's one end with overhead layer's lower floor structure roof beam is connected, attach wall support installation component's both ends to be fixed in on two support columns in the overhead layer.

2. The connection bracket for installing an auxiliary wall-attached support on an overhead floor according to claim 1, wherein the wall-attached support installation component is arranged in the middle of the overhead floor and is positioned on the same horizontal plane as the wall-attached support.

3. The connection bracket for installing the auxiliary wall-attached support on the overhead floor according to claim 1, wherein the first connection assembly comprises a first connection turning plate, a pull rod and a second connection turning plate, one end of the pull rod is connected with the upper layer structure beam through the first connection turning plate, and the other end of the pull rod is connected with the wall-attached support installation assembly through the second connection turning plate.

4. The connection bracket for mounting an auxiliary wall-attached support to an overhead floor according to claim 3, wherein the first connection flap comprises a first straight plate portion and a first inclined plate portion, and the first inclined plate portion is connected with the first straight plate portion in an inclined manner; the second connecting turning plate comprises a second straight plate part and a second inclined plate part, and the second inclined plate part is obliquely connected with the second straight plate part; the pull rod is inclined towards the wall-attached support along the direction of the upper layer structure beam towards the lower layer structure beam;

wherein the first swash plate portion, the second swash plate portion, and the tie rod are located on the same straight line.

5. The auxiliary wall-attached support mounting bracket for an overhead floor according to claim 1, wherein the second connection assembly comprises a top support telescoping rod, one end of the top support telescoping rod is connected to the underlying structural beam, and the telescoping end of the top support telescoping rod is connected to the wall-attached support mounting assembly.

6. The connection bracket for installing an auxiliary wall-attached support to an overhead floor according to claim 1, wherein the wall-attached support installation assembly comprises an installation beam, a fixing member, a pre-buried bolt, a first connection bolt and a second connection bolt, the fixing member is fixed on the support column through the pre-buried bolt, the installation Liang Fang is placed on the fixing member and connected with the fixing member through the second connection bolt, and the wall-attached support is fixed on the installation beam through the first connection bolt.

7. The auxiliary wall mount mounted to overhead floor connection bracket of claim 6, further comprising an auxiliary connector disposed between the mounting beam and the wall mount, the connection bolt passing through the wall mount, the auxiliary connector and the mounting beam in sequence to secure the wall mount, the auxiliary connector and the mounting beam.