High-Speed Wire Straighten And Cut Machines are specialized equipment designed for processing metal wires with precision and efficiency. These machines are capable of straightening coiled or bent wires and cutting them to specified lengths at high speeds. They are widely used in industries that require precise wire components, such as construction, automotive, and manufacturing. The machines typically consist of a straightening unit, a cutting mechanism, and a control system to ensure accuracy and consistency.
Applications of High-Speed Wire Straighten and Cut Machines
1. Construction Industry: Used for producing reinforcement bars (rebar) and other wire components used in concrete structures.
2. Automotive Industry: Employed in the manufacturing of wire parts for vehicles, such as springs, cables, and fasteners.
3. Manufacturing: Used to produce wire components for various products, including furniture, appliances, and machinery.
4. Electronics: Applied in the production of wire elements for electronic devices and components.
5. Wire Mesh Production: Used in the fabrication of wire mesh for fencing, screens, and filters.
High-speed wire straighten and cut machines are essential for industries requiring precise and efficient wire processing. Their advantages in terms of efficiency, precision, versatility, cost-effectiveness, and durability make them a valuable asset in various manufacturing and construction processes.
Advantages of High-Speed Wire Straighten and Cut Machines
High Efficiency
These machines operate at high speeds, significantly increasing production rates and reducing processing time.
Precision
Advanced control systems ensure accurate straightening and cutting, resulting in uniform wire lengths and shapes.
Versatility
They can handle a wide range of wire diameters and materials, including steel, stainless steel, and aluminum.
Cost-Effectiveness
By automating the straightening and cutting process, these machines reduce labor costs and material waste.
Durability
Built with robust materials and components, these machines are designed for long-term use in demanding industrial environments.
Machine Parameters
| Diameter (mm) | 3-6 | 4-8 | 5-12 | 8-14(6-14) | 10-16(8-16) | 12-20 |
| Speed (m/min) | Max120 | max120 | Max 130 | Max 130 | Max 130 | max60 |
| Straightness accuracy | ±1mm | ±2mm | ||||
| Length accuracy | ±1mm | ±2mm | ||||
| Power | 4+1.5+2.6+2kw | 11+3kw | 30+7.5kw | 37+7.5kw | 45+7.5kw | 30+18.5kw |
01
Requirement Communication
We discussed the detaills for customer’s requirements including product specifications, functions, etc.
02
Scheme Design
According to customer needs, the company's design department provides a preliminary design plan and confirms it with the customer.
03
Technical Evaluation
The technical team conducts a feasibility evaluation of the plan to ensure that it meets production requirements and customer needs.
04
Contract Signing
After the two parties reach a consensus on the design plan, price, delivery date, etc., they sign a formal contract.
05
Manufacturing
The production department customizes the equipment according to the contract requirements to ensure quality and performance.
06
Quality Inspection
The quality inspection department conducts strict debugging and inspection of the finished equipment to ensure that it meets customer requirements.
07
Delivery Acceptance
After the customer's on-site/video debugging and acceptance is qualified, the product will be delivered and relevant operation guidance will be provided.
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