Product Description
1. More than10 years manufacture in packing machine
2. 10 years alibaba supplier
3. 100% QC inspection before shipment
4. 12 months warranty
5. Product Certificated by CE
Introduction:
ARLM-160A Automatic Labeling Machine can meet the needs of semi circle labeling, bottle labeling switching between simple, convenient adjustment;
Wide application range: self-adhesive labels, adhesive film, electronic monitoring code, bar code etc..
Application Industry: widely used in food, medicine, cosmetics, daily chemical, electronics, hardware, plastics and other industries.
Application example: PET round bottle labeling, plastic bottle labeling, canned food, etc.
Features:
1. Labeling quality, using standard of spring cover belt, labeling smooth, no wrinkles, improve packaging quality.
2. Flexible application, bottle stand vertical labeling, with automatic sub bottle function, can be stand-alone production, can also be connected to the production line.
3. Intelligent control, automatic photoelectric tracking, with no matter no labeling, no standard automatic calibration and label automatic detection function, prevent leakage and label waste.
4. Simple adjustment, labeling speed, conveying speed, bottle speed can be achieved stepless speed regulation, according to the need to adjust.
5. Durable, using 3 bar adjustment mechanism, make full use of triangular stability, solid durable machine. Made of stainless steel and advanced aluminum alloy, accord with CE Production requirements.
Customized Functions:
1. Can add coding,printing
2. The conveyor can be replaced with a chain plate
3. The width,length,hight can be customize
4. The custom function is applicable to all automatic labeling machines
5. The machine can only be used to sticker labels, can be customized to stick transparent labels, need to change the optical fiber to transparent optical fiber.(Conventional label by induction color; Transparent label by induction thickness)
Note:
This machine is standard machine, can only be used normal round bottles , can not be too soft or bulge.
Can be customized if the bottle has grooves.
Parameter:
| Model | ARLM-160A |
| Power | 550W |
| Filling speed | 10-50PCS/min |
| Filling accuracy | ±1% |
| Bottle diameter | 30-150mm |
| Bottle high | 10-500mm |
| Lable Weight | 20-150mm |
| Lable Hight | 30-160mm |
Q: Are you a factory or a trading company?
A: We are factory manufacturing packaging machines and weprovide perfect OEM and after-sale service.
Q: Can you send me the video to show how the machine works?
A: Certainly, we have made video of every machine and uploaded them to Youtube.
Q: How can I know your machine works well?
A: Before delivery, we shall test the machine working condition for you.
Q: How can I know your machine is designed for my product?
A: You can send us samples of your product and we test it on machine.
Q: How can I pay my order?
A: We accept T/T, L/C paying methods. For those orders less than 500USD, we accept Trade Assurance to pay.
Q: Do you have a CE certificate?
A: For every model of machine, it has a CE certificate.
Your Satisfaction is Our Honor
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| Automatic Grade: | Automatic |
|---|---|
| Applicable Industry: | Food, Cosmetics, Agriculture, Medicine, Daily Chem |
| Application: | Cosmetics, Drinks, Cleaning, Detergent, Skin Care Products, Hair Care Products, Oil, Tea, Fish, Meat, Snack, Seasoning, Dairy Products |
| Type: | Automatic Labeling Machine |
| Driven Type: | Electric |
| Classification: | Automatic Vertical Round Bottle Labeling Machine |
| Customization: | Available | Customized Request |
|---|
Are there sustainability aspects associated with the use of plastic belts in conveyor systems?
Plastic belts in conveyor systems can have both positive and negative sustainability aspects. Here’s a detailed explanation:
- Positive Sustainability Aspects:
Plastic belts offer several sustainability benefits when used in conveyor systems:
- 1. Energy Efficiency:
Plastic belts contribute to energy efficiency in conveyor systems. Their low coefficient of friction and lightweight construction require less power to drive the belts, resulting in reduced energy consumption. By minimizing energy requirements, plastic belts help conserve energy resources and reduce greenhouse gas emissions associated with energy generation.
- 2. Reduced Material Waste:
Plastic belts are typically designed for long-lasting performance and durability. They can withstand wear, abrasion, and exposure to various environments, resulting in extended service life. This longevity reduces the need for frequent belt replacements, minimizing material waste and reducing the environmental impact of manufacturing new belts.
