阅读说明：本技术 一种装配式楼承板及装配式楼承板组件 (Assembled building carrier plate and assembled building carrier plate subassembly ) 是由 孙刚 张赞 陶红斌 王保强 于 2020-03-24 设计创作，主要内容包括：本发明实施例提供一种装配式楼承板及装配式楼承板组件,其中,装配式楼承板包括：楼承板板体,楼承板板体具有相背设置的第一面及第二面,第一面用于可拆卸连接钢筋桁架；一个或多个第一支撑件,第一支撑件连接在第二面上且一端伸出楼承板板体；一个或多个第二支撑件,第二支撑件连接在第二面上,第二支撑件与另一楼承板板体相邻的一端形成弯折结构,弯折结构与第二面之间形成插接空间；其中,至少一个第二支撑件与至少一个第一支撑件分别位于楼承板板体的相对两侧。本发明实施例提供的技术方案,楼承板通过第一支撑件插接在相邻楼承板的插接空间内,以支撑相邻的楼承板板体,第二支撑件通过弯折结构支撑相邻的楼承板板体上的第一支撑件。(The embodiment of the invention provides an assembly type floor bearing plate and an assembly type floor bearing plate assembly, wherein the assembly type floor bearing plate comprises: the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface is used for detachably connecting the steel bar truss; one or more first supporting pieces, wherein the first supporting pieces are connected to the second surface, and one end of each first supporting piece extends out of the floor support plate body; one or more second supporting pieces are connected to the second face, a bending structure is formed at one end, adjacent to the other floor bearing plate body, of each second supporting piece, and an inserting space is formed between each bending structure and the second face; wherein, at least one second support piece and at least one first support piece are located the relative both sides of floor support plate body respectively. According to the technical scheme provided by the embodiment of the invention, the floor support plates are inserted into the insertion spaces of the adjacent floor support plates through the first supporting pieces so as to support the adjacent floor support plate bodies, and the second supporting pieces support the first supporting pieces on the adjacent floor support plate bodies through the bent structures.)

1. An assembly floor deck, comprising:

the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface is used for detachably connecting the steel bar truss;

one or more first supporting pieces, wherein the first supporting pieces are connected to the second surface, and one end of each first supporting piece extends out of the floor support plate body;

one or more second supporting pieces are connected to the second face, a bent structure is formed at one end, adjacent to the other floor support plate body, of each second supporting piece, and an inserting space is formed between each bent structure and the second face;

wherein, at least one the second support piece with at least one the first support piece is located respectively the relative both sides of floor board plate body.

2. The fabricated floor deck of claim 1, wherein the first supports are each located on a same side of the second face and extend beyond a same side of the floor deck plate.

3. The floor support plate of claim 2, wherein the second supports are each located on an opposite side of the second face from the first support.

4. The fabricated floor deck of claim 1, wherein a portion of the first support member extends beyond one side of the floor deck plate and another portion of the first support member extends beyond another side of the floor deck plate.

5. The fabricated floor support plate of claim 4, wherein at least a portion of the first support member is positioned to correspond to the other side of the first support member.

6. The fabricated floor support plate of claim 5, wherein at least a portion of the two first supporting members disposed at corresponding positions are integrally formed.

7. The fabricated floor support plate according to any one of claims 1 to 6, wherein at least a portion of the second support members disposed opposite to the first support members is disposed corresponding to the first support members on the other side.

8. The fabricated floor support plate of claim 7, wherein at least a portion of the first support member and the second support member are integrally formed.

9. The fabricated floor deck according to any one of claims 1 to 6, wherein when a plurality of the second supporters are respectively disposed at both sides of the floor deck plate body, at least a portion of the second supporters are disposed corresponding to the second supporters at the other side.

10. The fabricated floor deck according to claim 9, wherein at least a portion of the two second supporting members disposed at corresponding positions are integrally formed.

11. The fabricated floor deck according to any one of claims 1 to 6, wherein the bending structure comprises a connecting section and a bearing section;

two ends of the connecting section are respectively connected with the second supporting piece and one end of the bearing section, and an included angle which is larger than or equal to 90 degrees and smaller than 180 degrees is formed between the connecting section and the second supporting piece;

the other end of the bearing section extends in a direction away from the second support.

12. The fabricated floor deck of claim 11 wherein an end of the carrier segment facing away from the connector segment has a beveled guide edge extending obliquely away from the second face.

13. The fabricated floor deck according to any one of claims 1 to 6, wherein the edge of the first support is provided with a first flange extending away from the second face; and/or

The second supporting piece comprises a connecting plate and the bending structure connected with the connecting section, and a second folded edge extending in the direction away from the second surface is arranged at the edge of the connecting plate.

14. The fabricated floor deck of claim 13 wherein an end of the first flange is provided with a first reinforcing flange; and/or

And a second reinforcing edge is arranged at the end part of the second folded edge.

15. The fabricated floor deck according to any one of claims 1 to 6, wherein a steel bar truss and a connector link are detachably connected to the first surface of the floor deck plate;

the connecting buckle is provided with a clamping groove, and the clamping groove is clamped with the steel bar truss;

the first supporting piece and the second supporting piece are both provided with fixing holes, the floor support plate body is provided with connecting holes, and one end of the fastener is connected with the connecting buckle through the fixing holes and the connecting holes in sequence.

16. An assembly floor deck, comprising:

the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface is used for detachably connecting the steel bar truss;

the first supporting component comprises two paired first supporting pieces, the first supporting pieces are connected to the second face, the first supporting pieces are located on two opposite sides of the second face respectively in pairs and partially extend out of the side edges of two opposite sides of the floor support plate body respectively, and the length center lines of the first supporting pieces in pairs are located on the same straight line.

17. The fabricated floor deck of claim 16 wherein a single said first support is further disposed on at least one of the opposing sides of said second panel.

18. The fabricated floor support deck of claim 16 or 17 wherein the first support assembly is a plurality and pairs of two of the first supports in some of the first support assemblies are of unitary construction.

19. An assembly floor deck, comprising:

the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface can be used for detachably connecting the steel bar truss;

at least two second support pieces, second support piece is connected on the second face, and at least two second support piece is located respectively the relative both sides of floor deck plate body, second support piece and another the adjacent one end of floor deck plate body forms the structure of buckling, buckle the structure with form the grafting space between the second face.

20. The fabricated floor deck according to claim 19, wherein at least one of the second supporters is positioned corresponding to the second supporter on the other side to form a second supporter assembly, wherein the length center lines of two of the second supporters in the same second supporter assembly are positioned on the same straight line.

21. The fabricated floor deck of claim 20 wherein two of said second support members partially within the same second support assembly are of unitary construction.

22. An assembly floor deck assembly, comprising:

the first plate body is provided with two opposite surfaces, one surface of the first plate body is used for detachably connecting a steel bar truss, the other surface of the first plate body is connected with at least two first supporting pieces, the at least two first supporting pieces are respectively positioned on two opposite sides of the first plate body, and the first supporting pieces extend out of the first plate body;

the second plate body, the second plate body has two sides mutually, and wherein one side is used for dismantling the connection steel bar truss, and the another side is connected with two at least second support piece, two at least second support piece is located respectively the relative both sides of second plate body, second support piece with the adjacent one end of first plate body forms bending structure, bending structure with form the grafting space between the second plate body, the grafting space can with adjacent on the first plate body first support piece pegs graft.

23. The fabricated floor deck assembly of claim 22 wherein a portion of the first support extends beyond one side of the first panel and another portion of the first support extends beyond another side of the first panel.

24. The fabricated floor support plate assembly of claim 23, wherein at least one of the first supporting members is disposed corresponding to the other one of the first supporting members to form a first supporting assembly, wherein the length center lines of two of the first supporting members in the same first supporting assembly are located on the same straight line.

