A building floor structure

By designing a building floor slab structure that can be spliced ​​and adjusted in width, the construction difficulty and cost problems caused by the fixed size of existing floor slabs have been solved, and the structural stability and construction efficiency have been improved.

CN224468632UActive Publication Date: 2026-07-07翁斌斌

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
翁斌斌
Filing Date
2025-06-19
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Most existing building floor slabs are designed with fixed dimensions and do not have splicing or width adjustment functions, making it difficult to flexibly adapt to the construction of buildings of different specifications, increasing construction difficulty and cost, and affecting construction efficiency.

Method used

Design a building floor slab structure including I-beams, connecting frames, fixing plates, reinforcing bars, connecting plates, expansion rods, pads, fixing frames, splicing components, and fixing components. Adapt to different building specifications through splicing and width adjustment, and install reinforcing bars for construction.

Benefits of technology

It enables flexible splicing and width adjustment of floor slabs, improves structural stability and construction efficiency, adapts to the construction needs of buildings of different specifications, and is easy to use.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224468632U_ABST
    Figure CN224468632U_ABST
Patent Text Reader

Abstract

The utility model relates to the field of building construction especially relates to a building floor structure, including I -beam, connecting frame, fixed plate, connecting plate and backing plate etc., I -beam is equipped with two before and after, I -beam left and right two parts are placed with two backing plates, the upper side of the backing plate of front part is connected with connecting plate all, the rear side of connecting plate is connected with connecting frame all, the upper and lower two parts between two adjacent connecting frames are connected with a plurality of fixed plates all.The utility model places the device on I -beam, then connecting plate and plugboard contact, again through fixed bolt fixation, realize a plurality of device splicing, make telescopic rod contract or lengthen the width between connecting frame after adjusting, install fixed reinforcement, can splice the device and adjust the device width to use the reinforcement installation construction use simultaneously, be convenient for the building construction use of different specifications, improve structural stability and construction efficiency, convenient to use.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of building construction, and in particular to a building floor slab structure. Background Technology

[0002] In the field of building construction, floor slabs are a key part of building structures that bears floor loads and transfers loads to vertical members. Their design and construction quality directly affects the safety and stability of the entire building. With the continuous development of the construction industry and the increasing diversification of building types, different building projects have different requirements for the specifications of floor slabs, including length, width, and load-bearing capacity.

[0003] The current method of using floor slabs in buildings typically involves placing multiple floor slabs on I-beams on the building, laying them flat, and fixing them with fasteners before proceeding with subsequent construction. However, most current floor slabs are designed with fixed dimensions and do not have splicing or width adjustment functions, making it difficult to flexibly adapt to the construction of buildings of different specifications, increasing construction difficulty and costs, and affecting construction efficiency.

[0004] Therefore, it is necessary to design a building floor slab structure that can be spliced ​​together and its width adjusted for use, while simultaneously installing reinforcing bars for construction, to facilitate adaptation to different building specifications, improve structural stability and construction efficiency, and be easy to use. Utility Model Content

[0005] To overcome the shortcomings of current floor slabs, which are mostly designed with fixed dimensions and lack splicing and width adjustment functions, making them difficult to adapt to different building specifications, increasing construction difficulty and cost, and affecting construction efficiency, this utility model provides a building floor slab structure that can be spliced ​​and its width adjusted for use while simultaneously installing steel bars for construction. This facilitates adaptation to different building specifications, improves structural stability and construction efficiency, and is easy to use.

[0006] A building floor slab structure includes an I-beam, a connecting frame, a fixing plate, reinforcing bars, a connecting plate, a telescopic rod, a pad plate, a fixing frame, a splicing assembly, and a fixing assembly. The I-beam has two sections, front and rear. Two pad plates are placed on both the left and right sides of the I-beam. A connecting plate is connected to the upper side of each pad plate in the front section, and a connecting frame is connected to the rear side of each connecting plate. Multiple fixing plates are connected between the upper and lower sections of two adjacent connecting frames. Two reinforcing bars are placed between two fixing plates at the same horizontal position and height. Telescopic rods are connected between the front and rear sections of the connecting frame on the right side of the left section and the connecting frame on the left side of the right section. Damping is provided between the telescopic end and the fixed end of the telescopic rod. Two fixing frames are connected between two fixing plates at the same longitudinal position. A splicing assembly is provided between the connecting frame and the connecting plate. Fixing assemblies for fixing reinforcing bars are provided on each fixing plate.

