Crane Sole Plate is used under crane rail. The primary function of soleplates is to provide rails with a flat and smooth resting surface. Soleplates are used to support the rails in situations where concrete is not strong enough to support crane rails. Depending on the load and the type of rail, soleplates can be made continuous or individual.
Technical Parameters of Crane Sole Plate
Material: Mild steel
Chemical composition %:
C: 0.14-0.22, Si:0.3 max; Mn:0.3-0.65; P:0.05 max; S: 0.05 Max
Mechanical properties:
Tensile strength Yield point Hardness Elongation Proof load
Bolt ≥375Mpa ≥235Mpa ≥120HB ≥23% -
Reference project of Crane Sole Plate
1. Indonesia
Crane Sole Plate,Crane Rail Soleplate,Soleplate For Crane Rail,Crane Rail TAICANG ZHONGBO RAILWAY FASTENING CO., LTD. , https://www.railfastener.com
The assembly line can be categorized into drum lines and belt conveyor lines. It offers the convenience of program control and automated operation, with advantages such as strong conveying capacity, long transportation distance, simple structure, and easy maintenance. This article mainly focuses on the working characteristics of the belt conveyor system.
**Key Features:**
Belt conveyors are ideal for transporting items weighing less than 30KG, or for moving powdery or granular materials. They operate at high speeds, offering stability, low noise levels, and the ability to move goods uphill or downhill. Qingdao Chuangjia Industrial specializes in manufacturing production line equipment, offering high-quality solutions at competitive prices.
**Common Applications:**
Belt conveyor systems are widely used in industries such as electronics and light manufacturing, as well as in airports and warehouses for material handling. Custom anti-static belts can be manufactured according to customer specifications, with adjustable width and length to suit different needs.
A belt conveyor line works by using a belt to drag the working platform, enabling continuous movement and achieving the desired production process. The assembly line adopts a modular design, allowing the number of stations to be adjusted based on specific process requirements. Each workstation is equipped with power outlets, work boards, and lighting, ensuring a smooth and efficient workflow. In contrast, trolley assembly lines use chains to drive trolleys that run in a horizontal loop, supporting tasks like aging, testing, and assembly.
These conveyor systems continuously transport cargo-handling machinery along a set path. They have a large carrying capacity and can cover long distances, while also performing multiple processing steps simultaneously during transportation. As a result, they are widely applied across various industries.
When designing an assembly line, it's essential to ensure that the route for part transportation is as short as possible, making it easier for workers to operate, simplifying the work of support departments, and maximizing the use of the production area. The layout should also consider the interconnection between different components of the assembly line. Therefore, the form of the pipeline and the arrangement of the installation lines must be carefully planned.
During installation, the placement of workstations should align with the production route. When there are multiple workstations for the same process, the arrangement method should be carefully considered. For example, when there are two or more even-numbered workstations, a two-column layout may be used, depending on the transportation route. If a worker is responsible for multiple machines, their position should be optimized to minimize travel distance.
By focusing on efficiency, ergonomics, and flexibility, modern assembly lines not only enhance productivity but also improve the overall working environment. Whether in manufacturing, logistics, or warehousing, these systems play a crucial role in streamlining operations and reducing costs.