CN218815140U - Turnover external frame wall-attached device - Google Patents

Abstract

The utility model provides an outer formula outrigger that attaches that can have enough to meet need attaches wall device, include: a building structure; and an outer frame spaced from the building structure in a first direction; the connecting assemblies are arranged at intervals along the second direction or the third direction, arranged between the building structures and used for connecting the building structures with the external frames; the length of the connecting assembly can be debugged to be adjustable, so that the connecting assembly is suitable for connecting the building structure and the outer frames with different sizes. The utility model provides an adjustable coupling assembling can unpick and wash ground connection building structure and outrigger. Thus facilitating the disassembly and separation of the building structure. The problem that the building structure is easily damaged when a connecting piece between the outer frame and the building structure body is dismantled in the prior art is solved. Thereby ensuring the structural integrity of the building.

Description

Turnover external frame wall-attached device

Technical Field

The utility model relates to a construction equipment technical field especially relates to an outer formula outrigger that attaches that can have enough to meet need attaches wall device.

Background

On a building construction site, in order to ensure that the construction process is smoothly carried out, a scaffold needs to be erected on the periphery of a building. At present, the external frame is built by adopting an embedded short pipe, and the external frame is fixed on the embedded short pipe. The position of the erected frame body cannot be constructed in advance, and after the outer frame is dismantled in the later period, the embedded short pipe needs to be cut, and the construction hole and the floor penetrating the wall are repaired. The structure secondary damage of a shear wall, a column and a floor slab can be caused after the outer frame is dismantled, the repaired place is not beautiful, and a leakage point is easy to form.

In other words, the conventional structure has a problem that the building is easily damaged when the connecting member between the external frame and the building structure is removed.

SUMMERY OF THE UTILITY MODEL

The utility model provides an it attaches wall device to solve above-mentioned technical problem provide an attach formula outrigger that can have enough to meet the need, solved the problem that destroys the building structure easily when the connecting piece between outrigger and the building structure demolishs.

The utility model provides a formula outrigger attaches wall device outward that can have enough to meet need: it includes: a building structure; and an outer frame spaced apart from the building structure in a first direction; the connecting assemblies are arranged at intervals along the second direction or the third direction, arranged between the building structure body and the outer frame and used for connecting the building structure body and the outer frame; the length of the connecting assembly can be debugged to be adjustable, so that the connecting assembly is suitable for connecting the building structure and the outer frames with different sizes.

In one embodiment, the building structure has a first floor and a second floor located below the first floor, and the plurality of debuggable connection assemblies are divided into two groups, one of the groups of debuggable connection assemblies being for connecting the first floor to the outrigger and the other group of debuggable connection assemblies being for connecting the second floor to the outrigger.

In one embodiment, a debuggable connection assembly includes: the embedded part is embedded in the building structure body; one end of the sleeve assembly is detachably connected with the embedded part; and one end of the adjusting steel pipe is arranged at the other end of the sleeve component in a telescopic mode, and the other end of the adjusting steel pipe is connected with the outer frame.

In one embodiment, a sleeve assembly comprises: the end plate is detachably connected with the embedded part; and the sleeve is arranged on the end plate, and the adjusting steel pipe is arranged in the sleeve in a telescopic mode.

In one embodiment, the debuggable connection assembly further comprises a chemical bolt, and the embedment and the end plate are connected through the chemical bolt.

In one embodiment, a threaded hole is formed in the sleeve, external threads are formed in the periphery of the adjusting steel pipe, the adjusting steel pipe is in threaded connection with the threaded hole, and the whole length of the adjustable connecting assembly can be adjusted by rotating the adjusting steel pipe.

In an embodiment, still include the antiskid cardboard, the antiskid cardboard cover is established on adjusting the steel pipe, and after the whole length of connecting components that can debug adjusted to suitable length, with antiskid cardboard and sleeve and regulation steel pipe fixed connection to inject the whole length of connecting components that can debug to suitable length.

