CN217537485U - Module and steel construction floor coupling mechanism - Google Patents

Abstract

The application provides a connecting mechanism of a module and a steel structure floor slab, which comprises a shear resisting component, wherein the bottom and the middle of the shear resisting component are respectively provided with a first connecting area and a second connecting area; the first connecting assembly and the second connecting assembly are respectively arranged on the first connecting area and the second connecting area; still be provided with adjusting part and packing subassembly between first coupling assembling and the second coupling assembling respectively, adjusting part is used for adjusting second coupling assembling's roughness. This application is through the subassembly that shears that sets up, cooperates first coupling assembling and second coupling assembling, can form a frame earlier, and through adjusting part, cooperation determine module has guaranteed second coupling assembling's roughness, has adjusted second coupling assembling after, pulls down determine module, packs the packing subassembly, has realized the preparation of steel construction floor, through this kind of technology, effectively solves the roughness problem of steel construction floor.

Description

Module and steel construction floor coupling mechanism

Technical Field

The utility model relates to a floor technical field particularly, relates to a module and steel construction floor coupling mechanism.

Background

The floor slab generally refers to a prefabricated slab, namely, the floor slab used in the early buildings in the 20 th century, namely, a module or a plate used for engineering. Because the concrete prefabricated member is produced and processed in a prefabricating field and is directly transported to a construction site for installation, the prefabricated member is called a prefabricated plate.

However, when the modular floor slab is manufactured, in order to ensure the quality of the floor slab, the flatness of the floor slab is required, and the flatness of the floor slab cannot be well ensured by the conventional floor slab manufacturing. Therefore, the improvement is made, and the connecting mechanism of the module and the steel structure floor slab is provided.

Disclosure of Invention

The utility model aims to provide a: the modular floor slab has the advantages that the requirement on the flatness of the floor slab is met in order to ensure the quality of the floor slab when the existing modular floor slab is manufactured, and the flatness of the existing floor slab cannot be well guaranteed.

In order to achieve the purpose of the invention, the utility model provides the following technical scheme:

module and steel construction floor coupling mechanism to improve above-mentioned problem.

The present application is particularly such that:

the anti-shearing module comprises a shearing assembly, wherein a first connecting area and a second connecting area are respectively arranged at the bottom and the middle of the shearing assembly;

the first connecting assembly and the second connecting assembly are respectively arranged at the first connecting area and the second connecting area;

still be provided with adjusting part and packing subassembly between first coupling assembling and the second coupling assembling respectively, adjusting part is used for adjusting second coupling assembling's roughness, the packing subassembly is used for filling by the interval that forms between first coupling assembling and the second coupling assembling.

As a preferred technical scheme, the shear assembly consists of two shear pieces.

As the preferred technical scheme of this application, first connecting component is the pterygoid lamina, and two shear connectors install respectively the equidistance with the middle part of pterygoid lamina top.

As the preferred technical scheme of this application, second coupling assembling includes upper portion box node box connecting plate, upper portion box node box connecting plate is located the top of pterygoid lamina, the top of upper portion box node box connecting plate is provided with upper portion box node box bottom plate, and upper portion box node box connecting plate and upper portion box node box bottom plate all seted up with the piece assorted fluting that shears.

As the preferred technical scheme of this application, adjusting part includes two bolts, and pterygoid lamina, upper portion box node box connecting plate and upper portion box node box bottom plate are passed respectively in proper order to the one end of two bolts, it has three gasket to alternate on the bolt, threaded connection has two fixation nut on the bolt, first the gasket is located between one of them fixation nut and the pterygoid lamina, and second gasket is located between another fixation nut and the upper portion box node box bottom plate, it has leveling nut still threaded connection on the bolt, and the third gasket is located between leveling nut and the upper portion box node box connecting plate.

As the preferred technical scheme of this application, pack the subassembly and be concrete layer, and concrete layer fills between pterygoid lamina and upper portion box node box connecting plate.

As the preferable technical scheme of the application, the first connecting assembly is further provided with a detecting assembly for detecting the flatness.

