CN218116908U - Prefabricated plate coupling assembling and prefabricated plate connection structure - Google Patents

Abstract

The utility model discloses a prefabricated plate coupling assembling and prefabricated plate connection structure, including first prefabricated plate and second prefabricated plate, first prefabricated plate and second prefabricated plate form the connection through unsmooth mosaic structure, and make the height of first prefabricated plate and second prefabricated plate the same after connecting, simultaneously, the upper end of first prefabricated plate and second prefabricated plate is equipped with the last fixed establishment that can further improve both firm in connection degree, the lower extreme of first prefabricated plate and second prefabricated plate is equipped with the lower fixed establishment that can further improve both firm in connection degree, and this coupling assembling and prefabricated plate connection structure can pass through connection structure, can carry out comparatively simple and convenient and firm connection with two to can be applicable to the occasion that a plurality of prefabricated plates have different requirements to length better.

Description

Prefabricated plate coupling assembling and prefabricated plate connection structure

Technical Field

The utility model belongs to the technical field of building prefabricated plate structure technique and specifically relates to a prefabricated plate coupling assembling and prefabricated plate connection structure are related to.

Background

With the development of technology and the improvement of safety consciousness of people, the original floor type building prefabricated slab is gradually replaced by a frame type building prefabricated slab with higher safety performance, the frame type building prefabricated slab is a composite floor slab, and the composite floor slab is an assembled integral floor slab formed by laminating the prefabricated slab and a cast-in-place reinforced concrete layer. The composite floor slab has good integrity, the upper and lower surfaces of the slab are smooth, decoration of a finish coat is facilitated, and the composite floor slab is suitable for high-rise buildings and large-bay buildings with high integral rigidity requirements. The structure, the length and the width of the existing composite floor slab are customized, if special occasions with insufficient length of the composite floor slab on some sites are met, the composite floor slab needs to be customized according to actual conditions, so that the construction progress can be influenced, and the construction efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses just to above-mentioned problem, provide a prefabricated plate coupling assembling and prefabricated plate connection structure, this prefabricated plate coupling assembling and prefabricated plate connection structure can be through connection structure, can carry out comparatively simple and convenient and firm connection with two prefabricated plates to can be applicable to a plurality of occasions that have different requirements to length better.

In order to achieve the technical purpose, the utility model discloses a prefabricated plate coupling assembling and prefabricated plate connection structure, including first prefabricated plate and second prefabricated plate, first prefabricated plate and second prefabricated plate form the connection through unsmooth mosaic structure, and make the height of first prefabricated plate and second prefabricated plate the same after connecting, and simultaneously, the upper end of first prefabricated plate and second prefabricated plate is equipped with the last fixed establishment that can further improve both firm in connection, the lower extreme of first prefabricated plate and second prefabricated plate is equipped with the lower fixed establishment that can further improve both firm in connection.

As the utility model discloses a preferred, unsmooth mosaic structure includes: the first splicing groove is positioned on the right side of the upper end of the first precast slab, and the first splicing boss is positioned on the right side of the first splicing groove and is lower than the upper end face of the first precast slab in height;

the second splicing groove is positioned on the left side of the lower end of the second precast slab, and the second splicing boss is positioned on the left side of the second splicing groove and is lower than the lower end face of the second precast slab;

the first splicing groove is just large enough to enable the second splicing boss to be completely embedded; the size of the second splicing groove is just enough to enable the first splicing boss to be completely embedded, so that the first prefabricated plate and the second prefabricated plate form a connector structure with the same height;

the upper fixing structure includes: the prefabricated plate structure comprises a first transverse embedded groove and a second transverse embedded groove, wherein the first transverse embedded groove is positioned at the upper end of a first prefabricated plate, the second transverse embedded groove is positioned at the upper end of a second prefabricated plate and has the same size as the first transverse embedded groove, when the first prefabricated plate and the second prefabricated plate form a connector structure, the right side of the first transverse embedded groove is contacted with the left side of the second transverse embedded groove, an upper fixed embedded plate just can be completely embedded into the first transverse embedded groove and the second transverse embedded groove, and after the upper fixed embedded plate is completely embedded into the first transverse embedded groove and the second transverse embedded groove, the upper fixed embedded plate is firmly connected into the first transverse embedded groove and the second transverse embedded groove through a screw and a fixed hole structure;

the lower fixing structure includes: the lower fixing embedded plate is characterized by comprising a third transverse embedded groove and a fourth transverse embedded groove, wherein the third transverse embedded groove is located at the lower end of the first prefabricated plate, the fourth transverse embedded groove is located at the lower end of the second prefabricated plate, has the same size as the third transverse embedded groove, and is in contact with the left side of the fourth transverse embedded groove when the first prefabricated plate and the second prefabricated plate form a connector structure.

