Descripción del Producto
CHINAMFG rollers enhance rotation on the bushing while reducing impact loads on the sprocket tooth during operation.
All components are heat treated to achieve maximum strength. All components are heat treated to achieve maximum strength.
Pre-loaded during the manufacturing process to minimize initial elongation.
Hot dipped lubrication ensures 100% lubrication of all chain components to extend wear life and reduce maintenance costs.
| CHC NO. | PITCH | BUSH WIDTH | ROLLER DIA | PIN | PLATE | MIN. STRENGTH | AVG. STRENGTH | MAX. STRENGTH | TRANS PITCH | |||
| d | L | LC | H | T | ||||||||
| mm | mm | mm | mm | mm | mm | mm | mm | kgf | kgf | kgf | mm | |
| C35-1 | 9.525 | 4.68 | 5.08 | 3.60 | 12.15 | 13.40 | 8.80 | 1.25 | 800 | 1,100 | 220 | NIL |
| C40-1 | 12.700 | 7.85 | 7.92 | 3.98 | 17.80 | 21.00 | 12.00 | 1.50 | 1,420 | 1,950 | 370 | NIL |
| C50-1 | 15.875 | 9.40 | 10.16 | 5.09 | 21.80 | 25.00 | 15.00 | 2.00 | 2,200 | 3,100 | 650 | NIL |
| C60-1 | 19.050 | 12.58 | 11.91 | 5.96 | 26.90 | 31.00 | 18.00 | 2.35 | 3,190 | 4,200 | 920 | NIL |
| C80-1 | 25.400 | 15.75 | 15.87 | 7.94 | 33.50 | 38.00 | 24.10 | 3.20 | 5,680 | 7,500 | 1,500 | NIL |
| C100-1 | 31.750 | 18.90 | 19.05 | 9.54 | 41.10 | 47.00 | 30.10 | 4.00 | 8,870 | 12,100 | 2,300 | NIL |
| C120-1 | 38.100 | 25.23 | 22.22 | 11.11 | 50.80 | 57.00 | 36.20 | 4.70 | 12,770 | 16,000 | 3,100 | NIL |
| C140-1 | 44.450 | 25.23 | 25.40 | 12.71 | 54.90 | 62.00 | 42.20 | 5.50 | 17,380 | 21,000 | 4,100 | NIL |
| C160-1 | 50.800 | 31.55 | 25.87 | 14.29 | 65.50 | 73.00 | 48.20 | 6.40 | 22,700 | 30,000 | 5,400 | NIL |
| C40-2 | 12.700 | 7.85 | 7.92 | 3.98 | 32.30 | 36.20 | 12.00 | 1.50 | 2,840 | 3,900 | 630 | 14.38 |
| C50-2 | 15.875 | 9.40 | 10.16 | 5.09 | 39.90 | 44.00 | 15.00 | 2.00 | 4,440 | 6,200 | 1,100 | 18.11 |
| C60-2 | 19.050 | 12.58 | 11.92 | 5.96 | 49.80 | 54.40 | 18.00 | 2.35 | 6,380 | 8,400 | 1,530 | 22.78 |
| C80-2 | 25.400 | 15.75 | 15.87 | 7.94 | 62.70 | 68.10 | 24.10 | 3.20 | 11,360 | 15,000 | 2,550 | 29.29 |
| C100-2 | 31.750 | 18.90 | 19.05 | 9.54 | 77.00 | 83.10 | 30.10 | 4.00 | 17,740 | 24,200 | 3,900 | 35.76 |
| C120-2 | 38.100 | 25.23 | 22.22 | 11.11 | 96.30 | 102.90 | 36.20 | 4.70 | 25,540 | 32,000 | 5,250 | 45.44 |
| C140-2 | 44.450 | 25.23 | 25.40 | 12.71 | 103.60 | 111.00 | 42.20 | 5.50 | 347,600 | 42,000 | 6,970 | 48.87 |
| C160-2 | 50.800 | 31.55 | 28.57 | 14.29 | 124.20 | 132.10 | 48.20 | 6.40 | 57,460 | 60,000 | 9,150 | 58.55 |
| Usage: | Transmission Chain, Conveyor Chain, Roller Chain |
|---|---|
| Material: | Alloy/Carbon Steel |
| Tratamiento de superficie: | Polishing |
| Feature: | Heat Resistant |
| Chain Size: | 3/8"*2" |
| Structure: | Roller Chain |
| Personalización: | Disponible | Solicitud personalizada |
|---|
What are the advantages of using a slat conveyor chain?
A slat conveyor chain offers several advantages in material handling and conveying applications. Here are some key benefits:
1. Heavy-Duty Capacity:
– Slat conveyor chains are designed to handle heavy loads and can withstand rigorous industrial environments.
– They are commonly used in applications that require transporting large, bulky, or irregularly shaped items, such as automotive parts, pallets, or containers.
2. Flexibility:
– Slat chains can be customized and configured to suit specific conveying requirements. They are available in various widths, lengths, and chain configurations to accommodate different product sizes and shapes.
– The modular design of slat chains allows for easy modification or expansion of the conveyor system as production needs change.
3. Versatility:
– Slat chains can be used in both horizontal and inclined conveying applications. They are capable of moving products up or down slopes, making them suitable for production lines with varying elevations.