In one embodiment, the external frame comprises: the first support frame is arranged corresponding to the first floor; and a second support frame, which is arranged corresponding to the second floor; the connecting joint is used for connecting the first support frame and the second support frame into a whole; wherein, but a set of debugging coupling assembling is used for connecting first floor and first support frame, but another group debugging coupling assembling is used for connecting second floor and second support frame.

In one embodiment, the first support frame comprises: four upright posts which are distributed in a rectangular array; the # -shaped frame is formed by splicing four supporting cross beams; the clamp is arranged at the joint of the upright post and the # -shaped frame and is used for fixing the # -shaped frame on the upright post; and the supporting plate is arranged on the # -shaped frame.

In one embodiment, the second support bracket is identical in construction to the first support bracket.

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

1. the adjustable connection assembly detachably connects the building structure to the outrigger. Thus, the building structure is convenient to disassemble and separate from the building structure. The problem that the building structure is easily damaged when a connecting piece (embedded short pipe) between the outer frame and the building structure body is dismantled in the prior art is solved. Thereby ensuring the structural integrity of the building.

2. Since the external dimensions of the external frames of different sizes are different, this results in different lengths of the external frames connected to the building structure. The whole length of the adjustable connecting component is adjustable. This enables the adjustable connection assembly to meet a wide range of length connection requirements. Thereby improving the applicability and compatibility of the debuggable connection assembly.

Drawings

Fig. 1 is a schematic perspective view of a rotatable external frame wall-attached device according to an embodiment of the present invention.

FIG. 2 is a plan view of the externally attached external frame wall attachment apparatus of FIG. 1

Fig. 3 is a top view of the external frame wall attachment of fig. 1.

Fig. 4 is a schematic perspective view of the embedded part in fig. 1.

Fig. 5 is a schematic structural view of the sleeve assembly of fig. 1.

Fig. 6 is a schematic structural view of the conditioning steel pipe of fig. 1.

Figure 7 is a schematic structural view of the anti-slip card of figure 1.

In the figure: 10. the connecting component can be debugged; 11. embedding parts; 12. a sleeve assembly; 121. an end plate; 122. a sleeve; 13. adjusting the steel pipe; 14. an anti-skid card board; 20. an outer frame; 21. a first support frame; 211. a column; 212. a # -shaped frame; 2121. a supporting beam; 213. a clip; 214. a support plate; 22. a second support frame; 23. connecting a joint; 30. a building structure; 31. a first floor slab; 32. and a second floor.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments.

The building structure 30 in the present application includes a building structure such as a shear wall, a pillar, and a floor slab.

As shown in fig. 1 to 3, the utility model provides a can have enough to meet need external attached type outrigger attaches wall device, it includes building structure 30, outrigger 20 and a plurality of can debugging coupling assembling 10. Wherein the external frame 20 and the building structure 30 are arranged at intervals in a first direction, the plurality of adjustable connecting assemblies 10 are arranged at intervals in a second direction or a third direction (a direction perpendicular to the paper surface in fig. 3) and arranged between the building structures 30 and the external frame 20 for detachably connecting the building structures 30 and the external frame 20, and the length of the adjustable connecting assemblies 10 can be adjusted so as to be suitable for connecting the building structures 30 and the external frames 20 with different sizes.

In the above arrangement, the adjustable attachment assembly 10 releasably connects the building structure 30 to the external frame 20. This facilitates its removal from and separation from the building structure 30. The problem that the structure of a building is easily damaged when a connecting piece (an embedded short pipe) between an outer frame and a building structure body is dismantled in the prior art is solved. Thereby ensuring the structural integrity of the building.

In addition, since the external dimensions of the external frames 20 having different sizes are different, the lengths of the connection between the external frames 20 and the building structure 30 are different. The overall length of the adjustable connection assembly 10 is adjustable. This enables the adjustable connection assembly 10 to meet a wide range of length connection requirements. Thereby improving the applicability and compatibility of the debuggable connection assembly 10.

Specifically, as shown in fig. 1 to 3, in one embodiment, the building structure 30 has a first floor 31 and a second floor 32 located below the first floor 31, and the plurality of adjustable connection assemblies 10 are divided into two groups, wherein one group of adjustable connection assemblies 10 is used for connecting the first floor 31 and the external frame 20, and the other group of adjustable connection assemblies 10 is used for connecting the second floor 32 and the external frame 20.

