China Custom Six Shuttle Circular Loom for PP Platsic Bag axle api

Product Description

Machine parts
Brand: Nanyi

With the detector for warp-breaking, weft-breaking and weft-ending, the sensibility for automatic stop becomes reliable.

 

Machine parts
Brand: Nanyi

With the detector for warp-breaking, weft-breaking and weft-ending, the sensibility for automatic stop becomes reliable.

Machine parts
Brand: Nanyi

PLC centralized control is adopted for electric controlling, frequnency speed regulation is adopted as well, which is convenient and stable.

PP Woven Bag Weaving Machine Six Shuttle Circular Loom:

Six Shuttle Circular Loom > NY-SBY-850/6

This serious of circular loom is latest plane cam struture,weaving the cylinder or flat cloth with PP and HDPE flat yarns.
• Latest plane cam structure -adopt idler wheel from shuttle, non-lubrication
• The brown belt made of high-strength and high-toughness material, with brown silk, runs smoothly and has low noise.
• Complete weft and weft automatic detection system
• Man-machine interface centralized control, easy to operate
 

Model No. NY-SBY-850/6
Shuttle Quantity 6
Folded Cloth Width 300-850
Max Number Warp (pcs) 720
Max Diameter of Warp Bobbin 110mm
Max Diameter of Weft Bobbin 110mm
Rotational Speed of Main Motor 90-180 R/Min
Bobin Size (ID*L)  Φ38*230mm/Φ35*218mm
Power of Main Motor (kw)  3
Power of lift-up Motor (kw)  0.37
Winder Motor 1.6 Nm
Max Winder Diameter 1500mm
Installing dimensions(L*W*H)  10.5*2.8*3.2 m
Approxi.Weight(kg)  2000

Company Display
 

                                   

Application
 

FAQ & contact us

1. Are you trading company or manufacturer?

A: We are manufacturer.

2. What certificate do you have?
A: We have ISO9001, SGS, CE certificate.

3. What’s the main market of your company?
A: we have customers all over the world.

4. What can you buy from us?
A: Plastic Tape Extrusion Line,Circular Loom,Automatic Cutting and Sewing Machine,Laminating Machine and Printing Machine.

5. How long is your machine’s warranty period?
A: All our machine have 1 year guarantee.

6. How dose your factory do regarding quality control?
A: We have a special QC department in charge of product’s quality.

7. What is your delivery time?
A: Normally, It needs about 45 days. The exact time depends on production management.

8. Can we visit your machine operation in your factory?
A: We have own plastic making company, you can see the machine operation.

9. How do we solve the machine problem after your engineer leaving?
A: Generally speaking, there will be no problem after finished installation, if any problems, you can contact our sales at anytime. Our engineer will take the solution video according to your description.

10. Where is your factory located? How can we visit there?
A: Our factory located in Chuiyang Industrial Zone, Aojiang town, HangZhou City, ZHangZhoug, China
You can by air to HangZhou Airport and by High-speed rain to CZPT Station.

We are welcome all friends to visit us for future cooperation!

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Type: Shuttle Loom
Voltage: 380V
Computerized: Computerized
Precision: High Precision
Certification: CE, ISO9001: 2000
Warranty: 1 Year
Customization:
Available

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Customized Request

plastic belt

What innovations and advancements have been made in plastic belt technology in recent years?

In recent years, there have been several notable innovations and advancements in plastic belt technology. Here’s a detailed explanation:

  • 1. Enhanced Material Formulations:

One significant advancement in plastic belt technology is the development of enhanced material formulations. Manufacturers have been working on creating new polymer blends or modifying existing ones to improve the performance characteristics of plastic belts. These advancements focus on enhancing properties such as strength, flexibility, wear resistance, temperature resistance, and chemical resistance. The result is the availability of plastic belts that can withstand more demanding applications, exhibit greater durability, and offer improved overall performance.

  • 2. Reinforcement Technologies:

Reinforcement technologies have been introduced to enhance the strength and load-carrying capacity of plastic belts. Reinforcements such as embedded fibers, fabric layers, or metal cords are incorporated into the belt structure to provide increased tensile strength and dimensional stability. These advancements allow plastic belts to handle heavier loads, endure higher tension levels, and resist elongation or stretching during operation. Reinforced plastic belts are particularly beneficial in industries such as logistics, manufacturing, or mining where heavy-duty conveying is required.

