Precisionparallelblock

The balancing block, also known as the balancing blocks, is mainly used to withstand the pressure of the injection molding machine. In mold design, the role of the balance block is crucial, especially when maintaining a certain distance between the A / B boards. The presence of equilibrium blocks can significantly improve the performance of the mold and avoid problems such as fly-bys. Specifically, the role of the balancing block is reflected in the following ways:
Balance function: The balance block mainly plays the role of balancing the A and B plate mold. B The interplate contact surface to withstand the injection molding pressure of the injection machine can effectively reduce problems such as collapse, margin and strain caused by imbalance during cavity molding, even in the presence of scaffold processing errors and uneven adhesion position everywhere on the forming surface.
Controlling the balance: In large molds, the balance block can also be used to control the balance, especially when the mold is uneven due to errors in the machine tool and various aspects during the machining process. By reserving the position height of the equilibrium block, it can be gradually smoothed during molding, effectively controlling the balance of the mold and reducing the hair edge and unstable factors.
Symmetry and equilibrium: The use of balancing blocks also reflects the principles of symmetry and equilibria, which are essential to ensure mold stability and product quality. By the setup of the balance block, the symmetry and equilibrium of the mold can be achieved, thereby improving the overall quality and appearance of the product.
Parallel blocks play an important role in mold manufacturing and machining and are mainly used to balance molds or mechanical parts to ensure their smooth operation and precise operation. Parallel blocks, also known as balancing blocks, are mainly used to withstand the lock pressure of the injection machine to avoid problems caused by imbalances in the mold or mechanical parts. In mold design, the use of parallel blocks can significantly reduce problems such as hair edges, collapses and strains caused by imbalances, especially in large molds. Due to machining errors or machine tool errors, if parallel blocks are not used to balance, it may cause one side of the hair edges to be too large during mold testing. By adjusting the position and height of parallel blocks, the height can be set aside during molding and smoothed gradually to achieve the purpose of balance, which is very beneficial for avoiding deep cavity dislocation of hair edges.
The application of parallel blocks is not limited to the mold field, but also plays an important role in machining. For example, in the operation of a milling machine, parallel blocks are used to ensure the stability and machining accuracy of the workpiece. They can provide additional support and stability, helping the workpiece to remain in parallel positions on its workbench, thus ensuring machining accuracy. In addition, parallel blocks can also be used in jigs such as tiger pliers to provide additional support and stability, ensuring the stability and safety of workpieces during machining.
On the market, parallel blocks have a variety of specifications and materials to choose from to meet the needs of different applications. For example, there are parallel blocks of different sizes and shapes that are suitable for different types of molds and mechanical parts. In terms of materials, parallel blocks are usually made of high-strength materials to ensure their durability and stability. In addition, the price of parallel blocks also varies depending on factors such as their mat