Cone Yarn Dyeing Machine
Cone Yarn Dyeing Machine
Cone Yarn Dyeing Machine
Cone Yarn Dyeing Machine
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    Cone Yarn Dyeing Machine
    Cone Yarn Dyeing Machine
    Cone Yarn Dyeing Machine
    Cone Yarn Dyeing Machine
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    Cone yarn Dyeing machine

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    Cone Yarn Dyeing Machine

    Cone Yarn Dyeing Machine

     

    A Cone Yarn Dyeing Machine is an industrial machine used for dyeing yarn wound on perforated cones. It allows dye liquor to flow through the yarn packages under pressure and temperature, ensuring deep and uniform color penetration. A Production Cone Yarn Dyeing Machine is a large-capacity, high-efficiency machine designed for dyeing yarns wound on cones in bulk. It’s essential in commercial textile operations where consistent shade, penetration, and process repeatability are critical.

     

     

    Purpose of Cone Yarn Dyeing Machine:

    To dye large batches of yarn cones efficiently and consistently.

     

    Key Components:

    Dyeing Vessel:   – A vertical or horizontal pressure vessel made of stainless steel (SS 316/304), designed to withstand high pressure and temperature.

    Yarn Carrier (Spindles):   – Holds multiple cones arranged on perforated spindles allowing dye to pass through.

    Circulation Pump:  – Forces dye liquor through yarn in inward and/or outward flow for thorough penetration.

    Heat Exchanger: – Heats dye bath using steam or thermal fluid, with precise control.

     

    Control System (PLC): – Fully automated for setting temperature profile, flow direction, timing, and rinsing cycles.

    Liquor Tanks & Valves: – For preparation, dosing, and circulation of dyes, chemicals, and water.

     

    Working Cycle:

    Loading: Cones are placed on carriers and loaded into the machine.

    Liquor Preparation: Dye and auxiliaries mixed in a separate tank or directly.

    Dyeing: Liquor is circulated through cones under set temperature and pressure.

    Rinsing & Soaping: Post-dyeing cleaning and neutralization cycles.

    Cooling & Unloading: Bath cooled; cones unloaded for hydro extraction.

     

    Production Capacity:

    Varies from 5 kg lab models to over 1000 kg per batch in industrial setups.

     

    How to Use Production Cone Yarn Dyeing Machine:

    Preparation: – Inspect the machine for cleanliness and proper function.

    – Prepare dye liquor by mixing dyes and auxiliaries according to recipe.

    Loading Yarn:

    – Place yarn cones evenly on perforated spindles/carriers.

    – Load the carriers into the dyeing vessel securely.

     

     

    Set Parameters: – Input dyeing parameters on the control panel (temperature, time, flow direction, pressure).

    Start Dyeing Cycle: – Begin liquor circulation and heating. – Monitor temperature and pressure for stability.

    Flow Control: – Switch between inward and outward liquor flow as programmed to ensure uniform dyeing.

    Rinsing & Soaping: – After dyeing, run rinse cycles to remove unfixed dye and chemicals.  – Soaping cycle if required for color fixation.

     

    Cooling:  – Lower temperature gradually to avoid thermal shock.

    Unloading: – After the cycle completes, safely open the vessel.  – Remove dyed cones and transfer for hydro-extraction or drying.

    Cleaning: – Clean the vessel and filters for the next batch.

    Tips:

    Always check for uniform loading to avoid uneven dyeing.

     

    Applications of Cone Yarn Dyeing Machine:

    Used in yarn dyeing mills for cotton, polyester, viscose, and blended yarns.

    Ideal for commercial-scale dyeing before weaving or knitting.

     

    Working Principle:

    Yarn cones are stacked on spindles inside a dyeing vessel.

    Dye liquor is pumped through the cones (inward or outward flow).

    Temperature, pressure, and time are controlled digitally for accurate dyeing.

     

    Benefits of Cone Yarn Dyeing Machine:

    Uniform Dye Penetration – Ensures even color across the entire yarn cone.

    High Productivity – Capable of dyeing multiple cones simultaneously.