25. The fabricated floor support plate assembly of claim 24 wherein two of the first support members partially within the same first support assembly are of unitary construction.

26. The fabricated floor deck assembly of any one of claims 22-25 wherein a portion of the second support is located on one side of the second panel and another portion of the second support is located on another side of the second panel.

27. The fabricated floor deck assembly of claim 26 wherein at least one of the second support members is positioned to correspond to the second support member on the other side to form a second support assembly, wherein the length centerlines of two of the second support members in the same second support assembly are positioned on the same line.

28. The fabricated floor deck assembly of claim 27 wherein two of said second support members partially within the same second support assembly are of unitary construction.

Technical Field

The embodiment of the invention relates to the technical field of buildings, in particular to an assembly type floor support plate and an assembly type floor support plate assembly.

Background

Along with the continuous development of building trade, steel bar truss building carrier plate is used in various buildings gradually, and steel bar truss building carrier plate has accelerated the construction progress, has strengthened the supporting effect simultaneously.

In the prior art, according to the building specification of floor slab, a plurality of floor bearing plates provided with steel bar trusses are generally needed to be spliced and used on site. However, after the splicing of the existing floor bearing plates is completed, when concrete is poured, because of the weight of the concrete, dislocation can occur between the two floor bearing plates positioned at the two sides of the splicing seam, so that the poured floor is not flat.

Disclosure of Invention

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a fabricated decking board and a fabricated decking board assembly that solve the above problems.

The embodiment of the invention provides an assembled floor support plate, which comprises:

the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface is used for detachably connecting the steel bar truss;

one or more first supporting pieces, wherein the first supporting pieces are connected to the second surface, and one end of each first supporting piece extends out of the floor support plate body;

one or more second supporting pieces are connected to the second face, a bent structure is formed at one end, adjacent to the other floor support plate body, of each second supporting piece, and an inserting space is formed between each bent structure and the second face;

wherein, at least one the second support piece with at least one the first support piece is located respectively the relative both sides of floor board plate body.

Optionally, the first support members are located on the same side of the second face and extend out of the same side of the floor support plate body.

Optionally, the second supports are both located on the other side of the second face opposite to the first supports.

Optionally, a portion of the first support member extends out of one side of the floor support plate and another portion of the first support member extends out of the other side of the floor support plate.

Optionally, at least a part of the first support is arranged corresponding to the first support on the other side.

Optionally, at least a part of the two first supporting members correspondingly arranged in position are of an integrally formed structure.

Optionally, at least a part of the second support, which is arranged opposite to the first support, is arranged corresponding to the first support on the other side.

Optionally, at least a part of the first supporting member and the second supporting member which are correspondingly arranged are of an integrally formed structure.

Optionally, when the plurality of second supporting members are respectively disposed on two sides of the floor support plate body, at least a portion of the second supporting members is disposed corresponding to the second supporting members on the other side.

Optionally, at least a part of the two second supporting members correspondingly arranged in position are of an integrally formed structure.

Optionally, the bending structure includes a connecting section and a bearing section;

two ends of the connecting section are respectively connected with the second supporting piece and one end of the bearing section, and an included angle which is larger than or equal to 90 degrees and smaller than 180 degrees is formed between the connecting section and the second supporting piece;

the other end of the bearing section extends in a direction away from the second support.

Optionally, one end of the carrying section facing away from the connecting section has a guiding oblique edge extending obliquely away from the second face.

Optionally, the edge of the first support is provided with a first folded edge extending in a direction away from the second surface; and/or

The second supporting piece comprises a connecting plate and the bending structure connected with the connecting section, and a second folded edge extending in the direction away from the second surface is arranged at the edge of the connecting plate.

Optionally, the end of the first folded edge is provided with a first reinforcing edge; and/or

And a second reinforcing edge is arranged at the end part of the second folded edge.

Optionally, the first surface of the floor support plate body is detachably connected with a steel bar truss and a connecting buckle;

the connecting buckle is provided with a clamping groove, and the clamping groove is clamped with the steel bar truss;

the first supporting piece and the second supporting piece are both provided with fixing holes, the floor support plate body is provided with connecting holes, and one end of the fastener is connected with the connecting buckle through the fixing holes and the connecting holes in sequence.

Correspondingly, the embodiment of the invention also provides an assembled floor support plate, which comprises:

the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface is used for detachably connecting the steel bar truss;

the first supporting component comprises two paired first supporting pieces, the first supporting pieces are connected to the second face, the first supporting pieces are located on two opposite sides of the second face respectively in pairs and partially extend out of the side edges of two opposite sides of the floor support plate body respectively, and the length center lines of the first supporting pieces in pairs are located on the same straight line.

Optionally, a single first support member is further disposed on at least one of two opposite sides of the second surface.

Optionally, the number of the first supporting components is multiple, and a pair of two first supporting components in a part of the first supporting components are of an integrally-formed structure.

Correspondingly, the embodiment of the invention also provides an assembled floor support plate, which comprises:

the floor support plate body is provided with a first surface and a second surface which are arranged in a reverse manner, and the first surface can be used for detachably connecting the steel bar truss;

at least two second support pieces, second support piece is connected on the second face, and at least two second support piece is located respectively the relative both sides of floor deck plate body, second support piece and another the adjacent one end of floor deck plate body forms the structure of buckling, buckle the structure with form the grafting space between the second face.

Optionally, at least one of the second supporting members is disposed at a position corresponding to the second supporting member at the other side to form a second supporting assembly, wherein the length center lines of two of the second supporting members in the same second supporting assembly are located on the same straight line.

Optionally, two of the second supporting members partially located in the same second supporting assembly are of an integrally formed structure.

Correspondingly, the embodiment of the invention also provides an assembly type floor support plate assembly, which comprises:

the first plate body is provided with two opposite surfaces, one surface of the first plate body is used for detachably connecting a steel bar truss, the other surface of the first plate body is connected with at least two first supporting pieces, the at least two first supporting pieces are respectively positioned on two opposite sides of the first plate body, and the first supporting pieces extend out of the first plate body;

the second plate body, the second plate body has two sides mutually, and wherein one side is used for dismantling the connection steel bar truss, and the another side is connected with two at least second support piece, two at least second support piece is located respectively the relative both sides of second plate body, second support piece with the adjacent one end of first plate body forms bending structure, bending structure with form the grafting space between the second plate body, the grafting space can with adjacent on the first plate body first support piece pegs graft.

Optionally, a portion of the first supporting member extends out of one side of the first board, and another portion of the first supporting member extends out of the other side of the first board.

Optionally, at least one of the first supporting members and the first supporting member on the other side are correspondingly arranged to form a first supporting assembly, wherein the length center lines of two of the first supporting members in the same first supporting assembly are located on the same straight line.

Optionally, two of the first supporting members partially located in the same first supporting assembly are of an integrally formed structure.

Optionally, a part of the second supporting member is located on one side of the second plate, and another part of the second supporting member is located on the other side of the second plate.

Optionally, at least one of the second supporting members is disposed at a position corresponding to the second supporting member at the other side to form a second supporting assembly, wherein the length center lines of two of the second supporting members in the same second supporting assembly are located on the same straight line.

In addition, optionally, two second supporting pieces partially located in the same second supporting assembly are of an integrally-formed structure.

