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Enhance Wire Performance with Our Glass Fiber Optic Cable Twisting Machine Ideal

China Enhance Wire Performance with Our Glass Fiber Optic Cable Twisting Machine Ideal

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Enhance Wire Performance with Our Glass Fiber Optic Cable Twisting Machine Ideal

MOQ： 1 pcs
Price： Negotiation
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Payment Terms	Western Union, L/C, T/T
Supply Ability	500 pcs per Week
Packaging Details	630400475MM
Cable Type	Wire Reel Wire Feeder Machine Cable
Gross Weight	20KG
Paintcoat Color	Black or Orange or ,Yellow ,others
Cable Purpose	Project application
Length	500 m to 1000m
Size	630X400
Package	630400475MM
Capacity	500M-1000M
Brand Name	HICORPWELL
Model Number	Wire Reel Wire Feeder Machine Cable
Certification	IEC 60794-2-10/11
Place of Origin	China

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Product Specification


Payment Terms	Western Union, L/C, T/T	Supply Ability	500 pcs per Week
Packaging Details	630400475MM	Cable Type	Wire Reel Wire Feeder Machine Cable
Gross Weight	20KG	Paintcoat Color	Black or Orange or ,Yellow ,others
Cable Purpose	Project application	Length	500 m to 1000m
Size	630X400	Package	630400475MM
Capacity	500M-1000M	Brand Name	HICORPWELL
Model Number	Wire Reel Wire Feeder Machine Cable	Certification	IEC 60794-2-10/11
Place of Origin	China
High Light	glass fiber optic cable twisting machine ，fiber optic cable machine for electronics ，automotive fiber optic cable twister

A Wire Twisting Machine (wire stranding machine) is specialized automation equipment used to twist single or multiple strands of wire into a unified, structured strand. It is widely applied in the wire and cable, electronics, automotive, and electrical manufacturing industries, playing a key role in improving wire conductivity, mechanical strength, and stability.

1. Core Functions & Application Scenarios

Its primary function is to twist discrete wires (such as copper, aluminum, tinned copper, enameled wire, or fiber optic conductors) into a single, integrated strand. The twisted structure enhances the wire’s performance—for example, reducing signal interference in communication cables or increasing load-bearing capacity in power cables.

Typical Application Fields:

Wire & Cable Manufacturing: Stranding for power cables (0.6/1kV low-voltage to 110kV high-voltage), LAN cables (Cat5e/Cat6), automotive wiring harnesses, and coaxial cables.
Electronics Industry: Twisting of enameled wire for motors/transformers, and flexible wire for connectors.
Specialty Wire Processing: Production of braided wire, shielded wire, and medical-grade precision wire.

2. Working Principle

The operation of a wire twisting machine follows a "unified tension supply → synchronous twisting → stable traction → precise winding" workflow, driven by mechanical transmission and automated control. The core steps are as follows:

Step 1: Wire Unwinding & Tension Control

Unwinding Mechanism: Raw wires are wound on multiple pay-off spools (the number depends on the required number of strands, e.g., 7-strand or 19-strand stranding). These spools are mounted on a rotating "pay-off turntable" or fixed pay-off frames.
Tension Regulation: Each pay-off spool is equipped with a tension control device (e.g., magnetic powder brake, dancer arm, or damping wheel) to ensure consistent tension across all wires. Unstable tension causes uneven twisting or wire breakage.

Step 2: Core Twisting Process

This is the key link, and the twisting method varies by machine type (see Section 3 for classifications). The core principle is to use a rotating mechanism to drive the wires to spiral around a central axis:

Twisting Drive: A servo motor or variable-frequency motor drives a "twisting bow" (a U-shaped rotating component) or "twisting cage" (a multi-spindle turntable) via a reducer and synchronous belt.
Strand Formation: As the twisting bow/cage rotates, the wires from the pay-off spools are pulled into the twisting zone, where they spiral around each other to form a stranded conductor. The rotation speed directly determines the "twist pitch" (distance between adjacent spirals)—higher speed = shorter pitch = tighter twist.

Step 3: Traction & Length Control

Traction Mechanism: After twisting, the integrated strand is pulled forward by a pair of traction wheels (usually rubber-coated to avoid wire damage). The traction speed is synchronized with the twisting speed to prevent slack or stretching.
Length Monitoring: An encoder is installed on the traction wheel to count its rotations. The system calculates the actual length of the stranded wire (based on wheel circumference × rotations) and triggers a cut or stop signal when the preset length is reached.

Step 4: Winding & Collection

The twisted wire is evenly wound onto a take-up spool via a "traverse guide" (a reciprocating component that ensures the wire is neatly arranged without overlapping). The take-up spool is driven by a torque motor or servo motor, with speed adjusted to match the traction speed for stable winding.

Step 5: Abnormal Protection

Sensors (e.g., wire breakage detectors, tension sensors, or overload switches) monitor the process in real time. If a wire breaks, tangles, or tension exceeds the threshold, the system immediately stops the machine and triggers an alarm to avoid equipment damage or defective products.