As the preferred technical scheme of this application, determine module includes the U-shaped piece, the U-shaped piece sets up on second coupling assembling, bottom in the U-shaped piece is provided with the clamp plate, and sets up by cavity and upper portion box node box connecting plate and upper portion box node box bottom plate phase-match that form between clamp plate and the U-shaped piece, the bottom of U-shaped piece is provided with the pull rod, and the one end of pull rod penetrate in the U-shaped piece and with the middle part fixed connection of clamp plate bottom, the bottom mounting in the U-shaped piece is equipped with the spring, and the spring cup joints on the pull rod, the top of U-shaped piece is inlayed and is equipped with the spirit level.

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

in the scheme of the application:

through the subassembly that shears that sets up, a frame can be constituteed earlier in cooperation first coupling assembling and second coupling assembling, through adjusting part, coordinates determine module, has guaranteed second coupling assembling's roughness, has adjusted second coupling assembling after, pulls down determine module, fills the packing subassembly, has realized the preparation of steel construction floor, through this kind of technology, effectively solves the roughness problem of steel construction floor.

Drawings

Fig. 1 is a schematic cross-sectional structure view of a finished product of a connecting mechanism for a module and a steel structure floor slab provided by the present application;

FIG. 2 is a schematic view of a cross-sectional partial structure of a module and steel structure floor connection mechanism provided in the present application;

fig. 3 is a schematic cross-sectional structure diagram of a semi-finished product of the connection mechanism of the module and the steel structure floor slab provided by the application;

FIG. 4 is the module that this application provided and steel construction floor coupling mechanism's semi-manufactured goods section detection subassembly's structure sketch map.

The following are marked in the figure:

1. a shear assembly;

2. a first connection assembly;

3. a second connection assembly; 301. an upper box node box connecting plate; 302. a bottom plate of an upper box body node box;

4. an adjustment assembly; 401. a bolt; 402. a gasket; 403. fixing a nut; 404. a leveling nut;

5. a fill assembly;

6. a detection component; 601. a U-shaped block; 602. pressing a plate; 603. a pull rod; 604. a spring; 605. a level gauge.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them.

Thus, the following detailed description of the embodiments of the present invention is not intended to limit the scope of the invention as claimed, but is merely representative of some embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that, in the present invention, the embodiments and the features and technical solutions in the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined or explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, orientations or positional relationships that are usually placed when the product of the present invention is used, or orientations or positional relationships that are usually understood by those skilled in the art, and such terms are only used for convenience of description and simplification of the description, and do not indicate or imply that the device or element indicated must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the present embodiment provides a module and steel structure floor slab connection mechanism, which includes a shear assembly 1, wherein a first connection area and a second connection area are respectively disposed at the bottom and the middle of the shear assembly;

the first connecting component 2 and the second connecting component 3 are respectively arranged on the first connecting area and the second connecting area;

an adjusting component 4 and a filling component 5 are respectively arranged between the first connecting component 2 and the second connecting component 3, the adjusting component 4 is used for adjusting the flatness of the second connecting component 3, and the filling component 5 is used for filling the interval formed between the first connecting component 2 and the second connecting component 3.

As shown in fig. 1 and 3, in addition to the above-mentioned manner, the shear assembly 1 is further composed of two shear pieces as a preferred embodiment.

As shown in fig. 1, 2 and 3, as a preferred embodiment, based on the above-mentioned manner, further, the first connecting component 2 is a wing panel, and two shear resistant members are respectively installed at equal intervals in the middle of the top end of the wing panel.

As shown in fig. 1, 2, 3 and 4, as a preferred embodiment, on the basis of the above manner, further, the second connection assembly 3 includes an upper box node box connection plate 301, the upper box node box connection plate 301 is located at the top of the wing plate, an upper box node box bottom plate 302 is disposed at the top of the upper box node box connection plate 301, and both the upper box node box connection plate 301 and the upper box node box bottom plate 302 are provided with slots matched with the shear pieces.