According to the technical scheme provided by the embodiment of the invention, when adjacent floor support plates are spliced, the first supporting piece on the floor support plate body is inserted into the insertion space of the adjacent floor support plate body so as to support the adjacent floor support plate body, meanwhile, the second supporting piece provides support for the first supporting piece on the adjacent floor support plate bodies through the bending structure, so that the supporting strength between the two floor support plates is enhanced, thereby enabling the two floor bearing plate bodies positioned at the two sides of the splicing seam to be supported, avoiding the situation that one floor bearing plate body is supported and the other floor bearing plate body is not supported, preventing the splicing seam between the two adjacent floor bearing plate bodies from being staggered when pouring concrete, and first support piece and second support piece can be demolishd along with the floor support plate body simultaneously to do not increase dismouting support piece's extra work load, make repeatedly usable's floor support plate body and support piece have more stable and efficient utilization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a fabricated floor deck according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

fig. 3 to 5 are schematic views illustrating an arrangement structure of the first supporting member and the second supporting member on the second surface of the floor support plate according to the embodiment of the present invention;

FIG. 6 is a schematic view of another embodiment of a fabricated floor deck according to the present invention;

FIG. 7 is an enlarged schematic view at B of FIG. 6;

FIG. 8 is a schematic cross-sectional view of a first support member or a second support member with a connecting plate according to an embodiment of the present invention;

FIG. 9 is an enlarged schematic view at C of FIG. 7;

FIG. 10 is a structural diagram of the first supporting member and the second supporting member being integrally formed according to the embodiment of the present invention;

fig. 11 is a schematic structural view of an assembly-type floor support plate according to an embodiment of the present invention, wherein the first supporting member and the second supporting member are integrally formed;

fig. 12 to 14 are schematic layout views of the first supporting member and the second supporting member of the second face of the floor support plate according to the embodiment of the present invention, which are integrally formed;

FIG. 15 is a schematic view of an assembly layout of upper support members of a floor support plate according to an embodiment of the present invention;

fig. 16 and 17 are schematic views illustrating an arrangement structure of an upper supporting member of an assembled floor support plate according to another embodiment of the present invention;

fig. 18 to 20 are schematic views illustrating an arrangement structure of a support member on a fabricated floor support plate according to another embodiment of the present invention;

fig. 21 is a schematic structural diagram of a floor deck assembly according to an embodiment of the present invention.

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 drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments obtained by persons of ordinary skill in the art based on the embodiments of the present invention without any creative efforts shall fall within the protection scope of the embodiments of the present invention.

The inventor finds that in the prior art, when the floor support plates are spliced for use, when concrete is poured, due to the weight of the concrete, dislocation occurs between the two floor support plates positioned on two sides of the splicing seam, so that the poured floor is uneven.

At present, one way to solve the problem of misalignment of the splice seams is to install a fixing plate below the splice seam of the floor deck. However, the installation and the disassembly of the fixing plate require a large amount of work, which greatly increases the construction cost. In another mode, a support plate is mounted under the floor deck in abutment. However, when the supporting plate is used for supporting, the supporting plate can be used for supporting the floor bearing plate on one side, the supporting plate on the other side is not used for supporting, and the splicing seam dislocation is still likely to occur when concrete is poured.

In view of the above problems, the embodiment of the invention provides a steel bar truss floor support plate, which is used for solving the problem of dislocation of splicing seams of the floor support plate.

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 are clearly and completely described below with reference to the accompanying drawings and specific embodiments. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first" and "second" in the description of the present invention are used merely for convenience in describing different components or names, and are not to be construed as indicating or implying a sequential relationship, relative importance, or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. For example, in the description appearing in the embodiment of the present invention, "position-corresponding arrangement" means that the center lines of two objects coincide, for example, the center lines in the length directions of the two objects coincide, or are located on the same straight line. "integrally formed structure" means a unitary structure, not an entirety formed by a connection.

Example 1

Fig. 1 is a schematic view of a steel bar truss floor deck according to an embodiment of the present invention, and fig. 2 is an enlarged view of a point a in fig. 1, as shown in fig. 1 and 2.

The embodiment of the invention provides an assembled floor support plate, which comprises: a floor support plate 10, a first support 20 and a second support 30.

The floor bearing plate body 10 is provided with a first surface 11 and a second surface 12 which are arranged in a back-to-back mode, and the first surface 11 is used for being detachably connected with a steel bar truss 13. The first support 20 is one or more, and the first support 20 is connected to the second surface 12 and has one end extending out of the floor board 10. The number of the second supporting members 30 is one or more, the second supporting members 30 are connected to the second face 12, a bent structure 31 is formed at one end of the second supporting member 30 adjacent to another floor deck plate 10, and an insertion space is formed between the bent structure 31 and the second face 12. Wherein, the at least one second supporting member 30 and the at least one first supporting member 20 are respectively located at two opposite sides of the floor plate body 10. The first support 10 of the floor support plate 10 can be inserted into the insertion space of another adjacent floor support plate, and the insertion space can be inserted into the first support 20 of another adjacent floor support plate 10.

According to the technical scheme provided by the embodiment of the invention, when adjacent floor support plates are spliced, the first supporting piece 20 on the floor support plate body 10 is inserted into the insertion space of the adjacent floor support plate body to support the adjacent floor support plate body 10, meanwhile, the second supporting piece 30 supports the first supporting piece 20 on the adjacent floor support plate body 10 through the bending structure 31, so that the supporting strength between the two floor support plates is enhanced, two floor support plate bodies 10 positioned at two sides of a splicing seam can be supported, the situation that one floor support plate body 10 is supported and the other floor support plate body 10 is not supported is avoided, the splicing seam between the two adjacent floor support plate bodies 10 is prevented from being staggered when concrete is poured, and the first supporting piece 20 and the second supporting piece 30 can be removed simultaneously along with the floor support plate bodies 10 without increasing the extra workload of dismounting and mounting, a more stable and efficient use of the reusable floor deck plate 10 and support is provided.

In an embodiment of the present invention, the first support 20 and the second support 30 are one or more, and when the first support 20 and the second support 30 are both one, the first support 20 and the second support 30 are respectively located at two opposite sides of the floor plate body 10. When the first supporting members 20 are multiple, the multiple first supporting members 20 are disposed at intervals, and at least one first supporting member 20 and at least one second supporting member 30 are respectively located at two opposite sides of the floor plate body 10. When the number of the second supporting members 30 is plural, the plural second supporting members 30 are disposed at intervals, and at least one of the second supporting members 30 and the first supporting member 20 are respectively located at two opposite sides of the floor plate body 10.

For example, referring to fig. 3, a plurality of first supports 20 may be spaced along the length of the floor plate 10 and a plurality of second supports 30 may be spaced along the length of the floor plate 10. The first supporting member 20 and the second supporting member 30 are transversely distributed on the length direction of the floor support plate 10 at intervals, one end of the first supporting member 20, which faces away from the second supporting member 30, extends out of the floor support plate 10, the bending structure 31 on the second supporting member 30 can be located in the floor support plate 10 relatively, and of course, the bending structure 31 on the second supporting member 30 can also extend out of the floor support plate 10.

In the present embodiment, the arrangement of the first support 20 and the second support 30 includes a plurality of arrangements, and one way to achieve this is, referring to fig. 3 and 4, that the plurality of first supports 20 are all located on the same side of the second face 12, and extend out of the same side of the floor board body 10. The second supports 30 may be located on the opposite side of the second face 12 from the first support 20 or may be located on each side of the floor plate 10. Each second supporting member 30 is disposed corresponding to a first supporting member 20 at a corresponding position on another adjacent floor slab 10, that is, each second supporting member 30 is located on a straight line with a length center line of a first supporting member 20 at a corresponding position on another adjacent floor slab 10. When the first supporting member 20 and the second supporting member 30 are respectively disposed on two sides of the floor support plate 10, for the convenience of construction, the construction specifications are uniform, and on the same floor support plate 10, each second supporting member 30 is disposed corresponding to one first supporting member 20. When the floor support plate is arranged in this way, the specification of each floor support plate body 10 and the installation positions of the first supporting piece 20 and the second supporting piece 30 are set uniformly, construction operation is facilitated, and meanwhile, the floor support plate body 10 with the first supporting piece 20 and the second supporting piece 30 can be conveniently manufactured in a factory in a quantized mode.

