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 |
|---|
What are the challenges associated with using plastic belts, and how can they be mitigated?
Using plastic belts in various applications comes with its own set of challenges. However, these challenges can be mitigated through various measures. Here’s a detailed explanation:
- 1. Temperature Limitations:
One of the challenges associated with plastic belts is their temperature limitations. Some plastic materials may have lower heat resistance compared to other belt materials like steel or rubber. In high-temperature environments, plastic belts may experience softening, deformation, or even melting, leading to a decrease in their performance and lifespan. To mitigate this challenge, it is important to select plastic belts with materials specifically designed to withstand the temperature range of the application. Additionally, incorporating cooling systems, such as ventilation or water cooling, can help maintain the belt’s temperature within acceptable limits.
- 2. Load Capacity:
Another challenge is the load capacity of plastic belts, particularly in heavy-duty applications. While plastic belts have been engineered to handle significant loads, there may be limitations compared to materials like steel or fabric-reinforced rubber belts. To mitigate this challenge, it is essential to carefully analyze the weight and characteristics of the conveyed materials and select plastic belts with appropriate load-carrying capacity. Reinforcement technologies, such as embedded fibers or metal cords, can be used to enhance the strength and load capacity of plastic belts for heavier applications.
- 3. Abrasion and Wear:
Plastic belts may face challenges related to abrasion and wear, especially in applications where materials with sharp edges or abrasive properties are being conveyed. Continuous contact with abrasive materials can cause premature wear and reduce the belt’s lifespan. To mitigate this challenge, plastic belts with enhanced wear resistance properties, such as specialized surface coatings or harder material formulations, can be used. Regular inspection and maintenance of the belts, including cleaning and proper tensioning, can also help identify and address any signs of wear before they become significant issues.
- 4. Chemical Compatibility:
In applications where plastic belts come into contact with chemicals or substances, compatibility with those chemicals can be a challenge. Certain chemicals may cause degradation or weakening of the belt material, leading to reduced performance or even failure. To mitigate this challenge, it is crucial to select plastic belts with materials that are chemically resistant to the specific substances encountered in the application. Conducting chemical compatibility tests and consulting with belt manufacturers can help ensure that the selected plastic belts can withstand the chemical environment they will be exposed to.
- 5. Belt Tracking and Alignment:
Plastic belts may face challenges related to tracking and alignment on the conveyor system. Misalignment can lead to increased friction, uneven wear, and potential damage to the belt and other conveyor components. To mitigate this challenge, proper belt tracking systems should be implemented, including precision tracking rollers, training idlers, or automated belt tracking mechanisms. Regular maintenance and inspection of the conveyor system can help identify and correct any issues with belt tracking and alignment before they cause significant problems.
- 6. Static Electricity:
Plastic belts can generate static electricity due to friction between the belt and the conveyed materials or the conveyor system. This static electricity can cause issues such as dust attraction, product sticking, or even electrical discharge hazards. To mitigate this challenge, anti-static additives or coatings can be incorporated into the belt material to dissipate static charges. Proper grounding of the conveyor system and the use of static eliminators, such as ionizers or grounding brushes, can also help minimize static electricity-related problems.
In summary, while there are challenges associated with using plastic belts, they can be effectively mitigated through appropriate measures. By carefully selecting belts with suitable temperature resistance, load capacity, and wear resistance, and implementing measures to address issues related to chemical compatibility, belt tracking, and static electricity, the challenges can be managed. Regular maintenance, inspection, and adherence to manufacturer guidelines are essential for ensuring the optimal performance and longevity of plastic belts in various applications.
How do environmental factors affect the performance of plastic belts in outdoor applications?
Environmental factors can significantly impact the performance of plastic belts in outdoor applications. Here’s a detailed explanation:
- 1. Temperature:
The temperature in outdoor environments can vary widely, and extreme temperatures can affect the performance of plastic belts. High temperatures can cause plastic belts to soften, deform, or lose their structural integrity. On the other hand, low temperatures can make plastic belts brittle and more prone to cracking or breakage. It’s important to choose plastic belts that are specifically designed to withstand the temperature range of the outdoor application to ensure optimal performance and longevity.
- 2. UV Exposure:
Plastic belts exposed to direct sunlight in outdoor applications are susceptible to UV degradation. Prolonged exposure to UV radiation can cause the material to become brittle, fade in color, and weaken over time. UV-resistant plastic belts, typically made with additives or coatings that provide UV protection, are available to mitigate the effects of UV exposure. Using UV-resistant belts is crucial to maintain the performance and lifespan of plastic belts in outdoor environments.
- 3. Moisture and Humidity:
Outdoor environments often involve exposure to moisture and humidity, which can impact the performance of plastic belts. Excessive moisture can cause plastic belts to absorb water, leading to dimensional changes, reduced strength, and increased risk of mold or bacterial growth. High humidity can also affect the friction characteristics of the belts, potentially impacting their grip or slip resistance. Using moisture-resistant or waterproof plastic belts and implementing proper drainage and ventilation systems can help mitigate the effects of moisture and humidity.