[0007] In a preferred embodiment of this utility model, the connecting brackets are all C-shaped.

[0008] In a preferred embodiment of the present invention, the splicing assembly includes fixing bolts and insert plates. Fixing bolts are provided between two adjacent connecting plates, and insert plates are connected to the upper side of the rear pad. The insert plates are all connected to the adjacent connecting frames.

[0009] In a preferred embodiment of this utility model, the fixing component includes a pressure plate and fastening screws. The pressure plate is detachably connected to the fixing plate by fastening screws, and the pressure plate is in contact with the adjacent reinforcing bar.

[0010] In a preferred embodiment of this utility model, two grooves are formed on each pressure plate.

[0011] In a preferred embodiment of this utility model, the nuts of the fastening screws are all hexagonal.

[0012] The beneficial effects are as follows: This utility model places the device on an I-beam, then contacts the connecting plate with the insert plate, and then fixes it with fixing bolts to achieve splicing of multiple devices. After adjusting the width between the connecting frames by retracting or extending the telescopic rod, the reinforcing bars are installed and fixed. Thus, the device can be spliced ​​and its width adjusted for use while the reinforcing bars are installed for construction. This makes it easy to adapt to the construction of buildings of different specifications, improves structural stability and construction efficiency, and is convenient to use. Attached Figure Description

[0013] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0014] Figure 2 This is a three-dimensional structural diagram of the connecting plate and fixing bolts of this utility model.

[0015] Figure 3 This is a three-dimensional structural diagram of the pad and other components of this utility model.

[0016] Figure 4 This is a three-dimensional structural diagram of the insert plate and other components of this utility model.

[0017] Figure 5 This is a three-dimensional structural diagram of the fastening screws and fixing brackets of this utility model.

[0018] Among them: 1-I-beam, 2-connecting frame, 3-fixing plate, 4-reinforcing bar, 5-connecting plate, 6-fixing bolt, 7-telescopic rod, 8-pad, 9-insertion plate, 10-pressure plate, 11-fastening screw, 12-fixing frame. Detailed Implementation

[0019] The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments, but this is not intended to limit the present invention.

[0020] A type of building floor slab structure, such as Figures 1-5 As shown, the assembly includes an I-beam 1, a connecting frame 2, a fixing plate 3, reinforcing bars 4, a connecting plate 5, a telescopic rod 7, a pad 8, a fixing frame 12, splicing components, and fixing components. The I-beam 1 has two sections, front and rear. Two pads 8 are placed on each of the left and right sides of the I-beam 1. The connecting plates 5 are connected to the upper side of each of the front pads 8, and the connecting frames 2 are connected to the rear side of each connecting plate 5. The connecting frames 2 are C-shaped for easy support. Ten fixing plates 3 are connected between the upper and lower parts of each adjacent connecting frame 2, on the same horizontal axis. Two steel bars 4 are placed between two fixed plates 3 at the same height in the same position. The connecting frame 2 on the left right side and the connecting frame 2 on the right left side are connected by telescopic rods 7. The telescopic end and the fixed end of the telescopic rod 7 are provided with damping. Two fixed frames 12 are connected between two fixed plates 3 at the same longitudinal position. The connecting frame 2 and the connecting plate 5 are provided with splicing components. The fixed plates 3 are provided with fixing components for fixing the steel bars 4.

[0021] like Figures 1-4 As shown, the splicing assembly includes fixing bolts 6 and insert plates 9. The fixing bolts 6 are provided between two adjacent connecting plates 5. The insert plates 9 are connected to the upper side of the rear pad plate 8. The insert plates 9 are all connected to the adjacent connecting frame 2.