When the plurality of second supporting members 30 are respectively disposed on two sides of the floor support plate body 10, at least a portion of the second supporting members 30 among the second supporting members 30 disposed opposite to the first supporting members 20 is disposed corresponding to the first supporting members 20 on the other side. All the second supporting members 30 are arranged corresponding to the first supporting members 20 on the other side in a one-to-one manner, or part of the second supporting members 30 are arranged corresponding to the first supporting members 20 in a one-to-one manner, or part of the second supporting members 30 are arranged corresponding to the second supporting members 30 on the other side in a position. The first support 20 and the second support 30, which are disposed at corresponding positions, may be an integral structure. The two second supporting members 30 are integrally formed and partially disposed.

Taking the orientation shown in fig. 3 as an example, the first supporting members 20 on the floor support plate body 10 are all located at the left side of the second face 12 and all extend out of the left side of the floor support plate body 10, the second supporting members 30 are all located at the right side of the second face 12, and the bending structures 31 on the second supporting members 30 face to the right side. When two building support plate bodies 10 are spliced, the building support plate body 10(R) on the right is inserted into the insertion space on the right side of the building support plate body 10(L) on the left through a plurality of left first supporting pieces 20, so that the building support plate body 10(R) provides support for the building support plate body 10(L) through the first supporting pieces 20, and meanwhile, the building support plate body 10(L) provides support for the building support plate body 10(R) through the bending structure 31 on the second supporting piece 30.

Another arrangement of the first supporting members 20 and the second supporting members 30 is that, referring to fig. 4 and 5, a plurality of first supporting members 20 are provided, and in the plurality of first supporting members 20, a part of the first supporting members 20 extends out of one side of the floor plate body 10, and another part of the first supporting members 20 extends out of the other side of the floor plate body 10. The plurality of second supporting pieces 30 are all positioned at the same side of the floor bearing plate body 10; or on both sides of the floor deck plate body 10, respectively. In one implementation, at least one second support 30 is disposed between at least a portion of two adjacent first supports 20 of the first supports 20 extending from the same side of the floor deck plate 10. Further, the first supporters 20 respectively disposed on two sides of the floor support plate body 10 are disposed, and at least a portion of the first supporter 20 is disposed corresponding to the first supporter 20 on the other side. At least a part of the two first supporting members 20 correspondingly disposed are integrally formed.

Of course, for convenience of construction, the second supporting members 30 are disposed opposite to the first supporting members 20 on the same floor slab 10, and all the second supporting members 30 are disposed corresponding to the first supporting members 20 on the other side. Or a portion of the second support 30 is positioned to correspond to the first support 20. The first support 20 and the second support 30, which are disposed at corresponding positions, are integrally formed.

As seen in fig. 4, the first supports 20 extend alternately out of both sides of the floor plate body 10. The adjacent two first supporting members 20 are alternately disposed on both sides of the floor plate body 10, respectively, and alternately extend out of both sides of the floor plate body 10. Accordingly, two adjacent second supporting members 30 are alternately disposed on both sides of the floor deck plate body 10, respectively. When the two floor support plate bodies 10 are spliced, the first supporting member 20 can be inserted into the insertion space on the adjacent floor support plate body 10, so that the mutual supporting of the two floor support plate bodies 10 is realized.

For another example, referring to fig. 5, two or more first supports 20 extend out of the same side of the floor plate body 10, and two or more adjacent first supports 20 extend out of the other side of the floor plate body 10. Fig. 5 differs from the arrangement shown in fig. 4 in that each two first supports 20 in fig. 4 extend alternately from opposite sides of the floor plate body 10, and in fig. 5 each plurality of first supports 20 extends alternately from opposite sides of the floor plate body 10.

In the embodiment of the present invention, the first support 20 and the second support 30 include, but are not limited to, being made of sheet metal parts or being made of injection molding. The first support member 20 and the second support member 30 are provided with fixing holes, which include, but are not limited to, circular through holes or oblong through holes. The fastening member 42 can be connected to the floor plate 10 through the fastening hole to connect the first and second supporting members 20 and 30 to the floor plate 10. The first supporting member 20 and the second supporting member 30 can be pre-installed on the floor board 10 to improve the production efficiency, and can be automatically produced by using the equipment.

With continued reference to fig. 2, in the embodiment of the present invention, the bending structure 31 includes a connecting section 311 and a carrying section 312. Two ends of the connecting section 311 are connected to the second supporting member 30 and one end of the carrying section 312, respectively, and the other end of the carrying section 312 extends in a direction away from the second supporting member 30. The connecting section 311 extends away from the second face 12, so that the bearing section 312 is away from the second face 12, and the bearing section 312 may be parallel to the second face 12 or slightly inclined toward the second face 12. When the bearing section 312 inclines towards the second face 12, when the first support 20 is inserted into the insertion space, a clamping structure can be formed with the second face 12 to clamp the first support 20, and when the first support 20 moves downwards, the bearing section 312 provides a reaction force for the first support 20, so as to further avoid the dislocation of the two floor support plate bodies 10.

According to different supporting requirements, the bending structure 31 can be realized in different forms, and in the embodiment of the present invention, an included angle between the connecting section 311 and the second supporting member 30 is greater than or equal to 90 ° and smaller than 180 °. As shown in fig. 2, the angle between the connecting section 311 and the second supporting member 30 is an obtuse angle, and the bending structure 31 in this form can be defined as an oblique angle structure.

Referring to fig. 6 and 7, the angle between the connecting section 311 and the second supporting member 30 is a right angle, and the bending structure 31 in this form can be defined as a right angle structure. In contrast to the angled configuration, the connecting section 311 can abut the end of the first support 20 in a right angle configuration. For example, when the first support 20 has a tendency to move downward, in the oblique angle structure, the end of the first support 20 is in contact with the connecting section 311 as a point contact, and the supporting strength is small; in the right-angle structure, the end of the first support 20 is in surface contact with the connecting section 311, so that the supporting strength is high, and a higher supporting force can be provided for the first support 20.

It should be noted that, the bending structures 31 of the second supporting members 30 disposed on the same floor deck plate 10 may be all bevel structures or all right-angle structures, or different types of bending structures 31 may be disposed on different second supporting members 30.

Further, with continued reference to fig. 7, in order to enable the first supporter 20 to enter the plugging space more smoothly, an end of the carrying section 312 facing away from the connecting section 311 has a guiding inclined edge 313, and the guiding inclined edge 313 extends obliquely away from the second face 12. That is, the end of the bearing section 312 facing the first support 20 is provided with a guiding oblique edge 313, so that the inlet of the plugging space becomes gradually larger from inside to outside, and the first support 20 can enter the plugging space more smoothly along the guiding oblique edge 313. The bearing section 312 in the right angle configuration is shown in fig. 7 with a beveled guide edge 313, although the bearing section 312 in the angled configuration may also have a beveled guide edge 313.

Further, in order to enhance the supporting strength of the first support 20, referring to fig. 8, in the embodiment of the present invention, the edge of the first support 20 is provided with a first folding edge 21 extending away from the second surface 12. Similarly to the first supporting member 20, referring to fig. 8 and 9, in order to enhance the supporting strength of the second supporting member 30, the second supporting member 30 includes a connecting plate and a bending structure 31 connected to the connecting plate, and the edge of the connecting plate is provided with a second bending edge 32 extending away from the second surface 12. It should be noted that, in the embodiment of the present invention, the cross-sectional structure of the first support 20 is similar to that of the connecting plate of the second support 30, and therefore, the structure shown in fig. 8 may represent the cross-sectional structure of the first support 20, or may represent the cross-sectional structure of the connecting plate of the second support 30, but this does not mean that the connecting plates of the first support 20 and the second support 30 are the same object in fig. 8. The structure of the web with the second flap 32 can be referred to the structure of the first support 20 in fig. 8, i.e., the structure of the second flap 32 on the web can be referred to the structure of the first flap 21 in fig. 8.