As shown in fig. 1, 2 and 3, as a preferred embodiment, based on the above manner, further, the adjusting assembly 4 includes two bolts 401, one end of each bolt 401 sequentially passes through the wing plate, the upper box node box connecting plate 301 and the upper box node box bottom plate 302, three washers 402 are inserted on the bolts 401, two fixing nuts 403 are connected on the bolts 401 by screw threads, a first washer 402 is located between one fixing nut 403 and the wing plate, a second washer 402 is located between the other fixing nut 403 and the upper box node box bottom plate 302, a leveling nut 404 is further connected on each bolt 401 by screw threads, and a third washer 402 is located between the leveling nut 404 and the upper box node box connecting plate 301, a bolt 401 is passed through a wing plate and sleeved with a washer 402, a fixing nut 403 is mounted on the bolt 401 so that the bolt 401 is fixed on the wing plate, a leveling nut 404 is mounted on the bolt 401, a washer 402 is sleeved, an upper box node box connecting plate 301 and an upper box node box bottom plate 302 are sequentially mounted on the bolt 401, the top end of the bolt 401 can be locked by the last washer 402 and the fixing nut 403 so that the upper box node box connecting plate 301 and the upper box node box bottom plate 302 are restrained on the bolt 401, and a shear member is sequentially passed through the upper box node box bottom plate 302 and the upper box node box connecting plate 301 and fixed with the wing plate.

As shown in fig. 1 and 2, in addition to the above-mentioned mode, the filling assembly 5 is further a concrete layer, and the concrete layer is filled between the wing plate and the upper box node box connecting plate 301.

As shown in fig. 3 and 4, in addition to the above-described embodiment, a detecting unit 6 for detecting flatness is further provided on the first connecting unit 2 as a preferred embodiment.

As shown in fig. 3 and 4, as a preferred embodiment, on the basis of the above manner, further, the detection assembly 6 includes a U-shaped block 601, the U-shaped block 601 is disposed on the second connection assembly 3, a pressing plate 602 is disposed at the bottom inside the U-shaped block 601, a cavity formed between the pressing plate 602 and the U-shaped block 601 is disposed to match with the upper tank node box connection plate 301 and the upper tank node box bottom plate 302, a pull rod 603 is disposed at the bottom of the U-shaped block 601, one end of the pull rod 603 penetrates into the U-shaped block 601 and is fixedly connected with the middle of the bottom end of the pressing plate 602, a spring 604 is fixedly disposed at the bottom inside the U-shaped block 601, the spring 604 is sleeved on the pull rod 603, a level gauge 605 is embedded at the top of the U-shaped block 601, the pull rod 603 is pulled, the pressing plate 602 is moved downward by the movement of the pull rod 603, the spring 604 is compressed, the upper tank node box connection plate 301 and the upper tank node box bottom plate 302 penetrate into the cavity formed between the U-shaped block 601 and the pressing plate 602, the pull rod 603 is released, the pressing plate 603 is reset by the spring, the pressing plate 602, the pressing plate 301, the upper tank node box connection plate 301 and the nut 605 is further, the detection assembly 6 is rotated, and the second connection assembly is adjusted to adjust the second connection assembly 404, and the second connection assembly to be level of the second connection assembly.

Specifically, this module and steel construction floor coupling mechanism are when during operation/use: a bolt 401 is passed through a wing plate and sleeved with a washer 402, a fixing nut 403 is mounted on the bolt 401 so that the bolt 401 is fixed on the wing plate, a leveling nut 404 is mounted on the bolt 401, a washer 402 is sleeved, an upper box node box connecting plate 301 and an upper box node box bottom plate 302 are sequentially mounted on the bolt 401, the top end of the bolt 401 can be locked by the last washer 402 and the fixing nut 403 so that the upper box node box connecting plate 301 and the upper box node box bottom plate 302 are restrained on the bolt 401, a shear member is sequentially passed through the upper box node box bottom plate 302 and the upper box node box connecting plate 301 and fixed with the wing plate, at this time, a pull rod 603 is pulled, the pressing plate 602 can be driven to move downwards along with the movement of the pull rod 603, the spring 604 is compressed, the upper box node box connecting plate 301 and the upper box node box bottom plate 302 penetrate into a cavity formed between the U-shaped block 601 and the pressing plate 602, the pull rod 603 is loosened, under the reset action of the spring 604, the pressing plate 602 presses the upper box node box connecting plate 301, further the detection assembly 6 is fixed, the leveling nut 404 is rotated, the level gauge 605 is matched, the second connecting assembly 3 can be adjusted, the flatness of the second connecting assembly 3 is guaranteed, after the second connecting assembly 3 is adjusted, the detection assembly 6 is detached, a concrete layer is filled, the manufacturing of a steel structure floor slab is realized, and through the process, the flatness problem of the steel structure floor slab is effectively solved.