    Efficient Dye Utilization – Recycles dye liquor to reduce waste and cost.

    Energy & Water Saving – Optimized cycles lower water, steam, and chemical usage.

    Consistent Quality – Controlled temperature and pressure ensure repeatable results.

    Suitable for Various Yarns – Handles cotton, polyester, viscose, acrylic, and blends.

     

    Features of Cone Yarn Dyeing Machine:

    High-Pressure Dyeing Vessel – Made from stainless steel for durability and corrosion resistance.

    Inward/Outward Flow System – Alternating flow ensures full yarn coverage.

    Automatic Controls – PLC or digital panel for temperature, time, and pressure settings.

    Heat Recovery System (optional) – Saves energy by recycling heat from spent liquor.

     

    Safety Mechanisms – Includes pressure relief valves and auto-locking lids.

    Multiple Carrier Sizes – Supports various bobbin sizes and production capacities.

    Follow safety procedures due to high pressure and temperature.

    Use proper protective equipment when handling chemicals.

     

    Safety Tips for Production Cone Yarn Dyeing Machine:

    Always wear appropriate PPE (gloves, goggles, apron) when handling dyes and chemicals.

    Ensure the dyeing vessel lid is securely locked before starting the machine.

    Do not open the vessel while it is pressurized or hot.

    Follow emergency shutdown procedures if abnormal noise, leaks, or pressure occur.

    Keep the workspace clean and free of slip hazards from spilled liquids.

    Regularly inspect safety valves and pressure gauges for proper function.

    Train operators on emergency response and chemical handling protocols.

     

    Maintenance Tips:

    Clean the dyeing vessel and filters after each batch to prevent residue build-up.

    Regularly check and lubricate moving parts like pumps and valves.

    Inspect seals and gaskets to avoid leaks under pressure.

    Calibrate temperature and pressure sensors periodically.

    Check electrical panels and control systems for damage or loose connections.

    Schedule preventive maintenance as recommended by the manufacturer.

     

     

    Production Cone Yarn Dyeing Machine

    Safety Checklist

    ☐ Wear PPE (gloves, goggles, apron) during operation

    ☐ Ensure vessel lid is securely locked before starting

    ☐ Never open vessel when pressurized or hot

    ☐ Follow emergency shutdown procedures if issues arise

    ☐ Keep floor clean and dry around machine

    ☐ Regularly inspect safety valves and pressure gauges

    ☐ Train operators on emergency and chemical handling

     

     

    Maintenance Checklist

    ☐ Clean vessel and filters after each batch

    ☐ Lubricate pumps, valves, and moving parts regularly

    ☐ Inspect seals and gaskets for wear or leaks

    ☐ Calibrate temperature an

     

    TECHNICAL DATA OF THE MACHINE

    • Computer system: Foshan HuaGao Chinese English computer, equipped with LG PLC.
    • Electromagnetic valve: Ningbo Jiaerling
    • Frequency converter: Use Made in China frequency converters.
    • Pump: self-made high head and large flow centrifugal water pump.
    • Main pump motor: Anhui Wannan Motor.

     

    • Master cylinder liquid level: Use 4-20mA analog signal output.
    • Level of deputy temporary worker: use foam water level gauge. (American Mike)
    • Temperature detection and display: digital temperature display instrument, dual temperature measuring probes.
    • The safety system has a triple cylinder head safety interlock mechanism, and the main cylinder is equipped with a stainless
    • steel safety valve.
    • Heat exchanger: external spacer heating.

     

    • Feeding system: Quantitative feeding based on the process curve.
    • Circulation system: The main pump flows internally and externally, which is automatically controlled by a computer or manually controlled by a relay.
    • Valves: Y valves are used for heating, stainless steel Y valves are used for single inlet and single row, and other Y valves are produced by joint ventures.
    • Temperature control: on-off temperature control, controlled by a computer, with automatic heating, cooling, and insulation functions.
    • Dyeing method: air cushion type.

