Popular for their versatility, cost effectiveness, and safety features, belt conveyors can increase your production throughput and boost your operational efficiency.
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Whether you are looking to automate a manual process for the first time or upgrade your existing food processing line with a modern belt conveyor, knowing how to choose the right conveyor belt will help you maximize the return on your investment. But how do you know where to begin?
In this post, we’ll discuss the importance of choosing the right conveyor belt for your food processing or packaging needs and guide you through 4 key factors to consider when choosing a conveyor belt.
Once you have decided that a belt conveyor is the best type of conveyor to suit your needs, it’s time to choose which components will outfit your conveyance system.
The first component you must consider is the type of conveyor belt you will need. The belt that you use will determine several other important factors and components including the conveyor design, frame type, and actuation.
Additionally, the type of conveyor belt will directly impact both food and worker safety. Not to mention, choosing the right conveyor belt the first time will save you from needless repairs, minimize operational downtime, and keep your production running smoothly.
To determine what type of conveyor belt will work best for you, consider the following key factors.
As you evaluate your conveyor belt options, you should carefully consider the product you will be conveying. Product characteristics such as weight, size, texture, moisture, viscosity, oil content, corrosiveness, and acidity all play an important role in determining the type of conveyor belt you will need.
The weight and size of the product can dictate the class of conveyor belt that is required—light-duty, medium-duty, or heavy-duty.
For example, a production line conveyor that handles finished food products would typically employ a light-duty conveyor belt, while a primary or secondary packaging line may necessitate a medium-duty belt.
In contrast, heavy-duty conveyor belts carry the greatest load capacities and are often used at the end of the line to transport large loads of palletized products.
Other product characteristics such as texture and viscosity directly affect the functionality and effectiveness of the conveyor belt and will influence the conveyor belt design, material type, and surface profile. Additionally, these characteristics can present unique challenges to food safety and must not be overlooked when considering the type of belt you will need.
Conveyor belts that come into direct contact with raw or unpackaged ready-to-eat food products are known as Food Contact Surfaces (FCS) and are held to the highest standards of hygiene and food safety. For these conveyors, it is critical to select a food-grade conveyor belt that is made with material specifically rated for your product.
Materials that are wet, oily, sticky, corrosive, or acidic can penetrate or adhere to a conveyor belt in ways that hinder effective material handling and sanitation and can compromise food safety if the wrong type of conveyor belt is used.
When choosing a conveyor belt, consider at what stage of production and for which process the conveyor will be used. Will you be transporting raw materials, ready-to-eat foods, or packaged goods? Will the conveyor be integrated with processes such as cutting, cooking, cooling, inspecting, or packaging?
Each of these factors will influence the type of belt material you select and may also necessitate the use of a specialized type of conveyor belt. For example, a raw meat trimming line conveyor would benefit from the use of a cut-resistant belt material that is also designed to be antimicrobial.
Likewise, a processing line conveyor that handles unpackaged food products may benefit from the use of metal- or x-ray-detectable belting. This belting is made with material that can be easily recognized by metal or x-ray detectors should any part of the conveyor belt happen to break off and become incorporated into the food product.
Choosing the conveyor belt material that is most appropriate for your application will reduce the risk of food contamination that could be caused by a belt that breaks easily or harbors pathogens.
When selecting a conveyor belt for your food production facility, you should also consider the environmental conditions where the conveyor will be operating. Factors such as temperature and moisture affect the conveyor belt’s durability and sanitation requirements which, in turn, impact both food and worker safety.
Conveyor belts that are routinely exposed to extreme temperatures must be carefully chosen to ensure that they are properly rated for those temperatures. In the food processing industry, thermoplastic conveyor belts are popular for their durability and capability to withstand a broad range of temperatures; however, they are not always the best choice in the most extreme temperature environments.
For example, thermoplastic conveyor belts may melt or even catch fire if they are in close contact with a high heat source such as an oven. Therefore, a conveyor belt used on a baking line would benefit from a material with a higher temperature resistance such as metal or silicone.
Similarly, using a conveyor belt that is rated for sub-zero temperatures will reduce the likelihood of belt breakage when operating in a freezing environment.