Specifically, as shown in fig. 1-7, in one embodiment, the adjustable connection assembly 10 includes an embedment 11, a sleeve assembly 12, and an adjustment steel pipe 13. Wherein, the embedded part 11 is embedded in the building structure 30; one end of the sleeve component 12 is detachably connected with the embedded part 11; one end of the adjusting steel pipe 13 is telescopically arranged at the other end of the sleeve component 12, and the other end thereof is connected with the outer frame 20.

In the above arrangement, one end of the adjusting steel pipe 13 is telescopically arranged at the other end of the sleeve assembly 12. This allows the distance between the adjusting steel tube 13 and the sleeve assembly 12 to be adjusted. Thereby ensuring that the overall length of the adjustable connection assembly 10 is adjustable. This enables the adjustable connection assembly 10 to meet a wide range of length connection requirements. Thereby improving the applicability and compatibility of the debuggable connection assembly 10.

Specifically, as shown in fig. 5, in one embodiment, sleeve assembly 12 includes an end plate 121 and a sleeve 122. The end plate 121 is detachably connected with the embedded part 11, the sleeve 122 is arranged on the end plate 121, and the adjusting steel pipe 13 is arranged in the sleeve 122 in a telescopic mode.

Specifically, as shown in fig. 1-3, in one embodiment, the debuggable connection assembly 10 further includes chemical bolts by which the embedment 11 and the end plate 121 are connected.

In the above arrangement, chemical bolts are provided so that the end plates 121 can be easily removed from the embedment 11. Therefore, the convenience of other parts of the rotatable external frame wall-attached device from the embedded part 11 is improved. And then the on-site dismounting efficiency of the debuggable connecting assembly 10 is improved.

Specifically, as shown in fig. 5, in one embodiment, the end plate 121 is formed with a connection hole, and a chemical bolt is inserted into the connection hole.

Specifically, as shown in fig. 5, in one embodiment, a threaded hole is formed in the sleeve 122, an external thread is formed on the outer periphery of the adjusting steel pipe 13, the adjusting steel pipe 13 is in threaded connection with the threaded hole, and the adjusting steel pipe 13 is rotated to adjust the overall length of the adjustable connecting assembly 10.

Specifically, as shown in fig. 1 and 7, in an embodiment, the rotatable externally-attached type external frame wall-attached device further includes an anti-slip clamping plate 14, the anti-slip clamping plate 14 is sleeved on the adjusting steel pipe 13, and after the overall length of the adjustable connecting assembly 10 is adjusted to a proper length, the anti-slip clamping plate 14 is fixedly connected with the sleeve 122 and the adjusting steel pipe 13, so as to limit the overall length of the adjustable connecting assembly 10 to a proper length.

Specifically, as shown in fig. 1 and 7, in one embodiment, the anti-skid card 14 is welded to the sleeve 122 and the adjusting steel pipe 13.

Specifically, as shown in fig. 7, in one embodiment, the anti-slip card 14 is a square plate with a circular hole in its center. The adjusting steel pipe 13 is welded in the round hole, and one end face of the anti-skid clamping plate 14 is welded with the end face of the sleeve 122.

Specifically, as shown in fig. 1, in one embodiment, the external frame 20 includes a first support bracket 21, a second support bracket 22, and a connection joint 23. The first support frame 21 is disposed corresponding to the first floor 31, and the second support frame 22 is disposed corresponding to the second floor 32. The connecting joint 23 is used for integrally connecting the first support frame 21 and the second support frame 22. One set of adjustable connecting assemblies 10 is used to connect the first floor panel 31 and the first support frame 21, and the other set of adjustable connecting assemblies 10 is used to connect the second floor panel 32 and the second support frame 22.