     

    • Opening method: manual opening.
    • Surface treatment: polishing inside and outside the cylinder.
    • Cage: Each dyeing machine is equipped with butterfly blades and self-locking locks.
    • Body plate: high-quality stainless steel. (S31603)
    • Bath ratio: 1:5-1:6

     

    • Chemical material system: including heating and water adding functions, including overflow type salt melting device.
    • Overflow cleaning: The cleaning port is installed on the upper part of the cylinder port, and the bottom of the cylinder is filled with water, while the cylinder is drained for easy cleaning.
    • Commutation method: Novel “U” type commutation.
    • Random accessories: Each model comes with one set of mechanical seals, pot mouth rings, and reversing seals for the main and auxiliary pumps.

      Cone Yarn Dyeing Machine

      Cone Yarn Dyeing Machine

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    IR Dyeing machine Dunlin is Safe, high efficiency, environment friendly, energy saving, optimum for new dyeing small sample machines

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    2. Enhances R&D Accuracy - Supports consistent material testing during product innovation and textile finishing.
      Features of Fabric Stiffness Tester:
    1. Graduated Measurement Scale - Precise scale to measure overhang length for accurate stiffness calculation.
    2. Flat Test Platform - Smooth, level surface ensures consistent and reliable fabric movement.
    3. Standard Deflection Angle Guide - Built-in 41.5° angle reference for consistent stiffness testing (per ASTM/ISO).
    4. Manual or Motorized Models - Available in both types for simple or automated operation depending on lab needs.
    5. Compact Design - Space-saving unit ideal for textile labs and quality control rooms.
     
    1. Sample Holder or Clamp - Ensures correct alignment and smooth feeding of fabric strips during testing.
    2. Durable Construction - Made of corrosion-resistant materials like stainless steel or aluminum for long-term use.
    3. Compliance with Standards - Supports methods like ASTM D1388, ISO 9073-7 for stiffness testing of fabrics.
     
    1. Lightweight and Portable - Easy to move and use in various lab settings.
    2. Low Maintenance - Simple mechanical parts require minimal servicing.
      How to Use Fabric Stiffness Tester (Cantilever Method):
    1. Prepare the Sample - Cut the fabric into a rectangular strip (e.g., 25 mm × 200 mm), as per standard.
    2. Place the Sample - Lay the fabric strip flat on the test platform with one end aligned at the zero mark.
    3. Slide the Fabric - Gently push the fabric forward so it slowly overhangs the platform.
     
    1. Watch for Deflection - Stop sliding when the free end of the fabric bends down to the reference angle (typically 41.5°).
    2. Read the Bending Length - Measure the overhang distance from the scale. This is the bending length (C).
    3. Calculate Flexural Rigidity
    - Use the formula: G = W × C³ Where: - G = Flexural rigidity (mg·cm) - W = Fabric weight per unit area (mg/cm²) - C = Bending length (cm)  
    1. Repeat for Accuracy - Test both warp and weft directions and average the results for better accuracy.
    Tip: Always perform the test in a controlled environment (standard temperature and humidity) for reliable results.         Fabric Stiffness Tester Scope of application It is used to measure the stiffness of cotton, wool, silk, linen, chemical fibers and other woven fabrics, knitted fabrics, general nonwovens, coated fabrics, etc. It is also suitable for measuring the stiffness of paper, leather, film and other flexible materials. Relevant Standards GB/T 18318, ASTM D 1388, IS09073-7, BS EN22313 etc. [Instrument Characteristics] 1. Infrared photoelectric invisible inclined plane detection system replaces the traditional tangible inclined plane, realizes non-contact detection, and overcomes the problem that the measurement accuracy is affected by the sample torsion lifted by the inclined plane. 2. The inclination adjustable mechanism of instrument measurement to meet different test requirements. 3. Stepping motor drive, accurate measurement, smooth operation; 4. The color touch screen display can show the extended length, bending length, bending stiffness of the sample, the warp average, the weft average and the total average of the above values respectively. 5. Printing of Chinese report forms for thermal printers. Technical parameters 1. Test methods: The two method (A method: Weft test, B method: Forward and backward test) 2. Measurement angle:41.5 degree, 43 degree and 45 degree adjustable 3. Extend the length range:5-220 mm (special requirements can be made at the time of ordering) 4. Length resolution:0.01mm 5. Measurement accuracy:±0.1mm 6. Specimen specifications:250×25mm 7. Work platform specifications:250×50mm 8. Specification of sample pressing plate:250×25mm 9. Pushing speed of press plate:3 mm/s; 4 mm/s; 5 mm/s 10. Display output: Touch screen display 11. Print Output: Chinese Report 12. Data Processing Volume: A total of 15 groups, each group less than 20 trials 13. Printer: Thermal printer 14, power supply:AC220V 50Hz 15. Host volume:570mm×360mm×490mm 16. Host weight:20kg
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    Card Winding Machine
    Card Winding Machine