In the embodiment of the present invention, whether the first supporting member 20 and the second supporting member 30 are provided with the folded edges or not may be set according to different supporting requirements, for example, the first folded edge 21 may be provided on the first supporting member 20, and the second folded edge 32 is not provided on the connecting plate of the second supporting member 30; alternatively, the first support 20 is not provided with the first flange 21, and the connecting plate of the second support 30 is provided with the second flange 32; alternatively, the first flap 21 is provided on the first support 20, and the second flap 32 is also provided on the connecting plate of the second support 30.

Further, to enhance the strength of the first folded edge 21, with continued reference to fig. 8, in the embodiment of the present invention, the end of the first folded edge 21 is provided with a first reinforcing rim 22. In a practical manner, the first reinforcing flange 22 on one first folded edge 21 is folded in the direction of the other first folded edge 21. Accordingly, referring to fig. 8 and 9, in order to reinforce the strength of the second folded edge 32, the end of the second folded edge 32 is provided with a second reinforcing rim 33. In one embodiment, the second reinforcing edge 33 on one second fold 32 is bent in the direction of the other second fold 32. The structure of the connecting plate with the second folded edge 32 and the second reinforcing edge 33 can refer to the structure of the first support 20 in fig. 8. Whether the first folded edge 21 and the second folded edge 32 are provided with the reinforcing edges or not may be set according to different requirements, for example, the first reinforcing edge 22 may be provided on the first folded edge 21, or may not be provided. The second reinforcing edge 33 may be provided on the second flange 32 or may not be provided.

It should be noted that, the bending structure 31 of the second supporting member 30 may also be provided with a folded edge and a reinforced edge as required, for example, the bending structure 31 in the bevel edge structure may be provided with a third folded edge and a third reinforced edge. In the right-angle structure, in order to increase the contact area between the connecting section 311 and the bearing section 312 and the first support member 20, a folding edge and a reinforcing edge may be added or not.

Referring to fig. 9, in order to ensure the supporting effect between the first supporting member 20 and the second supporting member 30, when the bending structure 31 is a right-angle structure, the specifications of the first supporting member 20 and the second supporting member 30 are as follows: the overlapping tolerance between the first fold 21 on the first support 20 and the carrying section 312 needs to be between 0.2-0.6mm, for example 0.5 mm; the gap between the end of the first support 20 and the connecting section 311 needs to be less than 3 mm. The gap between the second flange 32 on the side of the second supporting member 30 and the connecting section 311 needs to be less than 0.2 mm; the length of the bearing section 312 is not less than 15 mm; the maximum distance between the hypotenuse 313 and the first support 20 is no greater than 2.7 mm.

The first support 20 and the second support 30 shown in fig. 1 to 9 are separate structures, the arrangement of the first support 20 and the second support 30 is merely exemplary and is not meant to be a limitation of the embodiment of the present invention, and a person skilled in the art can suitably change the arrangement positions of the first support 20 and the second support 30 according to different support requirements without creative efforts.

In the above embodiment, the first support 20 and the second support 30 may be separate structures, and in the embodiment of the present invention, the first support 20 and the second support 30 may be an integrally formed structure, in addition to the above-mentioned separate structures. As shown in fig. 10, the first support 20 and the second support 30 are integrally formed. Alternatively, the connection plate of the second support 30 is connected with the first support 20 such that the connection plate of the second support 30 is formed as one body with the first support 20. It should be noted that the bending structure 31 shown in fig. 10 is a right-angle structure, but the bending structure 31 may also be an oblique structure. When the first supporting member 20 and the second supporting member 30 are integrally formed, the difference from the split structure is only that the length of the first supporting member 20 plus the length of the second supporting member 30 is greater than the width of the floor plate 10, so that the first supporting member 20 can partially extend out of the floor plate 10. When the first supporting member 10 and the second supporting member 30 are integrally formed, they can be understood as an integral supporting member, one end of the supporting member is provided with a bending structure 31, and the other end of the supporting member extends out of the floor support plate 10.

For convenience of description, the first and second supporting members 20 and 30 may be referred to as a main supporting body in an integrally formed structure, and referring to fig. 10 and 11, one end of the main supporting body is formed with a bending structure 31, and the other end extends out of the floor support plate body 10. In order to improve the toughness of the main support body, a stiffening groove is further arranged on the main support body, and the stiffening groove can extend along the length direction of the main support body.

The adjacent two main supporting bodies are spaced apart, and the bending structures 31 of the main supporting bodies may be oriented in the same direction, or the bending structures 31 of the adjacent main supporting bodies are oriented in opposite directions. When the floor deck boards 10 are assembled, the protruding end of the main support, i.e., the first support 20, can be inserted into the insertion space of another floor deck board 10. The bending structure 31 on the main support is an oblique angle structure or a right angle structure, and the splicing manner between the two main supports can refer to the splicing manner of the split structure, which is not described herein again. Further, according to different requirements, one main support may be cut off from the middle in the width direction, i.e., a pair of the first support 20 and the second support 30 is formed.

In the present embodiment, the arrangement of the main supporting bodies includes a plurality of arrangements, and one way to achieve this is that, referring to fig. 12, the main supporting bodies are spaced apart, the first supporting members 20 thereof extend out of the same side of the floor plate body 10, and the second supporting members 30 are located on the other side of the second face 12. Taking the orientation shown in fig. 12 as an example, the first supporting members 20 of the multiple main supporting bodies extend out of the left side of the floor slab 10, and the bending structures 31 of the second supporting members 30 face to the right side. When two building support plate bodies 10 are spliced, the building support plate body 10(R) on the right is inserted into the insertion space on the right side of the building support plate body 10(L) on the left through a plurality of left first supporting pieces 20, so that the building support plate body 10(R) provides support for the building support plate body 10(L) through the first supporting pieces 20, and meanwhile, the building support plate body 10(L) provides support for the building support plate body 10(R) through the bending structure 31 on the second supporting piece 30.

Another arrangement of the main supports is that the first supports 20 of the main supports alternately extend out of both sides of the floor plate body 10, as shown in fig. 13 and 14. When the two floor support plate bodies 10 are spliced, the first supporting members 20 are alternately inserted into the insertion spaces at the corresponding positions on the adjacent floor support plate bodies 10, so that the two floor support plate bodies 10 are mutually supported.

For another example, referring to fig. 14, the first supports 20 on two or more main supports extend out of the same side of the floor plate body 10, and two or more adjacent first supports 20 extend out of the other side of the floor plate body 10. Unlike the arrangement shown in fig. 13, the first support members 20 of each two main support members in fig. 13 alternately extend out of the opposite sides of the floor plate body 10, and each plurality of first support members 20 in fig. 14 alternately extend out of the opposite sides of the floor plate body 10.

It should be noted that, in some embodiments of the present invention, the first supporting member 20 and the second supporting member 30 disposed on the same floor support plate may be both the first supporting member 20 and the second supporting member 30 in a split structure as shown in fig. 3 to 5, or both the first supporting member 20 and the second supporting member 30 in an integrally formed structure as shown in fig. 12 to 14, or both the first supporting member 20 and the second supporting member 30 in a split structure may be combined with the main supporting member in an integrally formed structure.

In an implementable embodiment of the present invention, the main support is implemented in two forms, one in which both ends of the main support are the first support 20 and both extend out of both sides of the floor deck, and one in which both ends of the main support are the second support 30. The main supporting bodies with the two structures can be distributed on the same floor bearing plate for use and also can be respectively arranged on different floor bearing plates for use.