- 4. Dust and Debris:
Outdoor applications are prone to the accumulation of dust, dirt, and debris. These particles can enter the conveyor system and become trapped between the plastic belt and other components, leading to increased friction, wear, and potential belt damage. Regular cleaning and maintenance practices, such as periodic belt cleaning or installing effective dust control measures, are essential to prevent the buildup of dust and debris and ensure the smooth operation of plastic belts in outdoor environments.
- 5. Mechanical Stress:
Outdoor applications may involve exposure to mechanical stressors such as heavy loads, impacts, or abrasive materials. Plastic belts should be selected based on their mechanical properties to withstand the specific demands of the outdoor environment. Reinforced or heavy-duty plastic belts with enhanced tensile strength and impact resistance may be necessary to ensure reliable performance and prevent premature failure.
- 6. Corrosive Substances:
In certain outdoor applications, plastic belts may come into contact with corrosive substances, such as chemicals or saltwater. Corrosive substances can degrade the plastic material, leading to reduced belt strength and potential failure. It’s important to choose plastic belts that are chemically resistant to the specific substances present in the outdoor environment to ensure long-term performance and minimize the risk of belt damage.
In summary, environmental factors such as temperature variations, UV exposure, moisture and humidity, dust and debris, mechanical stress, and corrosive substances can all impact the performance of plastic belts in outdoor applications. Selecting plastic belts specifically designed to withstand these environmental challenges, implementing proper maintenance practices, and considering additional protective measures can help ensure the longevity and reliable operation of plastic belts in outdoor settings.
What are plastic belts, and how are they used in various industries?
Plastic belts, also known as polymer belts or synthetic belts, are conveyor belts made from various types of plastic materials. These belts are used in a wide range of industries for conveying, transporting, or processing materials or products. Plastic belts offer several advantages over traditional belt materials such as rubber or fabric, including durability, versatility, and ease of maintenance. Here’s a detailed explanation of plastic belts and their applications in various industries:
- Composition and Construction:
- Food and Beverage Industry:
- Automotive Industry:
- Packaging and Logistics:
- Agriculture and Horticulture:
- Other Industries:
Plastic belts are typically made from materials such as polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polyurethane (PU), or acetal (POM). These materials provide properties such as high strength, chemical resistance, low friction, and flexibility. Plastic belts are manufactured through processes like extrusion, injection molding, or bonding, resulting in a wide variety of belt types, including flat belts, modular belts, timing belts, and conveyor chains.
Plastic belts find extensive use in the food and beverage industry. They are employed in applications such as food processing, packaging, sorting, and transportation. Plastic belts are preferred in these industries due to their hygienic properties, resistance to moisture and chemicals, and ease of cleaning. They are commonly used in conveying and sorting systems for products like fruits, vegetables, baked goods, meat, poultry, and beverages.
In the automotive industry, plastic belts are utilized for various purposes. They are employed in assembly lines for transporting automotive components during the manufacturing process. Plastic belts with specialized features, such as high temperature resistance or static dissipation properties, are used in applications like paint shops, heat treatment processes, or electrostatic discharge-sensitive areas. Plastic belts provide reliable and efficient material handling solutions in automotive production facilities.
Plastic belts play a crucial role in packaging and logistics operations. They are used in conveyor systems for handling packages, cartons, boxes, or containers in industries such as e-commerce, retail, distribution centers, and postal services. Plastic belts offer smooth and reliable transportation, enabling efficient sorting, merging, diverging, and accumulation of items. Their flexibility and customization options make them suitable for a wide range of packaging and logistics applications.
In the agriculture and horticulture industries, plastic belts are employed for tasks like seed sorting, crop harvesting, and greenhouse operations. Plastic belts with specialized features like perforations or airflow patterns are used to facilitate the handling and processing of seeds, fruits, vegetables, or flowers. They provide gentle and efficient transportation, reducing damage to delicate agricultural products and improving productivity in these sectors.
Plastic belts find applications in various other industries as well. They are used in industries such as pharmaceuticals, electronics, textile manufacturing, recycling, and airport baggage handling. Plastic belts offer advantages like chemical resistance, anti-static properties, and low noise levels, making them suitable for specific requirements in these industries.
In summary, plastic belts are conveyor belts made from plastic materials and are widely used in various industries. They offer durability, versatility, and ease of maintenance, making them suitable for applications in food and beverage processing, automotive manufacturing, packaging and logistics, agriculture and horticulture, and many other sectors. Plastic belts provide efficient material handling solutions, ensuring smooth transportation, sorting, and processing of products or materials in diverse industrial settings.
editor by CX 2024-02-08