    Card winding machine

    $0.00

    Card Winding Machine

    Card Winding Machine

    Card Winding Machine

      A Card Winding Machine is used in textile processing to wind yarn from hanks, bobbins, or cones onto cards or perforated boards, typically for dyeing or sampling purposes. It ensures uniform yarn distribution and tension, crucial for consistent dye penetration.   Purpose Card Winding Machine: To wind yarn onto flat cards or holders for lab dyeing, color matching, or textile sample display.   Applications Card Winding Machine: Yarn dyeing labs R&D and sample development Display or swatch card preparation Yarn shade catalog creation   Working Principle Card Winding Machine: The yarn is drawn from a source (cone or bobbin) and wound evenly onto a card. The machine controls the winding speed, spacing, and tension to avoid tangles or breaks.   Benefits of Card Winding Machine: Uniform Yarn Placement- Ensures even winding for consistent dyeing and presentation. Ideal for Sampling - Perfect for creating lab dye samples, color cards, and swatches. Time-Saving - Automates a manual process, increasing efficiency.   Low Yarn Waste - Allows controlled use of small yarn amounts for trials. Supports Various Yarn Types - Can handle cotton, polyester, blends, and fancy yarns.   Features of Card Winding Machine: Adjustable Winding Tension - Maintains constant tension to prevent yarn breakage. Speed Control - Variable winding speed for different yarn types and applications. Card Size Compatibility - Supports multiple card sizes and formats. Precision Traverse System- Ensures neat layer formation without overlapping. Compact Design - Table-top or stand-mounted; suitable for labs or sample rooms.   How to Use a Card Winding Machine: Prepare the Yarn Source - Place the yarn cone or bobbin on the yarn holder. - Thread the yarn through the tensioner and guide system. Insert the Card - Mount the empty card or board onto the winding platform/clamp securely.   Set Winding Parameters- Adjust winding speed, tension, and traverse width based on yarn type and card size. Start the Machine - Turn on the power and begin winding; monitor the yarn flow and tension. Monitor the Winding - Ensure yarn is winding evenly and smoothly across the card.   Stop the Machine - Once the desired coverage or length is reached, stop the machine. Remove the Card - Carefully take out the wound card and trim any loose yarn ends. Label or Store - Label for testing or sample purposes as needed.   Maintenance Tips for Card Winding Machine: Daily: ☐ Clean yarn guides and tensioners ☐ Wipe down the machine to remove dust or lint ☐ Check for smooth yarn feeding   Weekly: ☐ Lubricate moving parts if required ☐ Inspect tension device and traverse system for wear ☐ Test speed control and motor function   Monthly: ☐ Tighten all screws, knobs, and clamps ☐ Inspect electrical parts and connections ☐ Clean internal components if accessible   Safety Tips: ☐ Keep fingers away from moving yarn and parts during operation ☐ Do not exceed machine speed limits for delicate yarns ☐ Ensure proper grounding of the machine ☐ Always power off before cleaning or adjusting settings ☐ Wear snug clothing to avoid yarn entanglement  
    Product description
    Color Card Winding Machine applies to a number of brass wire, yarn,
    while according to technological requirements on winding type with quantitative,
    bound, for yarn user optional color, contrast and testing purposes.
    It is a professional new product designed to give a variety of sample cards.
    Specification
    Model FH-25
    Color card winding machine
    Voltage 220V 50HZ one phase
    Color White
    Dimensions L1100xW600xH800(mm)
    Paper color card size According to custom-made Piece Within 25 pieces
    Power 15w
    Weight 30kgs
    We could make special type according to the customers request.
    Card Winding Machine