Further, in the embodiment of the present invention, referring to fig. 2 and 7, the steel bar truss 1 and the connecting fastener 40 are detachably connected to the first surface 11 of the floor deck plate 10. The floor support plate body 10 is detachably connected with the steel bar truss 1 and the connecting fastener 40, so that the subsequent removal of the floor support plate body 10 is facilitated. The connecting buckle 40 is provided with a clamping groove 41, and the clamping groove 41 is clamped with the steel bar truss 13. The first supporting member 20 and the second supporting member 30 are both provided with fixing holes, the floor support plate 10 is provided with connecting holes, and one end of the fastening member 42 is connected with the connecting buckle 40 sequentially through the fixing holes and the connecting holes. The fastening member 42 includes, but is not limited to, a screw, and the front end of the screw is connected to the threaded hole of the connecting fastener 40 sequentially through the fixing hole and the connecting hole, so that the first supporting member 20 and the second supporting member 30 are connected to the floor board 10 and the connecting fastener 40, respectively. In the embodiment of the invention, the supporting piece is separately connected with the floor support plate body 10, the floor support plate body 10 is connected with the connecting buckle 40, the connecting pieces of the supporting piece, the floor support plate body 10 and the connecting buckle 40 do not share the fastening piece 42, and the floor support plate body 10 and the supporting piece do not need to be separated when being repeatedly utilized.

In the embodiment of the present invention, it is possible to realize the steel bar truss 13 in such a manner that the steel bar truss 13 includes an upper chord steel bar, two lower chord steel bars located at two sides below the upper chord steel bar, and web members having two ends fixedly connected to the upper chord steel bar and the lower chord steel bar, respectively. Each steel bar truss 13 is respectively connected with the floor bearing plate body 10 through a plurality of connecting buckles 40 positioned in a row; the upper portion of the connecting buckle 40 is provided with a rectangular groove, two opposite side surfaces of the rectangular groove are correspondingly provided with clamping grooves 41, two lower chord steel bars of the steel bar truss 13 are respectively clamped in the two clamping grooves 41 of the connecting buckle 40, and the connecting buckle 40 is fixedly connected with the floor support plate body 10 through a fastener 42. In particular, screws may be used as the fasteners 42 to couple the connector links 40 to the floor deck plate 10. The connecting link 40 may have various shapes, so long as it has a slot 41 for clamping two lower chord steel bars, and in order to enable mass production, in a preferred embodiment, the connecting link 40 is integrally die-cast from a plastic material into a rectangular block plate, and a rectangular groove is formed on the upper surface of the rectangular block plate. The floor support plate body 10 can be made of bamboo plywood or wood plywood which is low in density and easy to process, and can also be made of galvanized plates or alloy steel plates.

The floor deck according to the embodiment of the present invention will be further described in detail with reference to fig. 15.

Referring to fig. 15, the floor support plate includes a floor support plate body and a first supporting member and a second supporting member disposed on a second surface of the floor support plate body. The arrangement of the first and second supports 20 and 30 includes, but is not limited to, the following arrangements, and the arrangements may be combined with each other.

1) The first supporting pieces are arranged on the same side of the second face and extend out of the same side of the floor support plate body.

The second supporting pieces are multiple and are located on the other side, opposite to the first supporting pieces, of the second face. The second supporting piece and the first supporting piece on the other side can be arranged in a staggered mode or in an opposite mode, and furthermore, at least one part of the first supporting piece and the second supporting piece which are arranged in an opposite mode are of an integrally formed structure.

2) The first supporting pieces are arranged on the same side of the second face and extend out of the same side of the floor support plate body.

The second supporting pieces are arranged on two sides of the floor support plate body respectively, the second supporting pieces can be arranged in a staggered mode or in an opposite mode with the first supporting pieces on the other side, the second supporting pieces can be arranged in a staggered mode or in an opposite mode with the second supporting pieces on the other side, furthermore, the first supporting pieces and the second supporting pieces are arranged partially in an opposite mode and are of an integrally formed structure, and furthermore, the two second supporting pieces are arranged partially in an opposite mode and are of an integrally formed structure.

3) The first supporting pieces are multiple, and in the multiple first supporting pieces, one part of the first supporting pieces extends out of one side of the floor support plate body, and the other part of the first supporting pieces extends out of the other side of the floor support plate body.

The second supporting pieces are arranged on the same side of the floor support plate body, the second supporting pieces can be staggered or oppositely arranged with the first supporting pieces on the other side, and furthermore, the first supporting pieces and the second supporting pieces are partially oppositely arranged to form an integrated structure.

4) The first supporting pieces are multiple, and in the multiple first supporting pieces, one part of the first supporting pieces extends out of one side of the floor support plate body, and the other part of the first supporting pieces extends out of the other side of the floor support plate body. The first supporting parts can be staggered with or opposite to the first supporting parts on the other side

The second support piece is a plurality of, and a plurality of second support pieces set up respectively in the both sides of floor carrier plate body.

The second supporting piece can be staggered or oppositely arranged with the first supporting piece on the other side, the second supporting piece can be staggered or oppositely arranged with the second supporting piece on the other side, furthermore, the first supporting piece and the second supporting piece are partially oppositely arranged to form an integrated structure, and further, the two second supporting pieces are partially oppositely arranged to form an integrated structure. Furthermore, two first supporting pieces are partially oppositely arranged to form an integrally formed structure.

The following describes how to splice the fabricated floor deck and how to remove the fabricated floor deck after pouring concrete, using the fabricated floor deck shown in fig. 3 as an example. It should be noted that in other drawings, the fabricated floor deck as shown in fig. 4, 5, 12 to 21 can be spliced and removed as follows.

Before splicing, the first support member 20, the second support member 30, the steel bar truss 13 and the connecting fastener 40 may be connected to the floor slab 10 in advance in a factory, and the assembled floor slab after assembly may be transported to a construction site for splicing, or the first support member 20, the second support member 30, the steel bar truss 13 and the connecting fastener 40 may be transported to the construction site separately and assembled at the construction site.

During splicing, firstly, a fabricated floor support plate is fixedly installed at an edge position of a predetermined area, such as a left position in fig. 3, the second face 12 of the floor support plate body 10(L) on the left side is provided with a plurality of first supporting members 20, which are all located on the left side (of course, as shown in fig. 4, the left side of the second face 12 may be further provided with a second supporting member 30), and the second supporting members 30, which are all located on the right side (of course, as shown in fig. 4, the right side of the second face 12 may be further provided with a first supporting member 20), so as to form a splicing space.

Then, the floor support plate body 10(R) is spliced with the floor support plate body 10(L) from the right side, and the arrangement manner of the first supporting piece 20 and the second supporting piece 30 on the floor support plate body 10(R) is the same as that of the floor support plate body 10 (L). During splicing, the floor support plate body 10(R) is spliced in the splicing space correspondingly arranged at the right side of the floor support plate body 10(L) through the plurality of first supporting pieces 20 positioned at the left side of the second face 12, so that the first supporting pieces 20 on the floor support plate body 10(R) support the floor support plate body 10(L), and the second supporting pieces 30 on the floor support plate body 10(L) support the first supporting pieces 20 on the floor support plate body 10 (R).

Then, another floor support plate body 10(L) is spliced with the floor support plate body 10(R) from the right side, and during splicing, the another floor support plate body 10(L) is spliced in the splicing space correspondingly arranged at the right side of the floor support plate body 10(R) through a plurality of first supporting pieces 20 positioned at the left side of the second face 12.

