English
| Quantity: | |
|---|---|
1.Product Introduction
Progressive Die, also known as continuous die, is a multi-station die used in stamping process. It can complete different processing steps in sequence through multiple stations in one stroke of the punch press, such as punching, blanking, bending, trimming, and drawing.
2.Technical Parameter
Shaping Mode | Punching Press Mould |
Brand Name | BESCOMT |
Model Number | Customized |
Product Material | SKD11 |
Product Name | Automatic Washer Power Press Punching Mould for Production Line |
Type | Punching Mould |
Surface Treatment | Polished |
Cavity | Customized |
capacity | As Model |
Selling Units | Single ltem |
Single Package size | 50x50x50cm |
Single Gross Weight | 68.000 kg |
3.Product Advantage
High production efficiency: It is able to complete multiple stamping processes in a single punch stroke, significantly improving production efficiency.
Reduce material waste: High material utilization reduces material waste and helps reduce costs.
Safe operation: Operators do not need to put their hands into the dangerous area of the mold, reducing the risk of work-related accidents.
Consistent product quality: Reduced intermediate transfers and repeated positioning ensure the size and shape accuracy of the product and improve the consistency of product quality.
Reduced labor intensity: The automation of the production process reduces the labor intensity of workers.
Suitable for large-scale production: Suitable for mass production, it can significantly reduce the production cost of a single product.
Long mold life: By dispersing the process and setting empty positions, the mold strength is improved and the mold life is extended.
Easy to automate: Progressive molds are easy to integrate with automation equipment to achieve automated production.
Reduced production footprint: Due to high production efficiency, the required production space is relatively small.
Reduced work-in-process inventory: The fast production cycle reduces the inventory of work-in-process, thereby reducing inventory costs.
Improved material strength: By dispersing the load, higher strength molds can be designed.
These advantages of progressive dies make them very popular in many industrial applications, especially where high efficiency and high precision are required.
4.Product Uses
Progressive dies are widely used in metal stamping in the electronics, automobile, home appliance, machinery manufacturing and other industries, and are particularly suitable for the production of stamping parts with complex shapes and numerous processes. For example, in the automotive industry, progressive dies can be used to produce stamping parts such as automobile door panels, engine hoods, bumpers, seat frames, instrument panel brackets, wheel covers, etc. In addition, it is also suitable for the production of hardware products, electrical parts, etc. The design and manufacture of progressive dies require high precision and technical level, and are suitable for mass production. They are not suitable for parts with small output or thick materials.
5.Product Video
6.Customer Reviews
1.Product Introduction
Progressive Die, also known as continuous die, is a multi-station die used in stamping process. It can complete different processing steps in sequence through multiple stations in one stroke of the punch press, such as punching, blanking, bending, trimming, and drawing.
2.Technical Parameter
Shaping Mode | Punching Press Mould |
Brand Name | BESCOMT |
Model Number | Customized |
Product Material | SKD11 |
Product Name | Automatic Washer Power Press Punching Mould for Production Line |
Type | Punching Mould |
Surface Treatment | Polished |
Cavity | Customized |
capacity | As Model |
Selling Units | Single ltem |
Single Package size | 50x50x50cm |
Single Gross Weight | 68.000 kg |
3.Product Advantage
High production efficiency: It is able to complete multiple stamping processes in a single punch stroke, significantly improving production efficiency.
Reduce material waste: High material utilization reduces material waste and helps reduce costs.
Safe operation: Operators do not need to put their hands into the dangerous area of the mold, reducing the risk of work-related accidents.
Consistent product quality: Reduced intermediate transfers and repeated positioning ensure the size and shape accuracy of the product and improve the consistency of product quality.
Reduced labor intensity: The automation of the production process reduces the labor intensity of workers.
Suitable for large-scale production: Suitable for mass production, it can significantly reduce the production cost of a single product.
Long mold life: By dispersing the process and setting empty positions, the mold strength is improved and the mold life is extended.
Easy to automate: Progressive molds are easy to integrate with automation equipment to achieve automated production.
Reduced production footprint: Due to high production efficiency, the required production space is relatively small.
Reduced work-in-process inventory: The fast production cycle reduces the inventory of work-in-process, thereby reducing inventory costs.
Improved material strength: By dispersing the load, higher strength molds can be designed.
These advantages of progressive dies make them very popular in many industrial applications, especially where high efficiency and high precision are required.
4.Product Uses
Progressive dies are widely used in metal stamping in the electronics, automobile, home appliance, machinery manufacturing and other industries, and are particularly suitable for the production of stamping parts with complex shapes and numerous processes. For example, in the automotive industry, progressive dies can be used to produce stamping parts such as automobile door panels, engine hoods, bumpers, seat frames, instrument panel brackets, wheel covers, etc. In addition, it is also suitable for the production of hardware products, electrical parts, etc. The design and manufacture of progressive dies require high precision and technical level, and are suitable for mass production. They are not suitable for parts with small output or thick materials.
5.Product Video
6.Customer Reviews