Conveyors that operate in wet environments where food is processed will require a belt material that is appropriately rated for washdown. Non-porous thermoplastic belts work well in this type of environment.
For sanitary conveyors, choosing a belt material with a high chemical resistance will also help extend the life of the conveyor belt as it is regularly exposed to harsh chemicals during the cleaning process.
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Considering which direction you will be moving your product will also help you determine what type of conveyor belt is the best choice for your material handling. Curves, inclines, declines, and vertical conveyance all factor into the belt design.
Understanding how product flow affects the conveyor design will help you make the best use of space in your facility and optimize your production efficiency.
Will you be moving your product in a straight path or around corners? While a flat conveyor belt may work well for a straight run, a modular belt is ideal when turns are required, since modular belting offers greater directional flexibility and can be adapted to fit around curves.
Conveying on an incline or decline may require the use of a cleated conveyor belt that includes sections, dividers, or pockets to secure materials. For conveyors with steep angles such as a Z-conveyor, a belt that also includes sidewalls may be needed to further protect from product spillage during transport.
From product and application to environment and conveyance direction, each of these considerations is crucial to ensuring the safety, effectiveness, and longevity of your belt conveyor.
When selecting a conveyor belt, it’s essential to consider the nature of the products being conveyed, as well as the conditions of use.
Specifications of transported products:
Conditions of use: The conditions under which the conveyor belt will be used must be taken into account in your choice:
The conveyor belt material you choose is crucial to ensure optimum performance and durability in a given environment. Your choice will depend on your specific application, working environment, the nature of the materials transported, and economic constraints. The materials used for conveyor belts vary widely, and each offers distinct advantages and limitations.
Rubber is one of the most commonly used materials for conveyor belts, thanks to its versatility and durability. It resists abrasions, cuts, and tears, making it ideal for transporting heavy or sharp materials. Rubber can also be formulated to withstand extreme temperatures, chemicals, and oils, making it suitable for industries such as mining, construction, and waste treatment.
PVC (polyvinyl chloride) is another material frequently used for conveyor belts, particularly in the food industry, where hygiene is a major concern. PVC belts are easy to clean and resistant to chemicals and moisture. They are also less expensive than other materials, making them an economical choice for many applications.
Polyurethane (PU) is preferred for applications where durability and flexibility are required. It is particularly resistant to wear, cuts, oil and grease. PU belts are often used in the food and pharmaceutical industries and in the processing of bulk materials where contamination must be avoided.
Fabrics such as nylon, polyester, and cotton are also used to manufacture conveyor belts. These materials offer good tensile strength and are suitable for transporting light to medium loads. Fabric belts are often used in the paper, printing, and textile industries.
Metals, such as steel or stainless steel, are used in applications requiring high resistance to heat or corrosion. They are often used in foundries, industrial bakeries, or for transporting hot materials.
Composite materials such as glass- or Kevlar-reinforced belts, are used in applications requiring exceptional tensile strength and low elongation. These lightweight belts can withstand very heavy loads, making them ideal for the aerospace industry.
Conveyor belts come in a variety of shapes and specifications to suit the transport of particular products.
Herringbone belts: Designed for conveying products up or downhill.
Trough conveyor belts: These are rubber belts supported by curved rollers that give them a hollow shape. This type of belt is used for conveying bulk products such as grain, cereals, fertilizers, etc. These belts are often used in the agricultural and food-processing industries and in the processing of bulk materials. Troughed belts with cleats are also available.
Plastic modular belts are another special shape that offer great flexibility and ease of maintenance. These belts are made up of interconnected plastic modules that can be easily replaced in the event of damage or wear. This modularity is particularly advantageous in industries where hygiene is a priority, such as food processing, as they can be dismantled and cleaned with great ease.
Capacity: Expressed in tonnes/hour, this is calculated by taking into account the material to be conveyed, belt width and speed, and conveyor inclination.
Pulley diameter: Be sure to measure the diameter of the pulley around which the belt runs.
Tensile strength: Calculating the tensile strength takes into account transport length, speed, possible inclinations, etc.
Belt rigidity: The belt should not be too rigid because the center might not touch the center roller and be impossible to guide. On the other hand, it shouldn’t be too flexible either, as it could get damaged in the troughs between the rollers.
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