- 3. Recyclability:
Many plastic belts used in conveyor systems are recyclable. At the end of their life cycle, these belts can be collected, processed, and recycled into new plastic products. Recycling plastic belts helps divert waste from landfills and reduces the demand for virgin materials, contributing to a more circular and sustainable economy.
- 4. Lightweight Design:
Plastic belts are lightweight compared to other belt materials like steel or rubber. This lightweight design reduces the overall weight of the conveyor system and the energy required to move the belts and conveyed materials. It also allows for easier installation and maintenance, reducing the need for heavy machinery and associated energy consumption.
- Negative Sustainability Aspects:
While plastic belts offer sustainability benefits, there are also negative aspects to consider:
- 1. Environmental Impact of Plastic:
Plastic belts are made from petroleum-based materials, and their production contributes to the extraction of fossil fuels and the emission of greenhouse gases. Additionally, if plastic belts are not properly managed at the end of their life cycle, they can end up in landfills or as litter, posing environmental challenges. To mitigate these negative aspects, it is crucial to promote responsible waste management practices, including recycling or proper disposal of plastic belts.
- 2. Chemical and Resource Intensity:
The manufacturing process of plastic belts can involve the use of chemicals and resources, including energy and water. The extraction and processing of these resources can have environmental impacts, such as pollution and resource depletion. To address this, manufacturers can adopt more sustainable production practices, including the use of eco-friendly materials, energy-efficient manufacturing processes, and responsible water management.
- 3. End-of-Life Management:
The disposal of plastic belts at the end of their life cycle can pose challenges if proper recycling infrastructure is lacking. If not recycled, the belts may end up in landfills, contributing to waste accumulation. To overcome this, it is important to establish and promote recycling programs for plastic belts, ensure accessibility to recycling facilities, and encourage the development of innovative recycling technologies.
In summary, the use of plastic belts in conveyor systems has sustainability aspects. Plastic belts offer energy efficiency, reduced material waste, recyclability, and lightweight design. However, the environmental impact of plastic, chemical and resource intensity in production, and proper end-of-life management should be considered to mitigate the negative aspects associated with plastic belt use. By adopting sustainable practices throughout the lifecycle of plastic belts, such as recycling and responsible manufacturing, the overall sustainability of conveyor systems can be improved.
How does the durability of plastic belts compare to other materials in conveyor systems?
When comparing the durability of plastic belts to other materials used in conveyor systems, several factors come into play. Here’s a detailed explanation:
- 1. Wear Resistance:
Plastic belts generally offer good wear resistance, allowing them to withstand the demands of many industrial applications. The specific wear resistance can vary depending on the type of plastic material used for the belt. Some plastic materials, such as polyurethane (PU) or acetal (POM), exhibit excellent wear resistance and can withstand abrasive environments better than other materials like fabric or rubber belts. However, in high-intensity applications with heavy loads or sharp objects, metal belts may provide superior wear resistance compared to plastic belts.
- 2. Impact Resistance:
Plastic belts typically have good impact resistance, especially when compared to rigid materials like metal belts. Plastic belts can absorb and dissipate impact forces, reducing the risk of damage or breakage. This makes plastic belts suitable for applications where the conveyed products may encounter impacts during loading, unloading, or handling processes. However, in extremely demanding applications with heavy or sharp impacts, specialized metal belts or reinforced fabric belts may offer higher impact resistance than plastic belts.
- 3. Chemical Resistance:
Plastic belts generally exhibit excellent chemical resistance compared to other materials like fabric or rubber belts. They can withstand exposure to a wide range of chemicals, oils, solvents, and cleaning agents without significant degradation. This makes plastic belts suitable for industries where corrosive substances or chemical cleaning agents are present. In contrast, fabric or rubber belts may deteriorate or experience chemical damage when exposed to aggressive substances.
- 4. Moisture Resistance:
Plastic belts are highly resistant to moisture, making them suitable for applications in wet environments or where frequent washdowns are required. Unlike fabric belts that can absorb moisture and become weakened, plastic belts maintain their structural integrity and performance even when exposed to water or high humidity. Metal belts, on the other hand, may be prone to corrosion when exposed to moisture, requiring additional protective measures.