Specifically, as shown in fig. 1 to 3, in one embodiment, the first support frame 21 includes four uprights 211, a support plate 214, and a cross frame 212, and a catch 213. Wherein, four upright posts 211 are distributed in a rectangular array, and the # -shaped frame 212 is formed by splicing four supporting beams 2121. And the clamp 213 is arranged at the joint of the upright post 211 and the # -shaped frame 212 and is used for fixing the # -shaped frame 212 on the upright post 211. And the supporting plate 214 is arranged on the # -shaped frame 212.

Specifically, as shown in fig. 1, in one embodiment, the second support frame 22 is identical in structure to the first support frame 21.

A complete embodiment of the present application is described below in conjunction with fig. 1-7:

the utility model discloses an adjustable formula outrigger that attaches outward that can have enough to meet need, built-in fitting 11 pre-buried in advance inside floor beam, the post reinforcing bar of the architectural structure 30, fix the sleeve 122 of taking end plate 121 on built-in fitting 11 through chemical bolt, threaded regulation steel pipe 13 installs in sleeve 122 and uses anti-skidding cardboard 14 to connect the shaping, forms whole outrigger system (the formula outrigger that can have enough to meet need attaches the wall device is constituteed to outrigger system and outrigger 20).

Specifically, in this embodiment, before concrete is poured into the floor beams and columns, the embedded plates (the embedded parts 11 include the embedded plates and embedded steel bars welded to one layer of the embedded plates, and the embedded plates are attached to the outside of the building structure) are first fixed to the beams and columns (the steel bars in the building structure) by welding, mechanical connection, or binding. The embedded part 11 is poured with the beam and the column steel bar at one time to form a whole when the concrete is poured. This mode can guarantee that whole outrigger system can be reliably connected with the main part, because pre-buried in advance of pre-buried board, can not need pre-buried nozzle stub on the floor, need not cut the pre-buried nozzle stub of floor and repair the floor when the outrigger is demolishd in the later stage, reduces the secondary and repairs the destruction that causes, has avoided simultaneously because reserve the entrance to a cave and cause the seepage scheduling risk.

Specifically, in this embodiment, when the outer frame 20 is erected, the threaded sleeve with the end plate 121 is used to be effectively connected with the embedded plate through the chemical bolt, the size and the position of the bolt hole on the embedded plate are determined according to requirements, and position deviation when the embedded plate is embedded in the later period is avoided, so that the embedded plate cannot be installed. The bolt holes (attachment holes) also allow the threaded sleeves of the belt end plate 121 to be properly adjusted into a fixed position. When the threaded adjusting steel pipe 13 is fixed on the sleeve 122, the length of the threaded sleeve with the end plate 121 and the threaded adjusting steel pipe 13 can be adjusted, and the uncertainty of the distance between the external frame system and the main body (the building structure 30) is adapted. Meanwhile, the threaded sleeve with the end plate 121 is connected through the chemical bolt, the threaded sleeve can be detached in a unified mode when the outer frame 20 is detached, the detached embedded part 11 can be subjected to the next procedure only through simple plastering of a building structure body and treatment modes such as secondary covering, and the operation is simple, and other procedures cannot be influenced. The connecting device can also realize secondary turnover and adjustment.

Specifically, in this embodiment, the installation length is adjusted by the screw thread, the anti-slip clip 14 is used to fix the applicable length to prevent the threaded steel pipe (the adjustment steel pipe 13) from sliding and falling off, and finally the threaded steel pipe with the adjusted length is connected with the external frame 20 through the standard external frame fastener (the clip 213), so that the whole external frame system is installed. The adjusting steel pipe 13 can be detached, does not need to penetrate through a shear wall and a masonry wall, and cannot cause secondary damage to the shear wall, the masonry or other decorative decorations.

The utility model provides a can have enough to meet need attach formula outrigger attaches wall device adjustable, and can have enough to meet the need, its installation with dismantle conveniently, the size can be adjusted, has improved the engineering quality, reduces the seepage risk, can the secondary use, also can be through standardized batch production, save the cost, reduction in production cost. Meanwhile, the external frame wall-attached device capable of being circulated can adapt to various operating environments, and is safe, stable and reliable.