So on, the concatenation is accomplished the back, forms the building carrier plate body 10(L) -the building carrier plate body 10(R) … … building carrier plate body 10(L) -the general building carrier plate of building carrier plate body 10(R) structure to can pour the concrete on the general building carrier plate, because form the support each other through first support piece 20 and second support piece 30 between two adjacent building carrier plate bodies 10, so the condition that the dislocation appears in splice seam both sides building carrier plate body 10 can not appear.

After the concrete has set to form a concrete slab, the deck plate body 10 can be removed from the concrete slab for recycling. In an embodiment of the present invention, the floor deck plate 10 may be disassembled in the following manner.

With continued reference to fig. 3, it is possible to achieve the above-mentioned method by first removing the fasteners 41 when the supporting members, the floor support plate 10 and the connecting fasteners 40 share the fasteners 41, then removing the first supporting member 20 and the second supporting member 30 on the floor support plate 10, and then removing the floor support plate 10, so that the removal method is convenient, the fasteners 41 connected to the floor support plate 10 are removed in advance, the first supporting member 20, the second supporting member 30 and the floor support plate 10 are not destructive, and the reusable floor support plate and the supporting members have better integrity, thereby achieving efficient utilization.

Alternatively, when the support members, the floor plate 10 and the connecting fasteners 40 do not share the fasteners 41, the fasteners connecting the floor plate 10 and the connecting fasteners 41 on the fabricated floor plate at the edge of the installation area (such as the left-most side or the right-most side) are first removed, taking the floor plate 10(L) as an example, while the first support member 20 and the second support member 30 are still connected to the floor plate 10 (L). Then at least a portion of the first support 20 or the second support 30 of the deck plate 10(L) is removed, and pulling the deck plate 10(L) left/right detaches the deck plate 10(L) from the slab.

Then, the fastening member connecting the floor plate 10 and the connecting buckle 41 on the floor plate 10(R) is removed, and the first supporting member 20 and the second supporting member 30 are still connected to the floor plate 10 (R). At this time, the first supporting member 20 and the second supporting member 30 on the floor support plate 10(R) are not detached any more, and the floor support plate 10(R) can be directly pulled leftward to detach the floor support plate 10(R) from the concrete slab and another floor support plate 10 (L).

By parity of reasoning, the overall floor deck with the floor deck plate 10(L) -floor deck plate 10(R) … … structure can be split into each floor deck plate 10(L) and floor deck plate 10(R) in sequence. The form of dismantling like this, it is more convenient to dismantle the mode, need not pull down all support piece on each building carrier plate body 10, and support piece can pull down along with building carrier plate body 10, need not carry out the secondary installation, has saved the time, and dismantles in advance and connects the fastener 41 on building carrier plate body 10 down, does not have the destructiveness to building carrier plate body 10, makes repeatedly usable's building carrier plate body and support piece have integrality better to carry out the efficient and utilize.

In summary, according to the technical solution provided by the embodiments of the present invention, when adjacent floor support plates are spliced, the first support members on the floor support plate bodies are inserted into the insertion space of the adjacent floor support plates to support the adjacent floor support plate bodies, and at the same time, the second support members provide support for the first support members on the adjacent floor support plate bodies through the bending structures, so as to enhance the support strength between the two floor support plates, so that the two floor support plate bodies located at two sides of the splicing seam can be supported, the situation that one floor support plate body is supported and the other floor support plate body is not supported can be avoided, the splicing seam between the two adjacent floor support plate bodies is prevented when concrete is poured, and the first support members and the second support members can be removed simultaneously along with the dislocation of the floor support plates without increasing the extra workload of dismounting and mounting the support members, the reusable floor deck plate and support are more stable and efficient to use.

Example 2

On the basis of embodiment 1, the embodiment of the invention also provides another fabricated floor deck, the technical scheme provided in embodiment 2 is different from that of embodiment 1 only in the arrangement mode of the supporting members, and the features in embodiment 2 and those in embodiment 1 can be mutually referred and combined without conflict. The scheme is as follows:

referring to fig. 16 in conjunction with fig. 1 to 15, another fabricated flooring deck according to an embodiment of the present invention includes: a floor support plate 10 and a first support assembly. Wherein the content of the first and second substances,

the floor deck plate body 10 has a first face 11 and a second face 12 that back on back set up, and first face 11 is used for dismantling connecting steel bar truss 13. The first supporting member assembly includes two paired first supporting members 20, the first supporting members 20 are connected to the second surface 12, the paired first supporting members 20 are respectively located at two opposite sides of the second surface 12 and respectively partially extend out of the side edges of two opposite sides of the floor board body 10, wherein the length center lines of the paired first supporting members 20 are located on the same straight line. It should be noted that the floor support plate 10 and the first support 20 of embodiment 2 can be realized by the floor support plate 10 and the first support 20 of embodiment 1, and all the related components described above and below in embodiment 2 can be referred to the related components of embodiment 1.

According to the technical scheme provided by the embodiment of the invention, when the floor support plate body 10 with the first supporting component is spliced with the adjacent floor support plate body 10, the adjacent floor support plate body 10 can be supported through the first supporting piece 20 on the floor support plate body 10, or when the adjacent floor support plate body 10 is provided with the second supporting piece 30, the first supporting piece 20 on the floor support plate body 10 can be inserted into the insertion space of the adjacent floor support plate body to support the adjacent floor support plate body 10, meanwhile, the second supporting piece 30 on the adjacent floor support plate body 10 can support the first supporting piece 20 through the bending structure 31, so that the supporting strength between the two floor support plates is enhanced, and the two floor support plate bodies 10 positioned at two sides of the splicing seam can be supported.

Further, with continued reference to fig. 16, a single first support 20 is also provided on at least one of the opposing sides of the second face 12 of the floor plate body 10. With respect to the paired supports, the single first support 20 can be disposed at different positions according to different support requirements, such as the single first support 20 disposed at one side of one first support assembly; or at least one individual first support 20 is provided at a position between the two first support assemblies to enhance the support strength of the position between the two first support assemblies, wherein a plurality of individual first supports 20 may be alternately provided with each other or may be provided all at the same side of the floor panel 10.

In the above embodiment, the two first supports 20 in the first support assembly may be of a split structure, and in the embodiment of the present invention, the two first supports 20 in the first support assembly may be of an integrally molded structure, in addition to the above-mentioned implementation form of the split structure. As shown in fig. 17, the first support member is plural, and the paired two first supports 20 in the partial first support members are of an integrally molded structure. Alternatively, the two first supports 20 are connected to each other such that the two first supports 20 are formed as a single body. When the two first supporting members 20 are integrally formed, they can be understood as an integral supporting member, and two ends of the supporting member respectively extend out of the floor slab 10.

It should be noted that. The arrangement of the first support 20 in embodiment 2 may be combined with the arrangement of the first support 20 and the second support 30 in embodiment 1 without any structural conflict. The technical features in embodiment 2 and the technical features in embodiment 1 may be referred to each other, and are not described herein again.

Example 3

On the basis of the embodiments 1 and 2, the embodiment 3 is further provided in the embodiment of the present invention, in the embodiment 3, the technical solution provided in the embodiment 3 is different from the embodiments 1 and 2 only in the arrangement manner of the supporting members, and the features in the embodiment 3 and the features in the embodiments 1 and 2 described below can be mutually referred to and combined without conflict. The scheme is as follows:

referring to fig. 18 and 19 in combination with fig. 1 to 17, accordingly, another fabricated floor deck according to an embodiment of the present invention includes: the floor deck plate 10 and at least two second supporting members 30. The floor support plate body 10 has a first surface 11 and a second surface 12 opposite to each other, and the first surface 11 can be used for detachably connecting a steel bar truss 13. Second supports 30 are attached to the second face 12, with at least two second supports 30 being located on opposite sides of the floor deck plate 10. The end of the second supporting member 30 adjacent to the other floor deck plate 10 forms a bending structure 31, and an insertion space is formed between the bending structure 31 and the second surface 12. It should be noted that the floor support plate 10 and the second supporting member 30 in the embodiment 3 can be realized by the floor support plate 10 and the second supporting member 30 in the embodiments 1 and 2, and the related components described above and below in the embodiment 3 can be referred to the related components in the embodiments 1 and 2.