  • 3. Modular Belt Designs:

Modular plastic belt designs have gained popularity due to their versatility and ease of maintenance. These belts consist of interlocking modules or links that can be easily assembled and disassembled, allowing for quick belt repairs, replacements, or modifications. The modular design also enables customization of belt width, length, and configuration to suit specific conveyor systems and applications. Additionally, modular plastic belts offer improved hygiene as they have fewer crevices and joints where debris or contaminants can accumulate, making them ideal for industries such as food processing or pharmaceuticals.

  • 4. Advanced Surface Coatings:

Advancements in surface coatings have contributed to the performance and functionality of plastic belts. Innovative coatings are applied to the belt surface to enhance properties such as slip resistance, release characteristics, abrasion resistance, or chemical resistance. These coatings can improve the belt’s traction, prevent product sticking or slipping, prolong belt life, and protect against chemical damage. Additionally, specialized coatings with antimicrobial properties have been developed to inhibit the growth of bacteria or microorganisms on the belt surface, making them suitable for applications with strict hygiene requirements.

  • 5. Conveyor System Integration:

Recent advancements in plastic belt technology have also focused on improving integration with conveyor systems. Manufacturers have developed innovative designs for sprockets, guides, and other components that ensure efficient belt tracking, reduced friction, and improved overall system performance. These advancements help minimize belt wear, reduce energy consumption, and enhance the lifespan of plastic belts and other conveyor system components.

  • 6. Sustainability and Recycling:

There is an increasing emphasis on sustainability in plastic belt technology. Manufacturers are exploring eco-friendly materials and production processes to reduce the environmental impact of plastic belts. Some advancements include the use of recycled or biodegradable materials in belt manufacturing, as well as the development of recycling programs to collect and process used plastic belts at the end of their lifespan. These initiatives aim to minimize waste generation, conserve resources, and promote the circular economy in the conveyor industry.

In summary, recent years have seen significant innovations and advancements in plastic belt technology. Enhanced material formulations, reinforcement technologies, modular belt designs, advanced surface coatings, improved conveyor system integration, and a focus on sustainability have all contributed to the development of more robust, versatile, and environmentally friendly plastic belts. These advancements offer improved performance, durability, customization options, and ease of maintenance, making plastic belts a reliable choice for a wide range of conveyor applications.

plastic belt

Can you provide examples of products or machinery that utilize plastic belts for conveying purposes?

Many products and machinery across various industries utilize plastic belts for conveying purposes. Here are some examples:

  • 1. Conveyor Systems:

Plastic belts are extensively used in conveyor systems across different industries. These systems can be found in manufacturing facilities, warehouses, distribution centers, airports, and more. Conveyor systems equipped with plastic belts are employed for the transportation of a wide range of products, including packaged goods, automotive components, electronics, pharmaceuticals, food items, and beverages.

  • 2. Food Processing Equipment:

In the food processing industry, various equipment utilizes plastic belts for conveying purposes. Examples include food sorting and grading machines, washing and cleaning systems, baking ovens, cooling and freezing tunnels, and packaging lines. Plastic belts are chosen for their hygienic properties, easy cleanability, and ability to withstand the rigorous demands of food processing environments.

  • 3. Bottling and Packaging Machinery:

Bottling and packaging machinery extensively employ plastic belts for efficient product handling and packaging. Equipment such as filling machines, capping machines, labelers, cartoners, and case packers utilize plastic belts to transport bottles, containers, boxes, and other packaging materials. Plastic belts allow for smooth and precise conveying, ensuring accurate positioning and high-speed operations in the bottling and packaging processes.

  • 4. Automated Material Handling Systems:

Automated material handling systems, commonly used in industries such as automotive, electronics, and e-commerce, rely on plastic belts for conveying and sorting purposes. These systems utilize plastic belts to transport products between different stages of the production line, sort items based on various criteria, and load or unload materials in warehouses or distribution centers. Plastic belts enable efficient and reliable material handling in these automated systems.