As a further preference of the present invention, the upper and lower fixed insertion plates have the same length and width, and the width of the upper and lower fixed insertion plates is smaller than the width of the first and second prefabricated plates.

As a further preferred aspect of the present invention, the first splicing boss and the second splicing boss are rectangular structures or trapezoidal structures.

The utility model discloses the mosaic structure of gomphosis each other is set up in the upper and lower end of two prefabricated plates for two prefabricated plates form an overall structure, and fixed embedded plate structure about the upper end of two prefabricated plates and lower extreme set up respectively simultaneously can further improve the firm in connection degree of two prefabricated plates, thereby can be applicable to a plurality of occasions that have different requirements to length better.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional splicing structure of the present invention;

FIG. 2 is a transverse cross-sectional view of the first prefabricated panel and the second prefabricated panel of the present invention;

FIG. 3 is a top view of the present invention;

wherein, 1, a first precast slab; 2. a second prefabricated panel; 3. a first splicing groove; 4. a first splicing boss; 5. a second splicing groove; 6. a second splicing boss; 7. a first transverse embedded groove; 8. a second transverse embedded groove; 9. an upper fixed embedded plate; 10. a third transverse embedded groove; 11. a fourth transverse embedded groove; 12. the lower fixing embedded plate.

Detailed Description

In order to make the purpose and technical solution of the present invention clearer, the present invention is further described below by taking some data as an example in conjunction with the accompanying drawings. It should be understood that the partial data selected herein is only used to aid in the explanation of the present invention, and is not used to limit the present invention.

As can be known by combining the drawings of FIG. 1 and FIG. 2, the prefabricated panel connecting assembly and the prefabricated panel connecting structure comprise a first prefabricated panel 1 and a second prefabricated panel 2, wherein the first prefabricated panel 1 and the second prefabricated panel 2 are connected through a concave-convex splicing structure, the first prefabricated panel 1 and the second prefabricated panel 2 are identical in height after being connected, meanwhile, an upper fixing mechanism capable of further improving the connection firmness of the first prefabricated panel 1 and the second prefabricated panel 2 is arranged at the upper ends of the first prefabricated panel 1 and the second prefabricated panel 2, and a lower fixing mechanism capable of further improving the connection firmness of the first prefabricated panel 1 and the second prefabricated panel 2 is arranged at the lower ends of the first prefabricated panel 1 and the second prefabricated panel 2.

The utility model discloses in, preferred unsmooth mosaic structure includes: the first splicing groove 3 is positioned on the right side of the upper end of the first precast slab 1, the first splicing boss 4 is positioned on the right side of the first splicing groove 3, and the height of the first splicing boss 4 is lower than that of the upper end face of the first precast slab 1;

unsmooth mosaic structure still includes: the second splicing groove 5 is positioned on the left side of the lower end of the second precast slab 2, the second splicing boss 6 is positioned on the left side of the second splicing groove 5, and the height of the second splicing boss 6 is lower than that of the lower end face of the second precast slab 2.

In the structure, the size of the first splicing groove 3 is just enough to enable the second splicing boss 6 to be completely embedded; the second splicing groove 5 is just large enough to completely embed the first splicing boss 4, so that the first prefabricated plate 1 and the second prefabricated plate 2 form an interface structure with consistent height.

The above structure of the utility model, first concatenation boss 4 and second concatenation boss 6 are the rectangle structure, or are the trapezium structure, all belong to the utility model discloses an in the protection category.

In the present invention, the preferable upper fixing structure includes: the first horizontal embedded groove 7 that is located the upper end of the first prefabricated panel 1, and the second horizontal embedded groove 8 that is located the upper end of the second prefabricated panel 2 and has the same size as the first horizontal embedded groove 7, when the first prefabricated panel 1 and the second prefabricated panel 2 form a connector structure, the right side of the first horizontal embedded groove 7 and the left side of the second horizontal embedded groove 8 contact, an upper fixed embedded plate 9 that just can be completely embedded into the first horizontal embedded groove 7 and the second horizontal embedded groove 8, after it is completely embedded into the first horizontal embedded groove 7 and the second horizontal embedded groove 8, the upper fixed embedded plate 9 is firmly connected into the first horizontal embedded groove 7 and the second horizontal embedded groove 8 through a screw and a fixed hole structure.