According to the technical scheme provided by the embodiment of the invention, when the floor support plate body 10 with the second supporting piece 30 is spliced with the adjacent floor support plate body 10, the first supporting piece 20 on the adjacent floor support plate body 10 can be supported through the bending structure 31 on the second supporting piece 30, or simultaneously, the first supporting piece 20 on the adjacent floor support plate body 10 provides support for the floor support plate body, so that the supporting strength between the two floor support plates is enhanced, and the two floor support plate bodies 10 positioned at the two sides of the splicing seam can be supported.

Further, with continued reference to fig. 18 and 19, the second supporting members 30 are provided in plurality, one part is located on one side of the floor plate 10, and the other part is located on the other side of the floor plate 10. The arrangement of the second supporting members 30 can be set according to different supporting requirements, and one way to realize that the second supporting members 30 on two sides are alternately arranged at every two positions of the second supporting members 30, or alternatively, every plurality of positions of the second supporting members 30 are alternately arranged. The second support 30 is positioned to correspond to the position of the first support 20 on the adjacent floor deck plate 10.

In another implementation manner, at least a portion of the second supporting members 30 in the second supporting members 30 located at two sides are disposed corresponding to another second supporting member 30 to form a second supporting assembly, wherein the length center lines of the two second supporting members 30 in the same second supporting assembly are located on the same straight line. Further, in the above embodiment, the two second supporting members 30 disposed at corresponding positions may be of a split structure, and in the embodiment of the present invention, the two second supporting members 30 may be of an integrally molded structure in addition to the above-described implementation form of the split structure. As seen in fig. 19, the two second support members 30 partially disposed in the same second support assembly are of an integrally formed structure. Alternatively, the two second supporting members 30 are connected to each other such that the two second supporting members 30 are formed as a single body. When the two second supporting members 30 are integrally formed, it can be understood as an integral supporting member, and the two ends of the supporting member are respectively provided with a bending structure 31.

The two second supporting members 30 may be arranged individually or in combination according to the requirement.

It should be noted that. The arrangement of the second support 30 in embodiment 3 may be combined with the arrangement of the first support 20 and the second support 30 in any one of embodiments 1 and 2 without any structural conflict. The technical features of embodiment 3 and those of embodiments 1 and 2 can be referred to each other, and are not described in detail herein.

Example 4

On the basis of embodiments 1 to 3, the embodiment of the present invention further provides an embodiment 4, in the embodiment 4, the technical solution provided in the embodiment 4 is different from the embodiments 1 to 3 only in the arrangement manner of the supporting members, and the features in the embodiment 4 and the features in the embodiments 1 to 3 described below can be mutually referred to and combined without conflict. The scheme is as follows:

referring to fig. 21 in conjunction with fig. 1 to 20, correspondingly, an embodiment of the present invention further provides a fabricated floor deck assembly, including: a first plate 50 and a second plate 60. Wherein the content of the first and second substances,

the first plate 50 has two opposite sides, one side of which is used for detachably connecting the steel bar truss 13, and the other side of which is connected with at least two first supporting members 20, the at least two first supporting members 20 are respectively located at two opposite sides of the first plate 50, and the first supporting members 20 extend out of the first plate 50.

The second plate body 60 has two opposite sides, one side of the second plate body is used for detachably connecting the steel bar truss 13, the other side of the second plate body is connected with at least two second supporting pieces 30, the at least two second supporting pieces 30 are respectively located on two opposite sides of the second plate body 60, one ends of the second supporting pieces 30 adjacent to the first plate body 50 form a bending structure 31, an inserting space is formed between the bending structure 31 and the second plate body 60, and the inserting space can be inserted into the first supporting pieces 20 on the adjacent first plate body 50. It should be noted that the first plate 50 and the second plate 60 in embodiment 4 can be implemented by the floor support plate 10 in embodiments 1 to 3, the first support 20 and the second support 30 in embodiment 4 can be implemented by the first support 20 and the second support 30 in embodiments 1 to 3, and the related components described above and below in embodiment 4 can refer to the related components in embodiments 1 to 3.

According to the technical scheme provided by the embodiment of the invention, when the first plate body 50 and the second plate body 60 are spliced, the first plate body 50 can provide support for the adjacent second plate body 60 through the first supporting piece 20, and the first supporting piece 20 is inserted into the insertion space of the adjacent second plate body 60 to support the adjacent second plate body 60, meanwhile, the second supporting piece 30 on the adjacent second plate body 60 provides support for the first supporting piece 20 on the first plate body 50 through the bending structure 31, so that the supporting strength between the first plate body 50 and the second plate body 60 is enhanced, and the first plate body 50 and the second plate body 60 positioned on two sides of the splicing seam can be supported.

Further, with continued reference to fig. 21, the first support 20 is multiple, and a portion of the first support 20 extends out of one side of the first plate 50, and another portion of the first support 20 extends out of the other side of the first plate 50. The arrangement of the first supports 20 can be set according to different supporting requirements, for example, the first supports 20 on both sides are alternately arranged at every two first supports 20, or alternatively arranged at every multiple first supports 20. The position of each first support 20 corresponds to the position of one second support 30 on the adjacent second plate 60.

Further, in the first support members 20 located at both sides, at least one first support member 20 is disposed corresponding to the first support member 20 at the other side to form a first support assembly, wherein the length center lines of two first support members 20 in the same first support assembly are located on the same straight line. Further, in the above embodiment, the two first supports 20 correspondingly disposed may be of a split structure, and in the embodiment of the present invention, the two first supports 20 in the same first support assembly may also be of an integrally formed structure, in addition to the above-mentioned split structure. As shown in fig. 21, two first supports 20 partially located in the same first support assembly are of an integrally formed structure. Alternatively, the two second supporting members 30 are connected to each other such that the two second supporting members 30 are formed as a single body.

With continued reference to fig. 21, in the embodiment of the present invention, the second supporting member 30 is multiple, a portion of the second supporting member 30 is located on one side of the second plate 60, and another portion of the second supporting member 30 is located on the other side of the second plate 60. The arrangement of the second supporting members 30 may be set according to different supporting requirements, and it is possible to realize that the second supporting members 30 located at both sides are alternately arranged at every two positions of the second supporting members 30, or alternatively arranged at every plurality of positions of the second supporting members 30. The position of the second supporting member 30 corresponds to the position of the first supporting member 20 on the adjacent first plate 50.

In another implementation manner, at least a portion of the second supporting members 30 in the second supporting members 30 on both sides are disposed corresponding to the second supporting members 30 on the other side to form a second supporting assembly, wherein the length center lines of the two second supporting members 30 in the same second supporting assembly are located on the same straight line. Further, in the above embodiment, the two second supporting members 30 disposed at corresponding positions may be of a split structure, and in the embodiment of the present invention, the two second supporting members 30 may be of an integrally molded structure in addition to the above-described implementation form of the split structure. As seen in fig. 20, the two second support members 30 partially disposed in the same second support assembly are of an integrally formed structure. Alternatively, the two second supporting members 30 are connected to each other such that the two second supporting members 30 are formed as a single body.

It should be noted that. The arrangement of the first support 20 and the second support 30 in embodiment 4 may be combined with the arrangement of the first support 20 and the second support 30 in any one of embodiments 1 to 3 without any structural conflict. The technical features in embodiment 4 and those in embodiments 1 to 3 may be referred to each other, and are not described in detail herein.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the embodiments of the present invention, and not to limit the same; although embodiments of the present invention have been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.