    Card Winding Machine

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    Fully Automatic Radio Frequency Dryer
    Fully Automatic Radio Frequency Dryer

    Fully Automatic Radio Frequency Dryer

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    Fully Automatic Radio Frequency Dryer
    Fully Automatic Radio Frequency Dryer

    Fully Automatic Radio Frequency Dryer

      A Fully Automatic Radio Frequency (RF) Dryer is an advanced drying machine that uses radio frequency waves (similar to microwaves but at lower frequency) to dry materials like textiles, paper, wood, and food products. It delivers uniform and rapid moisture removal from within the material, rather than just the surface.   Purpose of Fully Automatic Radio Frequency Dryer: To dry moisture-sensitive materials quickly and evenly using electromagnetic energy, especially where conventional drying is slow or inconsistent.   How It Works: RF waves penetrate deep into the material. Moisture molecules absorb RF energy, generating heat internally. This causes water to evaporate from the inside out. Built-in sensors and controls automate and optimize the process.     Applications of Fully Automatic Radio Frequency Dryer: Textile drying (especially for fabrics with high GSM or special finishes) Paper and nonwoven industries Wood drying Food processing (e.g., pasta, fruits)   Benefits of Fully Automatic Radio Frequency Dryer: Fast Drying Time - RF energy dries materials from the inside out, significantly reducing drying time. Uniform Drying - Prevents surface overheating or under-drying issues common with conventional dryers. Energy Efficient - Targets moisture directly, using less energy compared to thermal dryers.   Improves Product Quality - Reduces shrinkage, deformation, and color fading, especially in textiles. Fully Automatic Operation - Programmable controls minimize manual handling and ensure consistency. Safe for Delicate Materials - Ideal for sensitive or high-value products that can't withstand high surface heat. Reduced Footprint - Compact, vertical designs save floor space in industrial setups.     Features of Fully Automatic Radio Frequency Dryer: Touchscreen Control Panel- For setting drying time, temperature, and moisture target. Auto Load/Unload System - Increases productivity with minimal labor. Moisture Sensors - Monitor and control drying to prevent over-drying. RF Power Generator - High-efficiency RF unit for stable energy output.   Cooling System Built-in cooling for temperature-sensitive materials post-drying. Safety Interlocks - Automatic shutoff if overheating or door open detected.   How to Use Fully Automatic Radio Frequency Dryer: Prepare the Material - Ensure the fabric or material is clean and evenly spread or stacked as required. Power On the Machine - Switch on the main power and wait for the system to initialize. Load the Material - Use the conveyor or auto-loader to place material inside the drying chamber.   Set Drying Parameters of Fully Automatic Radio Frequency Dryer - On the touchscreen panel, input: - Drying time - Target moisture level - RF power level - Temperature limits (if applicable)   Start the Drying Cycle - Press the start button. The RF system activates and begins drying internally. Monitor Process (Auto/Manual) - Most machines auto-adjust based on moisture sensor feedback. - You can monitor real-time temperature and drying progress on the display.   Cooling (Optional) - If enabled, the cooling cycle will activate after drying to stabilize the material. Unload Material - Use the conveyor or manual method to remove the dried product safely.   Shutdown - Turn off the system and clean the chamber if required. Maintenance Tips for Fully Automatic RF Dryer: Daily Cleaning   - Wipe down the drying chamber and conveyor to remove lint, dust, and moisture residue. Check RF Generator   - Inspect cables, connectors, and ventilation; clean RF components weekly.   Inspect Moisture Sensors - Clean sensor surfaces regularly for accurate readings. Lubricate Moving Parts - Grease conveyor rollers and motor bearings as per the maintenance schedule. Filter Maintenance - Clean or replace air filters monthly to ensure proper ventilation and cooling. Software Updates - Keep the control system firmware updated if your model supports it. Electrical Checks - Inspect wiring, switches, and interlocks for wear or overheating signs.     Safety Precautions:  Use Trained Operators Only - Ensure only qualified personnel operate and maintain the machine. Avoid Overloading - Exceeding material load limits can reduce efficiency and risk damage. Keep Away from RF Area during Operation - Follow RF safety guidelines—do not tamper with shielding or interlocks. Emergency Stop - Know the location and function of the emergency stop switch. Allow Cooling Before Maintenance Let the system cool completely before touching internal components.   Daily Maintenance Checklist – Fully Automatic RF Dryer: [ ] Wipe inside drying chamber [ ] Remove lint/debris from conveyor [ ] Check for unusual noise or vibration [ ] Verify sensor readings on display [ ] Ensure air vents are unobstructed [ ] Inspect emergency stop function   Weekly Maintenance Checklist: [ ] Clean moisture sensors with soft cloth [ ] Inspect RF generator cables and connections [ ] Check conveyor belt tension and alignment [ ] Lubricate moving mechanical parts [ ] Test auto-stop and safety interlocks [ ] Review system logs (if digital system is used)     Monthly Maintenance Checklist: [ ] Clean or replace air and dust filters [ ] Inspect electrical wiring and panel for wear [ ] Tighten loose bolts, screws, or fasteners [ ] Calibrate moisture sensors if needed [ ] Verify RF power output levels [ ] Back up control panel settings and software (if applicable)  
    Fully Automatic Radio Frequency Dryer