As can be seen from the foregoing description of the specific embodiments,

the commissionable connection assembly 10 releasably connects a building structure 30 and an external frame 20. This facilitates its removal from and separation from the building structure 30. The problem that the building structure is easily damaged when a connecting piece (embedded short pipe) between the outer frame and the building structure body is dismantled in the prior art is solved. Thereby ensuring the structural integrity of the building. In addition, since the external dimensions of the external frames 20 having different sizes are different, the lengths of the connection between the external frames 20 and the building structure 30 are different. The overall length of the adjustable connection assembly 10 is adjustable. This enables the adjustable connection assembly 10 to meet a wide range of length connection requirements. Thereby improving the applicability and compatibility of the debuggable connection assembly 10.

In the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are used broadly and should be construed to include, for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", "front", "back", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or unit indicated must have a specific direction, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that a person skilled in the art should also recognize that several modifications and decorations can be made without departing from the principle of the present invention, and the protection scope of the present invention is also covered.

Claims (10)

1. A turnover external frame wall-attached device is characterized by comprising

A building structure; and

an outer frame spaced apart from the building structure in a first direction; and

a plurality of adjustable connection assemblies arranged at intervals along a second direction or a third direction, arranged between the building structure and the external frame and used for connecting the building structure and the external frame;

wherein the length of the adjustable connecting component is adjustable so as to be suitable for connecting the building structure with the outer frames with different sizes.

2. A epicycleable add-on wall attachment apparatus according to claim 1, wherein the building structure has a first floor and a second floor below the first floor, and the plurality of adjustable connection assemblies are divided into two groups, one group being for connecting the first floor to the outrigger and the other group being for connecting the second floor to the outrigger.

3. The epicycleable outrigger wall attachment device of claim 1, wherein the adjustable connection assembly comprises:

the embedded part is embedded in the building structure body; and

one end of the sleeve assembly is detachably connected with the embedded part; and

and one end of the adjusting steel pipe is arranged at the other end of the sleeve component in a telescopic mode, and the other end of the adjusting steel pipe is connected with the outer frame.

4. The epicycleable external frame wall attachment of claim 3, wherein the sleeve assembly comprises:

the end plate is detachably connected with the embedded part; and

the sleeve is arranged on the end plate, and the adjusting steel pipe is arranged in the sleeve in a telescopic mode.

5. The epicycleable external frame wall attachment apparatus of claim 4, wherein the adjustable connection assembly further comprises chemical bolts by which the embedment and the end plate are connected.

6. The rotatable externally-attached type outer frame wall-attached device according to claim 4, wherein a threaded hole is formed in the sleeve, an external thread is formed in the outer periphery of the adjusting steel pipe, the adjusting steel pipe is in threaded connection with the threaded hole, and the whole length of the adjustable connecting component can be adjusted by rotating the adjusting steel pipe.

7. The rotatable externally-attached type outer frame wall-attached device according to claim 6, further comprising an anti-slip clamp plate, wherein the anti-slip clamp plate is sleeved on the adjusting steel pipe, and after the overall length of the adjustable connecting assembly is adjusted to a proper length, the anti-slip clamp plate is fixedly connected with the sleeve and the adjusting steel pipe so as to limit the overall length of the adjustable connecting assembly to the proper length.

8. The epicycleable exo-frame wall attachment apparatus of claim 2, wherein the exo-frame comprises:

the first support frame is arranged corresponding to the first floor; and

the second supporting frame is arranged corresponding to the second floor;

the connecting joint is used for connecting the first support frame and the second support frame into a whole;

wherein, but a set of debugging coupling assembling is used for connecting first floor with first support frame, but another group debugging coupling assembling is used for connecting the second floor with the second support frame.

9. The epicycleable outrigger wall attachment device of claim 8 wherein the first support frame comprises:

four upright posts which are distributed in a rectangular array; and

the # -shaped frame is formed by splicing four supporting cross beams; and

the clamp is arranged at the joint of the upright post and the # -shaped frame and is used for fixing the # -shaped frame on the upright post; and

the supporting plate is arranged on the # -shaped frame.

10. The epicyclable outrigger wall attachment device of claim 9 wherein the second outrigger is structurally identical to the first outrigger.

Images