- 5. Temperature Resistance:
The temperature resistance of plastic belts can vary depending on the specific plastic material used. Some plastic materials, such as polypropylene (PP) or polyethylene (PE), have lower temperature resistance compared to other materials like metal belts. However, there are plastic belt options available, such as polyurethane (PU) or polyvinyl chloride (PVC), that offer high-temperature resistance and can withstand elevated temperatures in industrial applications. It’s essential to select a plastic belt that matches the temperature range of the intended application.
- 6. Longevity and Maintenance:
The longevity and maintenance requirements of plastic belts can be favorable compared to other materials. Plastic belts typically have a longer lifespan than fabric belts, as they are less prone to fraying, tearing, or stretching. They also require minimal maintenance, as they do not need regular lubrication or tension adjustments like metal belts. Plastic belts can be easily cleaned and sanitized, prolonging their service life. However, metal belts may offer exceptional longevity and require minimal maintenance as well.
In summary, plastic belts offer good durability in many industrial applications, particularly when it comes to wear resistance, impact resistance, chemical resistance, moisture resistance, and ease of maintenance. However, in certain demanding applications with heavy loads, sharp impacts, or extreme temperatures, specialized metal belts or reinforced fabric belts may provide superior durability. It’s crucial to assess the specific requirements of the application and select the most appropriate belt material based on the expected operating conditions and the desired level of durability.
Are there specific applications where plastic belts outperform other types of conveyor belts?
Yes, there are specific applications where plastic belts outperform other types of conveyor belts. Here’s a detailed explanation:
- 1. Hygienic Environments:
Plastic belts are particularly well-suited for applications in hygienic environments such as the food and beverage industry, pharmaceuticals, and healthcare. They offer smooth, non-porous surfaces that are easy to clean and sanitize, reducing the risk of bacterial growth and cross-contamination. Plastic belts’ resistance to chemicals and moisture makes them suitable for industries that require regular washdowns and adherence to strict hygiene standards. In these applications, plastic belts outperform other types of belts, such as fabric or metal belts, which may be more difficult to clean or prone to bacterial buildup.
- 2. Product Accumulation and Diverting:
Plastic belts, especially modular plastic belts, excel in applications that require product accumulation and diverting. The interlocking modules on modular plastic belts allow for smooth product flow and accumulation without the need for additional components or complex control systems. These belts can also divert products to different lanes or conveyors using simple mechanisms. Plastic belts’ flexibility and adaptability make them an excellent choice for applications where precise product control and diversion are necessary, such as sorting systems in distribution centers or assembly lines with multiple workstations.
- 3. Gentle Product Handling:
Plastic belts, particularly those with cleats or vacuum features, are preferred when gentle product handling is required. The cleats on plastic belts help prevent product slippage and ensure stable conveying, making them suitable for incline or decline applications or conveying delicate items. Vacuum plastic belts utilize suction to hold lightweight or fragile products securely during transport, minimizing product damage. These belts outperform other types of belts, such as roller or chain conveyors, which may cause friction, impact, or abrasion on the conveyed products.
- 4. Noise Reduction:
Plastic belts offer noise reduction advantages over other types of conveyor belts. The damping properties of plastic materials help absorb vibrations and reduce noise generated during operation. This makes plastic belts a preferred choice in applications where noise levels need to be minimized, such as retail environments, offices, or manufacturing facilities with strict noise regulations. Other types of belts, such as metal belts or fabric belts, may produce higher levels of noise due to their material properties or mechanical design.
- 5. Corrosive or Wet Environments:
Plastic belts are highly resistant to chemicals, oils, and moisture, making them suitable for applications in corrosive or wet environments. In industries such as chemical processing, wastewater treatment, or mining, where exposure to corrosive substances or water is common, plastic belts offer superior performance and durability compared to belts made of materials like metal or fabric. Plastic belts’ resistance to corrosion and moisture-related damage ensures reliable operation and extends the service life of the conveyor system.
In summary, plastic belts outperform other types of conveyor belts in specific applications where hygiene, product accumulation and diverting, gentle handling, noise reduction, and resistance to corrosive or wet environments are critical. Understanding the unique advantages of plastic belts in these applications helps industries make informed decisions when selecting the most suitable conveyor belt for their material handling needs.
editor by CX 2024-01-11