CN-224213608-U - Environment-friendly transfer station floor structure

Abstract

The utility model discloses an environment-friendly transfer station floor structure which comprises transfer station laminates, shear steel bars, steel bar meshes and light fine stone concrete, wherein the number of the shear steel bars is at least two, the plurality of the shear steel bars are connected with the transfer station laminates and are respectively arranged in a transverse and longitudinal crossing manner, the steel bar meshes are connected with the shear steel bars, the light fine stone concrete is connected with the transfer station laminates in a pouring manner, the shear steel bars and the steel bar meshes are covered in the light fine stone concrete, and the environment-friendly transfer station floor structure is light, easy to clean, corrosion-resistant, easy to maintain, long in service life and environment-friendly.

Inventors

• LIAO ERQUAN
• WEI MENGJIAO
• CUI JIANXUN
• GAO TIANYOU
• JI ZEZHOU
• LIANG XIAOCHENG
• LU SHUGUANG
• YI YINGQIANG
• Yue Jincan
• GUO JIANRUI

Assignees

• 中交第一航务工程勘察设计院有限公司

Dates

Publication Date

20260508

Application Date

20250513

Claims (10)

1. 1. An environmental protection type transfer station floor structure, which is characterized by comprising: Transferring the station laminate; The plurality of shear steel bars are connected with the transfer station laminate and are respectively arranged in a transverse and longitudinal cross manner; A reinforcing mesh connected to the shear steel bar; And the light fine stone concrete is connected with the transfer station laminate in a pouring way, and the shear steel bars and the steel bar meshes are covered in the light fine stone concrete.
2. 2. The environmentally friendly transfer station floor structure of claim 1 wherein the surface of said transfer station deck is provided with a patterned structure.
3. 3. The environmentally friendly transfer station floor structure of claim 1 wherein said reinforcement mesh is connected to said shear reinforcement by wire tie.
4. 4. An environmentally friendly transfer station floor structure as claimed in any one of claims 1 to 3, wherein said transfer station floor is provided as a steel plate and said transfer station floor is provided with an opening.
5. 5. The environmentally friendly transfer station floor structure of claim 4 wherein a plurality of said shear bars are crisscrossed in a grid pattern, with longitudinal and transverse said shear bars being parallel to adjacent sides of said transfer station deck, respectively.
6. 6. The environmentally friendly transfer station floor structure of claim 5 wherein said shear bars in the transverse direction comprise a first transverse bar and a second transverse bar, said second transverse bar having a length less than the length of said first transverse bar, said first transverse bar being disposed crosswise to each longitudinal shear bar, said second transverse bar being disposed crosswise to a portion of said longitudinal shear bars.
7. 7. The environmentally friendly transfer station floor structure of claim 6 wherein said second transverse rebar is disposed crosswise to two longitudinal said shear rebars.
8. 8. The environment-friendly transfer station floor structure as claimed in claim 7, wherein the second transverse bars are arranged in at least two stages in the longitudinal direction, each stage is provided with at least two second transverse bars, and a plurality of the second transverse bars of each stage are uniformly arranged.
9. 9. The environment-friendly transfer station floor structure of claim 8, wherein two and three adjacent stages of the second transverse rebars are respectively arranged.
10. 10. The environmentally friendly transfer station floor structure of claim 9 wherein adjacent two levels of said second transverse rebars are staggered.

Description

Environment-friendly transfer station floor structure Technical Field The utility model belongs to the technical field of building structures, and particularly relates to an environment-friendly transfer station floor structure. Background At present, the number of large specialized bulk cargo wharfs built into production is numerous, and most of the switching machine rooms adopt steel structure type machine rooms. The machine room has the characteristics of short construction period, low investment and the like, but dust at the joint of the belt conveyor is serious in a high-humidity and high-salt environment of a port, the machine room floor needs to be washed regularly, the conventional floor adopts a pattern transfer station laminate, the cleaning work of the floor is difficult, and a large amount of water sprinkling and washing can accelerate the corrosion of a steel structure, so that the problems of water leakage of the floor, increase of the maintenance amount of the machine room, increase of the maintenance cost and the like are caused. Disclosure of utility model The utility model aims to provide an environment-friendly transfer station floor structure which solves the problems of high weight, difficult cleaning, poor corrosion resistance, difficult maintenance and short service life of the prior art, and ensures that the floor structure is light, easy to clean, corrosion-resistant, easy to maintain and long in service life. In order to achieve the above purpose, the present utility model adopts the following technical scheme: The utility model provides an environment-friendly transfer station floor structure which comprises transfer station laminates, shear steel bars, steel bar meshes and light fine stone concrete, wherein the number of the shear steel bars is at least two, a plurality of the shear steel bars are connected with the transfer station laminates and are respectively arranged in a transverse and longitudinal crossing manner, the steel bar meshes are connected with the shear steel bars, the light fine stone concrete is connected with the transfer station laminates in a pouring manner, and the shear steel bars and the steel bar meshes are covered in the light fine stone concrete. The environment-friendly transfer station floor structure is characterized in that a steel structure floor is formed by connecting the transfer station laminate, the shear steel bars and the steel bar meshes, and a floor slab is formed by connecting the light fine stone concrete and the steel structure floor slab, and can be suitable for being used as a floor slab of a transfer station. The lightweight fine stone concrete is beneficial to realizing the lightening, the contact of flushing water and the transfer station laminate can be effectively isolated through the lightweight fine stone concrete, the corrosion of a port high-humidity high-salt environment can be avoided, the connection strength of the lightweight fine stone concrete and a steel structure floor can be effectively increased through the shear steel bars and the steel bar meshes, gaps are avoided between the lightweight fine stone concrete and the transfer station laminate, and the corrosion of the transfer station laminate is avoided. The environment-friendly transfer station floor structure is suitable for providing an environment-friendly steel structure machine room floor which is light in weight, corrosion-resistant, easy to clean and easy to maintain for transfer station configuration. Preferably, the surface of the transfer station laminate is provided with a pattern structure. Preferably, the reinforcing mesh and the shear steel bar are connected through wire binding. Preferably, the transfer station laminate is provided as a steel plate. Preferably, a plurality of shear steel bars are crisscrossed to form a grid, and the longitudinal and transverse shear steel bars are respectively parallel to two adjacent sides of the transfer station laminate. Preferably, the transverse shear bars comprise first transverse bars and second transverse bars, the length of the second transverse bars is smaller than that of the first transverse bars, the first transverse bars are arranged in a cross mode with the shear bars in each longitudinal direction, and the second transverse bars are arranged in a cross mode with the shear bars in part of the longitudinal directions. Preferably, the second transverse rebars are arranged crosswise to the two longitudinal shear rebars. Preferably, the second transverse steel bars are arranged in at least two stages along the longitudinal direction, at least two second transverse steel bars are arranged in each stage, and a plurality of second transverse steel bars in each stage are uniformly arranged. Preferably, two adjacent stages of the second transverse reinforcing steel bars are respectively arranged into two and three stages. Preferably, the second transverse reinforcing steel bars of adjacent two stages are arra