  • 5. Printing and Paper Handling Equipment:

Printing presses, bindery equipment, and paper handling machines often incorporate plastic belts for the smooth movement of paper sheets, printed materials, or packaging components. Plastic belts with anti-static properties are particularly used in these applications to prevent static buildup and ensure the safe handling of sensitive materials.

  • 6. Cleanroom and Electronics Manufacturing Equipment:

Cleanroom environments and electronics manufacturing facilities utilize plastic belts for conveying delicate electronic components, circuit boards, and semiconductors. Plastic belts with low particulate generation and excellent cleanroom compatibility are crucial in these industries to maintain strict cleanliness standards and prevent contamination or damage to sensitive electronic devices.

These are just a few examples of products and machinery that utilize plastic belts for conveying purposes. Plastic belts offer versatility, reliability, and customization options, making them suitable for a wide range of applications across various industries.

plastic belt

How do plastic belts contribute to the efficiency and functionality of conveyor systems?

Plastic belts play a crucial role in enhancing the efficiency and functionality of conveyor systems. Here’s a detailed explanation:

  • 1. Lightweight and High Strength:

Plastic belts are typically lightweight yet offer high strength and load-carrying capacity. Their lightweight nature reduces the overall weight of the conveyor system, resulting in lower energy consumption and reduced strain on the system’s components. Despite their lightness, plastic belts can handle heavy loads, making them suitable for a wide range of applications while maintaining efficiency and functionality.

  • 2. Flexibility and Adaptability:

Plastic belts are highly flexible and adaptable, allowing them to conform to the shape of the conveyor system. This flexibility enables the belts to navigate around pulleys, curves, and other obstacles smoothly. It also facilitates easy installation and adjustment of the conveyor system, making it more versatile and accommodating to different layout configurations. The adaptability of plastic belts contributes to efficient material handling and optimized system functionality.

  • 3. Low Friction and Energy Efficiency:

Plastic belts have low friction characteristics, which significantly reduce energy consumption in conveyor systems. The low coefficient of friction between the belt and the conveyor components minimizes resistance and allows for smooth movement of materials. This low friction property not only enhances the efficiency of the system but also reduces wear and tear on the belt and other system components, leading to extended service life and reduced maintenance requirements.

  • 4. Chemical Resistance and Hygiene:

Plastic belts are often resistant to chemicals, oils, and other substances, making them suitable for conveying materials in various industries, including food processing, pharmaceuticals, and manufacturing. Their chemical resistance ensures that the belts can withstand exposure to corrosive or potentially harmful substances without degradation or contamination. Additionally, plastic belts can be easily cleaned and sanitized, promoting hygiene and meeting strict industry standards in applications where cleanliness is essential.

  • 5. Noise Reduction:

Compared to traditional conveyor belts made of materials like metal or rubber, plastic belts offer noise reduction benefits. Plastic belts produce less noise during operation due to their inherent damping properties. This noise reduction is especially advantageous in environments where noise levels need to be minimized, such as in retail settings or sensitive manufacturing processes, contributing to a quieter and more comfortable work environment.

  • 6. Durability and Longevity:

Plastic belts are known for their durability and longevity. They are resistant to wear, abrasion, and impact, ensuring reliable and long-lasting performance in demanding conveyor applications. Plastic belts are less susceptible to damage from moisture, temperature variations, and other environmental factors, which can compromise the functionality of other belt materials. Their durability and longevity contribute to increased uptime, reduced downtime, and overall cost savings in conveyor system operation.

In summary, plastic belts offer several advantages that contribute to the efficiency and functionality of conveyor systems. Their lightweight yet high-strength construction, flexibility and adaptability, low friction characteristics, chemical resistance, noise reduction properties, and durability make them valuable components in a wide range of industries. By utilizing plastic belts, conveyor systems can achieve improved material handling efficiency, reduced energy consumption, enhanced hygiene, minimized maintenance requirements, and extended service life.

China Custom Six Shuttle Circular Loom for PP Platsic Bag   axle apiChina Custom Six Shuttle Circular Loom for PP Platsic Bag   axle api
editor by CX 2024-01-09