    Fully Automatic Radio Frequency Dryer

     
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    High Speed Hard Winding Machine
    High Speed Hard Winding Machine

    High speed hard winding machine

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    High Speed Hard Winding Machine
    High Speed Hard Winding Machine

    High Speed Hard Winding Machine

      A High Speed Hard Winding Machine is a textile winding machine designed to wind yarns, threads, or fibers onto cones or packages at high speeds with firm tension. It is used to prepare yarn packages for subsequent processes like weaving or knitting.     Purpose of High Speed Hard Winding Machine: - To wind yarn evenly and tightly with controlled tension for storage or further processing.   Key Features of High Speed Hard Winding Machine - High-speed winding for increased productivity. - Precise tension control to avoid yarn breakage or slack. - Automatic package building to maintain uniform shape. - Suitable for various yarn types—cotton, polyester, wool, etc. - User-friendly controls and safety features.   Applications of High Speed Hard Winding Machine: - Textile mills preparing yarn for fabric production. - Quality control labs for winding test samples. - Textile manufacturing units needing uniform yarn packages.   Benefits of High Speed Hard Winding Machine:
    1. Increased Productivity - High-speed operation reduces winding time significantly.
    2. Consistent Package Quality - Ensures uniform and firm yarn packages ideal for further processing.
    3. Reduced Yarn Breakage - Precise tension control minimizes yarn damage during winding.
    4. Versatility - Handles different types of yarns including delicate and coarse fibers.
     
    1. User-Friendly Operation - Simple controls and automation reduce operator fatigue.
    2. Improved Efficiency - Automatic package build-up reduces manual adjustments.
    3. Space Saving - Compact design fits well in production lines and labs.
      How to Use High Speed Hard Winding Machine:
    1. Set Up the Machine - Switch on the power and check all safety guards.
    2. Load Yarn - Thread the yarn through tension guides and eyelets as per the manual.
    3. Adjust Tension - Set tension according to yarn type to avoid slack or breakage.
    4. Place Empty Cone/Package - Mount the empty cone or package holder securely.
     