[0022] like Figure 5 As shown, the fixing assembly includes a pressure plate 10 and fastening screws 11. The pressure plate 10 is detachably connected to each fixing plate 3 via the fastening screws 11. Each pressure plate 10 is in contact with the adjacent reinforcing bar 4. Each pressure plate 10 has two grooves to fit the shape of the reinforcing bar 4. The nuts of the fastening screws 11 are all hexagonal.

[0023] When a floor slab is required during construction, this device can be used. According to the building specifications, the connecting frame 2 is lifted so that the pad 8 contacts the I-beam 1 of the building. The device is then placed on the I-beam 1, and the fixing bolts 6 are removed. Next, the connecting plate 5 contacts the insert plate 9 on the next connecting frame 2, and the connecting plate 5 and insert plate 9 are fixed together using the fixing bolts 6. This process is repeated to connect multiple devices. The connecting frames 2 are all C-shaped for easy support. After assembly, depending on the actual situation, one side of the connecting frame 2 is pushed to move the telescopic rod 7. The width between the connecting frames 2 is adjusted by contracting or extending the frame. After adjustment, the reinforcing bar 4 is placed on the fixing plate 3, and then the pressure plate 10 is brought into contact with the reinforcing bar 4 so that the groove on the pressure plate 10 is aligned with the reinforcing bar 4. Then, the pressure plate 10 is fixed by the fastening screws 11, thereby fixing the reinforcing bar 4. The nuts of the fastening screws 11 are all hexagonal. Subsequent construction work is then carried out, so that the device can be spliced ​​and the width of the device can be adjusted for use while the reinforcing bar 4 is installed for construction. This makes it easy to adapt to the construction of buildings of different specifications, improves structural stability and construction efficiency, and is convenient to use.

[0024] The above embodiments are only for illustrating the technical concept and features of this utility model, and are intended to enable those skilled in the art to understand the content of this utility model and implement it accordingly. They should not be construed as limiting the scope of protection of this utility model. All equivalent changes or modifications made in accordance with the spirit and essence of this utility model should be included within the scope of protection of this utility model.

Claims

1. A building floor slab structure, characterized in that: The components include an I-beam (1), a connecting frame (2), a fixing plate (3), a reinforcing bar (4), a connecting plate (5), a telescopic rod (7), a pad (8), a fixing frame (12), splicing components, and fixing components. The I-beam (1) has two parts, front and back. Two pads (8) are placed on the left and right sides of the I-beam (1). The upper side of the front pad (8) is connected to a connecting plate (5). The rear side of the connecting plate (5) is connected to a connecting frame (2). Multiple fixing plates (3) are connected between the upper and lower parts of two adjacent connecting frames (2). The same horizontal direction Two front and rear reinforcing bars (4) are placed between two fixed plates (3) at the same height. The front and rear parts of the connecting frame (2) on the left and right sides are connected by telescopic rods (7). The telescopic end and the fixed end of the telescopic rod (7) are both provided with damping. Two front and rear fixed frames (12) are connected between two fixed plates (3) at the same longitudinal position. The connecting frame (2) and the connecting plate (5) are provided with splicing components. The fixed plates (3) are all provided with fixing components for fixing the reinforcing bars (4).

2. The building floor slab structure according to claim 1, characterized in that: All connecting brackets (2) are C-shaped.

3. The building floor slab structure according to claim 1, characterized in that: The splicing assembly includes fixing bolts (6) and insert plates (9). Fixing bolts (6) are provided between two adjacent connecting plates (5). Insert plates (9) are connected to the upper side of the rear pad (8). Insert plates (9) are connected to the adjacent connecting frame (2).

4. A building floor slab structure according to claim 1, characterized in that: The fixing components include pressure plates (10) and fastening screws (11). The pressure plates (10) are detachably connected to the fixing plates (3) by fastening screws (11), and the pressure plates (10) are in contact with the adjacent reinforcing bars (4).

5. A building floor slab structure according to claim 4, characterized in that: Each pressure plate (10) has two grooves.

6. A building floor slab structure according to claim 4, characterized in that: The nuts of the fastening screws (11) are all hexagonal.