3. Main Types of Wire Twisting Machines

Machines are classified by structure and twisting method, each suited to different wire specifications and production needs:

Type	Core Structure	Advantages	Suitable Wire Specifications
Bow Type Twister	U-shaped rotating "twisting bow"	Simple structure, low cost, easy maintenance	Thin wires (0.05-1mm diameter), small-batch production
Cage Type Twister	Multi-spindle rotating "twisting cage"	High twisting speed, stable for multi-strand (7-37 strands)	Medium-thick wires (0.1-3mm diameter), mass production
Planetary Twister	Planetary gears drive pay-off spools	Ultra-high speed (up to 10,000 rev/min), precise pitch	Fine wires (0.01-0.5mm diameter), precision electronics
Rigid Frame Twister	Fixed frame + rotating pay-off turntable	Suitable for large cross-section wires	Thick wires (3-16mm diameter), power cable stranding

4. Key Technical Parameters

Parameters directly affect the machine’s performance and applicable wire range. When selecting a machine, focus on the following:

Parameter	Definition	Typical Range
Maximum Rotation Speed	Rotational speed of the twisting bow/cage (determines twist pitch)	500-10,000 rev/min (varies by machine type)
Suitable Wire Diameter	Range of raw wire diameters the machine can process	0.01mm (fine enameled wire) - 20mm (thick copper wire)
Stranding Area	Total cross-sectional area of the twisted strand (sum of single wire areas)	0.035mm² (micro-wire) - 100mm² (high-voltage cable)
Twist Pitch Adjustment	Minimum/maximum distance between adjacent spirals (adjustable via speed)	5mm-500mm (customizable for different standards)
Number of Strands	Maximum number of raw wires that can be twisted simultaneously	2-strand (minimum) - 127-strand (large cage machines)
Traction Speed	Forward speed of the twisted wire (synchronized with twisting speed)	10-500 m/min

5. Key Advantages

Compared to manual twisting or semi-automatic equipment, automatic wire twisting machines offer significant benefits:

High Precision: Servo motor control ensures consistent twist pitch and strand tightness, reducing product defect rates.
Efficient Production: Continuous operation with speeds 5-10x faster than manual work, suitable for mass production.
Stable Performance: Tension control and abnormal protection systems minimize wire breakage and tangling.
Flexibility: Adjustable parameters (twist pitch, number of strands, speed) adapt to diverse wire specifications.

6. Common Troubleshooting & Maintenance

To ensure stable operation, regular maintenance and timely troubleshooting are essential:

Common Issues & Solutions

Uneven Twisting: Check if tension devices (magnetic powder brakes) are worn; re-calibrate tension for each pay-off spool.
Wire Breakage: Reduce twisting speed or traction tension; replace worn traction wheels (if causing excessive friction).
Irregular Winding: Adjust the traverse guide’s reciprocating speed; ensure the take-up spool is properly balanced.

Routine Maintenance

Daily: Clean wire chips and dust from the twisting zone; check tension devices for looseness.
Weekly: Lubricate rotating parts (bearings, gears); inspect belts/chains for wear.
Monthly: Calibrate encoders and tension sensors; test the alarm system for responsiveness.

In summary, wire twisting machines are indispensable in modern wire processing. Their performance directly determines the quality of downstream products (e.g., cables, motors). Selecting the right machine type and maintaining it properly are critical for improving production efficiency and product competitiveness.

Corrugated Sizes	Flange Diameter (mm)	Outer Width (mm)	Barrel Diameter (mm)	Inner Width (mm)	Load Capacity (kg)
2000X1200X1000	2000	1210	1200	1000	5000
2250X1050X1400	2250	1650	1050	1400	5300
2800X1800X1400	2800	1650	1800	1400	13000
3000X1800X1400	3000	1650	1800	1400	15000
355X178X200	355	256	178	200	150
630X350X412	630	450	350	412	1000
1200X600X800	1200	1000	600	800	1500
1400X700X1000	1400	1210	700	1000	2500
1600X800X1000	1600	1210	800	1000	3700
1800X900X900	1800	1100	900	900	4200
200014001000	2000	1210	1400	1000	4600

A plan about underwind left lay steel wire rope from left to right

Underwind - left to right

A plan about underwinding left lay steel wire rope from right to left

Underwind - right to left

A plan about overwind left lay steel wire rope from left to right

Overwind - left to right

A plan about overwinding left lay steel wire rope from right to left

Overwind - right to left

The right hand normally are used to determining right-lay wire ropes and the left hand for left lay wire ropes when standing toward the drum. The clenched fingers represent the drum and the extended finger stands for the oncoming rope.

Many crane models also have two sided grooved drums for winding wire ropes as shown in the picture.

A plan about winding steel wire rope on two sided grooved drum, with left lay rope on the left to right lay rope on the right

Tow side grooved drums-1

A plan about winding steel wire rope on two sided grooved drum, with right lay rope on the left to left lay rope on the right

Tow side grooved drums-2

When re-reeling steel wire ropes from horizontally supported reel to another drum, make sure that the rope is traveling from the top of the reel to the top of the drum or bottom to bottom to avoid a reverse bend. Look at the following picture about the right and wrong method of re-reeling:

Right method of re-reeling wire ropes

A plan about the wrong method-1of re-reeling wire ropes

Wrong method of re-reeling wire ropes

A plan about the wrong method-2 of re-reeling wire ropes

Wrong method of re-reeling wire ropes

Note:
When re-reeling steel wire ropes, make sure the surface of the drum is clean, smooth and dry to protect wire ropes from damages by foreign particles.

For reels with vertical shafts, re-reeling is also available but you must to ensure the rope is always taut to avoid accumulation of slack.

Company Details

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Business Type:

Manufacturer,Importer,Exporter 
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Year Established:

2013 
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Total Annual:

3,000,000-5,000,000
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Employee Number:

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Shenzhen Hicorpwell Technology co.,Ltd was founded in 2013 is located in Shenzhen , workshop area more than 3000 square meters . The company is at the forefront of Research &Development, Manufacturing, and Sales of a broad range of fiber optic and connectivity products, includi... Shenzhen Hicorpwell Technology co.,Ltd was founded in 2013 is located in Shenzhen , workshop area more than 3000 square meters . The company is at the forefront of Research &Development, Manufacturing, and Sales of a broad range of fiber optic and connectivity products, includi...

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Rm 604 Bldg 9th Yinxingyuan South Rd Nanshan District 518054 Shenzhen China
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