    1. Start Winding- Press the start button; machine will begin winding at set speed.
    2. Monitor the Process - Observe yarn package build-up and make adjustments if necessary.
    3. Stop and Remove Package - Once winding is complete, stop the machine and remove the yarn package carefully.
    4. Maintenance - Clean the machine regularly and lubricate moving parts as needed.
      Specifications of High Speed Hard Winding Machine: - Winding Speed: Typically 1000 to 3000 RPM (varies by model) - Package Type: Conical or cylindrical yarn packages - Tension Control: Adjustable mechanical or electronic tension system - Drive System: AC motor with variable frequency drive (VFD) for speed control - Power Supply: Usually 220V/380V, 50/60 Hz - Package Weight Capacity: Depends on model, generally up to 2 kg - Machine Size: Compact footprint for space-saving installation - Control Panel: Digital or analog with start/stop and speed adjustment - Safety Features: Emergency stop, yarn break detection, overload protection     Troubleshooting Tips: - Yarn Breakage: - Check and reduce tension; inspect yarn for weak spots. - Clean guides and rollers to remove any debris. - Uneven Winding: - Ensure correct threading path and tension balance. - Adjust package build-up mechanism. - Machine Not Starting: - Check power supply and emergency stop switch. - Verify control panel settings.   - Excessive Noise: - Lubricate moving parts and tighten loose components. - Inspect bearings for wear. - Package Slippage: - Secure cone properly and check tension settings.   Features of High Speed Hard Winding Machine:
    1. High-Speed Operation - Capable of winding yarns at fast speeds (up to 3000 RPM) to boost productivity.
    2. Precise Tension Control - Adjustable tension mechanism to prevent yarn breakage and ensure tight winding.
    3. Automatic Package Formation - Uniform, firm package build-up for consistent yarn quality.
    4. Versatile Yarn Compatibility - Suitable for cotton, polyester, wool, and blended yarns.
     
    1. User-Friendly Interface - Easy controls with digital or analog panels for speed and tension adjustment.
    2. Robust Construction - Durable stainless steel or metal frame for long-term reliability.
    3. Safety Features - Includes emergency stop buttons and yarn break sensors.
    4. Compact Design - Space-saving structure ideal for labs and production floors.
    5. Low Maintenance - Designed for easy cleaning and minimal upkeep.
        high-speed hard winding machine is used to produce hard cone packages for knitting machine, shuttle loom, warping machine and hosiery machine. It is an ideal winding machine for cotton threads, hemp threads and chemical fiber yarns. TECHNICAL PARAMETERS Grooved drum O/D 82mm, lead 2.5 (turns) ×147, angle: 0° Take-up tubes Cylindrical or cone with conicity of 3°30′, 4 °20′ Bobbin length Standard 170mm, customized range: 170-280mm Yarn length control Electronically set the winding yarn length up to 999999m according to the final package. Electric waxing device (optional) Square wax piece is used for uniform waxing, a set per spindle Slow start Ensures a slow and stable start to improve the winding quality. Counterweight yarn brake Prevent the yarn from shaking during the feeding to provide suitable winding tension. Electronic tensioner Tension plate Number of spindles per section 12 per section Number of spindles, max. 120 Drive Individual variable frequency motor per spindle Max. winding linear speed 1100 m/min, individually controlled per section, frequency control Traverse Standard: 147mm Creel balancer Winding tension is controlled by a spring balancer Yarn detector Photoelectric sensor Package diameter Max. 280mm Start/Stop Membrane switch control, touch screen Vertical anti-patterning device Computer controlled Vacuum cleaner/blower Optional, 1100W (cleaning power) Power consumption 60W/spindle (at the highest speed), including the power of cleaner motor Power supply 3-phase 380V 10%, 50/60Hz, 220V, 440V Weight (12 spindles) 350kg Dimension (12 spindles) 2250mm (L)×1100mm(W)×1400mm(H) Cleaner weight 132 kg, depending on the number of spindles Weight and dimension of the electricity box 45kg, 700mm(L)×300mm(W)×1320mm(H)   FUNCTIONS The winding speed can be set and controlled automatically by the computer, offering a maximum speed of 1100 m/min. Advanced yarn cleaning, tension device and photoelectric yarn detector avoids the yarn loop. Accurate and sensitive speed controller ensures even and consistent winding length (weight). Electrically rotary waxing ensures the waxing quantity and uniformity.
    High Speed Hard Winding Machine

    High Speed Hard Winding Machine

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