The utility model discloses in, preferred lower fixed knot constructs includes: a third lateral embedding groove 10 located at the lower end of the first prefabricated panel 1, and a fourth lateral embedding groove 11 located at the lower end of the second prefabricated panel 2 and having the same size as the third lateral embedding groove 10, when the first prefabricated panel 1 and the second prefabricated panel 2 form a connector structure, the right side of the third lateral embedding groove 10 and the left side of the fourth lateral embedding groove 11 are contacted, a lower fixing embedding plate 12 just capable of being completely embedded into the third lateral embedding groove 10 and the fourth lateral embedding groove 11, and after being completely embedded into the third lateral embedding groove 10 and the fourth lateral embedding groove 11, the lower fixing embedding plate 12 is firmly connected into the third lateral embedding groove 10 and the fourth lateral embedding groove 11 through a screw and a fixing hole structure.

The above structure of the present invention is that the length and width of the upper fixing embedded plate 9 and the lower fixing embedded plate 12 are the same, and the width of the upper fixing embedded plate 9 and the lower fixing embedded plate 12 is smaller than the width of the first prefabricated plate 1 and the second prefabricated plate 2 (see fig. 3).

The utility model discloses an above-mentioned structure sets up the mosaic structure that can gomphosis each other in the upper and lower end of two prefabricated plates for two prefabricated plates form an overall structure, and fixed embedding board structure about setting up respectively simultaneously in the upper end of two prefabricated plates and lower extreme can further improve the firm in connection degree of two prefabricated plates, thereby can be applicable to a plurality of occasions that have different requirements to length better.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (3)

1. A prefabricated panel connecting assembly and a prefabricated panel connecting structure comprise a first prefabricated panel and a second prefabricated panel, and are characterized in that the first prefabricated panel and the second prefabricated panel are connected through a concave-convex splicing structure, the first prefabricated panel and the second prefabricated panel are identical in height after being connected, an upper fixing mechanism capable of further improving the connection firmness of the first prefabricated panel and the second prefabricated panel is arranged at the upper ends of the first prefabricated panel and the second prefabricated panel, a lower fixing mechanism capable of further improving the connection firmness of the first prefabricated panel and the second prefabricated panel is arranged at the lower ends of the first prefabricated panel and the second prefabricated panel,

the concave-convex splicing structure comprises: the first splicing groove is positioned on the right side of the upper end of the first precast slab, and the first splicing boss is positioned on the right side of the first splicing groove and is lower than the upper end face of the first precast slab in height;

the second splicing groove is positioned on the left side of the lower end of the second precast slab, and the second splicing boss is positioned on the left side of the second splicing groove and is lower than the lower end face of the second precast slab;

the first splicing groove is just large enough to enable the second splicing boss to be completely embedded; the size of the second splicing groove is just enough to enable the first splicing boss to be completely embedded, so that the first prefabricated plate and the second prefabricated plate form a connector structure with the same height;

the upper fixing mechanism includes: the prefabricated plate structure comprises a first transverse embedded groove and a second transverse embedded groove, wherein the first transverse embedded groove is positioned at the upper end of a first prefabricated plate, the second transverse embedded groove is positioned at the upper end of a second prefabricated plate and has the same size as the first transverse embedded groove, when the first prefabricated plate and the second prefabricated plate form a connector structure, the right side of the first transverse embedded groove is contacted with the left side of the second transverse embedded groove, an upper fixed embedded plate just can be completely embedded into the first transverse embedded groove and the second transverse embedded groove, and after the upper fixed embedded plate is completely embedded into the first transverse embedded groove and the second transverse embedded groove, the upper fixed embedded plate is firmly connected into the first transverse embedded groove and the second transverse embedded groove through a screw and a fixed hole structure;

the lower fixing mechanism includes: the lower fixing embedded plate is characterized by comprising a third transverse embedded groove and a fourth transverse embedded groove, wherein the third transverse embedded groove is located at the lower end of the first prefabricated plate, the fourth transverse embedded groove is located at the lower end of the second prefabricated plate, has the same size as the third transverse embedded groove, and is in contact with the left side of the fourth transverse embedded groove when the first prefabricated plate and the second prefabricated plate form a connector structure.

2. The prefabricated panel coupling assembly and the prefabricated panel coupling structure of claim 1, wherein the upper and lower fixing-embedded plates have the same length and width, and the upper and lower fixing-embedded plates have a width smaller than the width of the first and second prefabricated panels.

3. The prefabricated panel connecting assembly and the prefabricated panel connecting structure of claim 1, wherein the first splicing boss and the second splicing boss have a rectangular structure or a trapezoidal structure.

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