– These chains can be integrated with curves, turns, merges, and diverters to create complex conveying systems that optimize space utilization and product flow.
4. Durability and Longevity:
– Slat chains are typically made from robust materials such as steel or plastic, providing excellent durability and resistance to wear and tear.
– They can withstand demanding operating conditions, including high temperatures, corrosive environments, or exposure to chemicals.
5. Low Maintenance:
– Slat conveyor chains require minimal maintenance compared to other types of conveyor systems. They have fewer moving parts and typically operate with reduced friction.
– With proper lubrication and periodic inspection, slat chains can maintain their performance and reliability over an extended service life.
6. Easy Cleaning:
– The open design of slat chains allows for easy cleaning and debris removal. They are suitable for applications that require frequent sanitation or hygiene maintenance, such as in food processing or pharmaceutical industries.
Overall, using a slat conveyor chain offers the advantages of high load capacity, flexibility in design, versatility in conveying applications, durability, low maintenance requirements, and ease of cleaning. These features make slat chains an effective solution for various industries requiring efficient and reliable material handling.
What are the future trends and advancements in conveyor chain technology?
The field of conveyor chain technology is constantly evolving, driven by the need for improved efficiency, productivity, and sustainability. Here are some of the future trends and advancements in conveyor chain technology:
1. Automation and robotics: The integration of conveyor chains with automation and robotics systems is a growing trend. This includes the use of advanced sensors, machine vision, and artificial intelligence to enable autonomous operation, precise positioning, and efficient material handling.
2. Smart and connected systems: Conveyor chains are becoming increasingly connected through the Internet of Things (IoT) technology. This allows for real-time monitoring, data collection, and analysis of various performance parameters such as chain wear, tension, temperature, and energy consumption. Smart systems can optimize maintenance schedules, detect potential failures, and improve overall system efficiency.
3. Lightweight and high-strength materials: The development of lightweight yet high-strength materials is an ongoing focus in conveyor chain technology. Advanced alloys, composites, and engineered plastics offer improved strength-to-weight ratios, reducing energy consumption and increasing the load capacity of conveyor systems.
4. Energy efficiency: Energy efficiency is a key consideration in conveyor chain design. Future advancements aim to minimize power consumption through the use of efficient drive systems, regenerative braking, and smart control algorithms that optimize speed and acceleration profiles. Energy recovery technologies, such as regenerative drives, can also capture and reuse energy during deceleration or braking.
5. Sustainability and environmental friendliness: Conveyor chain technology is moving towards more sustainable and environmentally friendly solutions. This includes the use of eco-friendly materials, improved lubrication techniques to minimize environmental impact, and the adoption of energy-efficient components and systems. Recycling and circular economy concepts are also gaining prominence in the design and manufacturing of conveyor chains.
6. Advanced wear monitoring and predictive maintenance: The future of conveyor chain technology involves advanced wear monitoring systems that can accurately predict the remaining useful life of chains and components. This enables proactive maintenance planning and reduces unplanned downtime. Predictive maintenance algorithms analyze data collected from sensors and provide timely alerts for chain replacement or repair.
These are just a few examples of the future trends and advancements in conveyor chain technology. As technology continues to advance, we can expect further innovations that enhance performance, efficiency, reliability, and sustainability in conveyor systems.
¿Cuáles son los diferentes tipos de cadenas transportadoras?
Existen varios tipos de cadenas transportadoras, cada una diseñada para satisfacer requisitos específicos de cada aplicación. A continuación, se presentan algunos tipos comunes de cadenas transportadoras:
- Cadenas de rodillos: Las cadenas de rodillos son el tipo de cadena transportadora más utilizado. Consisten en una serie de rodillos cilíndricos conectados por placas laterales. Proporcionan un movimiento suave y eficiente, y son adecuadas para aplicaciones de trabajo medio a pesado.
- Cadenas de doble paso: Las cadenas de doble paso tienen mayor paso (distancia entre los centros de los pasadores adyacentes) en comparación con las cadenas de rodillos estándar. Se utilizan a menudo en aplicaciones que requieren velocidades más bajas y cargas más ligeras.
- Cadenas de pasador hueco: Las cadenas de pasador hueco tienen pasadores huecos que facilitan la instalación de diversos accesorios. Se utilizan comúnmente en aplicaciones de transporte que requieren personalización o donde es necesario montar accesorios.
- Cadenas de delantal o de listones: Las cadenas de plataforma o de listones constan de placas o listones conectados mediante bisagras. Se utilizan en aplicaciones de servicio pesado donde la cadena debe soportar y transportar grandes cargas o soportar entornos hostiles.
- Cadenas de plástico: Las cadenas de plástico están fabricadas con materiales duraderos y ligeros, como el acetal o el polietileno. Ofrecen ventajas como resistencia a la corrosión, bajos niveles de ruido y la capacidad de funcionar en entornos húmedos o de lavado. Las cadenas de plástico se utilizan comúnmente en las industrias de procesamiento de alimentos, envasado y farmacéutica.
Estos son solo algunos ejemplos de tipos de cadenas transportadoras, y existen muchas otras variantes disponibles según los requisitos específicos de la aplicación. La selección del tipo de cadena transportadora adecuado depende de factores como la capacidad de carga, la velocidad, el entorno y la funcionalidad deseada.
editor by CX 2023-10-27