The above embodiments are only used to illustrate the present invention and not to limit the technical solutions described in the present invention, and although the present invention has been described in detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and therefore, any modification or equivalent replacement may be made to the present invention; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.

Claims (8)

1. A module and steel structure floor slab connection mechanism comprises a shear assembly (1) and is characterized in that the bottom and the middle of the module are respectively provided with a first connection area and a second connection area;

the connecting device comprises a first connecting component (2) and a second connecting component (3), wherein the first connecting component (2) and the second connecting component (3) are respectively arranged at a first connecting area and a second connecting area;

still be provided with between first coupling assembling (2) and the second coupling assembling (3) respectively and adjust subassembly (4) and fill subassembly (5), adjust the roughness that subassembly (4) are used for adjusting second coupling assembling (3), fill subassembly (5) and be used for filling the interval that is formed between by first coupling assembling (2) and second coupling assembling (3).

2. A module to steel structural floor connection according to claim 1, wherein the shear assembly (1) consists of two shear blocks.

3. A module and steel structure floor slab connection mechanism according to claim 2, wherein the first connection assembly (2) is a wing plate, and two shear resistant members are respectively installed at equal intervals in the middle of the top end of the wing plate.

4. The connecting mechanism of the module and the steel structure floor slab as claimed in claim 3, wherein the second connecting assembly (3) comprises an upper box node box connecting plate (301), the upper box node box connecting plate (301) is located at the top of the wing plate, an upper box node box bottom plate (302) is arranged at the top of the upper box node box connecting plate (301), and the upper box node box connecting plate (301) and the upper box node box bottom plate (302) are both provided with a groove matched with the shear-resistant member.

5. A module and steel structure floor slab connection mechanism according to claim 4, characterized in that the adjustment assembly (4) includes two bolts (401), one end of the two bolts (401) passes through the wing plate, the upper box node box connection plate (301) and the upper box node box bottom plate (302) respectively in turn, three gaskets (402) are inserted on the bolts (401), two fixing nuts (403) are connected on the bolts (401) in a threaded manner, the first gasket (402) is located between one of the fixing nuts (403) and the wing plate, the second gasket (402) is located between the other fixing nut (403) and the upper box node box bottom plate (302), a leveling nut (404) is further connected on the bolt (401) in a threaded manner, and the third gasket (402) is located between the leveling nut (404) and the upper box node box connection plate (301).

6. A module and steel structure floor connection according to claim 5, characterized in that the said filling member (5) is a concrete layer, and the concrete layer is filled between the wing plate and the upper box node box connection plate (301).

7. A module and steel structure floor slab connection mechanism according to claim 6, characterized in that the first connection assembly (2) is further provided with a detection assembly (6) for detecting flatness.

8. The connecting mechanism of the module and the steel structure floor slab as claimed in claim 7, wherein the detecting component (6) comprises a U-shaped block (601), the U-shaped block (601) is arranged on the second connecting component (3), a pressing plate (602) is arranged at the bottom in the U-shaped block (601), a cavity formed between the pressing plate (602) and the U-shaped block (601) is matched with the upper box node box connecting plate (301) and the upper box node box bottom plate (302), a pull rod (603) is arranged at the bottom of the U-shaped block (601), one end of the pull rod (603) penetrates into the U-shaped block (601) and is fixedly connected with the middle of the bottom end of the pressing plate (602), a spring (604) is fixedly arranged at the bottom end in the U-shaped block (601), the spring (604) is sleeved on the pull rod (603), and a level gauge (605) is embedded at the top end of the U-shaped block (601).

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