Five practical ways to improve bending efficiency

In sheet metal processing production, the bending process is often one of the key links that determines delivery time and cost. As the market's requirements for delivery speed and product precision continue to increase, how to improve bending efficiency without sacrificing quality has become a core issue of concern to many manufacturing companies. Combining our years of customer experience and equipment optimization practices, the following five methods can effectively help companies improve bending efficiency and reduce production costs.

1. Reasonably plan the process flow to reduce repeated positioning

In bending production, many factories tend to overlook the importance of process sequence. By rationally planning the bending sequence during the programming phase and reducing multiple turns and repeated positioning of the workpiece, the operation time can be significantly shortened.

For example, concentrating multiple bending sections in one positioning process not only improves efficiency but also maintains angle consistency. In addition, modern CNC systems usually have automatic process optimization functions, which can automatically plan the optimal bending path according to the shape of the part, greatly reducing manual intervention.

2. Use the quick mold change system to save mold change time

For orders with multiple varieties and small batches, frequent mold changes are an "invisible killer" of efficiency. Traditional mold changing methods often take more than ten minutes or even longer, but with the use of a rapid mold clamping system or automatic mold loading device, the mold changing time can be shortened to less than a few minutes.

Combined with the modular mold design, it can not only quickly switch commonly used angle molds, but also reduce loading and unloading errors and ensure bending accuracy. For companies with highly variable orders, this is one of the most direct and practical ways to improve efficiency.

3. Introduce pure electric or electro-hydraulic servo bending machines to improve processing rhythm

Compared with traditional hydraulic bending machines, pure electric bending machines and electro-hydraulic servo bending machines have more advantages in response speed and repeat positioning accuracy.

The pure electric drive system can achieve extremely fast slider return speed and stable bending rhythm, which can increase the production cycle by 20%-40%. At the same time, due to the simplified structure and lower maintenance requirements, the equipment utilization rate is significantly improved.

In terms of energy saving, the energy consumption of pure electric bending machines is about 30% lower than that of hydraulic presses. For factories that run for a long time, this is a considerable long-term benefit.

4. Optimize programming and bending compensation to reduce rework rate

Bending efficiency is not only reflected in speed, but also in the first-time pass rate.

By using offline programming software to perform unfolding calculations, bending compensation, and interference detection in advance, on-site trial and error can be avoided. Combined with an intelligent control system, the press brake automatically adjusts bending force and angle compensation based on plate thickness, material, and V-groove width, ensuring every bend is precise.

Reducing the number of trial folds and avoiding rework not only saves time but also significantly reduces material waste.

5. Training and standardized operations to improve overall efficiency

Even the most advanced equipment requires skilled operators. Establishing standardized operating procedures, bending process database and angle correction templates allows different employees to quickly get started and maintain a stable processing rhythm.

In addition, regular training of operators in programming skills and process awareness can also continuously improve production efficiency. For example, some skilled technicians can reduce single-piece processing time by 2-3 seconds by optimizing their loading posture and adjusting the backgauge speed. This improvement is highly effective in mass production.

summary

Improving bending efficiency isn't achieved overnight; it requires systematic optimization from process planning, equipment selection, to personnel training.

In the fierce competition in the manufacturing industry, factories that can perform bending processes quickly and accurately often have greater delivery capabilities and market advantages. Through the above five practical methods, enterprises can not only improve the production rhythm, but also find the best balance between quality stability and cost control.

At ZYCO, we understand that every sheet metal fabricator's production needs are unique.
To help customers further improve bending efficiency, we provide free bending sequence optimization solutions for all customers who place orders. Our professional technical team will analyze and plan based on your part drawings to help you reduce unnecessary positioning times and optimize the process sequence, thereby saving time and materials in actual production.

This is not only an equipment purchase, but also an upgrade of productivity. Choose ZYCO and make bending smarter and more efficient.