Conveyor Ovens

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Conveyor Oven

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A conveyor oven is a continuous flow oven that is open on opposing ends and has a conveying system running from one end of the oven to the other. Designed like a batch oven, conveyor ovens have the additional benefit of keeping products moving while providing continuous and uniform heat. They are ideal for mass production of high volume production runs.

The various designs of conveyor ovens include horizontal, vertical, inclined, or spiral motion paths with powered roller, belted, chain on edge, overhead, or power and free power sources. They are designed for high production volume where there is not enough time to load a batch style oven.

There are various types of conveying systems available for conveyor ovens; this includes overhead, chain on edge, roller, belt, and chains of differing sizes, shapes, and types. Products to be processed can be a few pounds or several hundred pounds.

Types of Conveyor Ovens

Industrial ovens are a heated chamber that are a vital part of manufacturing and finishing processes. They provide an enclosure for heat treating parts and components that require curing, annealing, or other forms of high temperature treatments. Conveyor ovens are a type of industrial oven that continuously, steadily, and reliably move parts through an oven chamber for heat treatment and processing.

Conveyor industrial ovens are custom designed to treat a specific type of material and use a variety of conveying methods and types of heating elements. A critical aspect of conveyor ovens is the air flow, which can be horizontal/vertical or vertical/horizontal depending on the oven‘s design.

• Vertical Conveyor Ovens

Vertical conveyor ovens, paternoster type, are used where there is limited floor space. Parts are conveyed using vertically moving trays that can be indexed or continuously moving. The trays are fixed on conveyor chains that move according to the paternoster pattern. Vertical conveyor ovens have exceptional temperature uniformity, reliable mechanics, low maintenance, and easy access.

• Overhead Conveyor Ovens

Overhead conveyor ovens use an overhead conveying system similar to a monorail to move parts to be treated by multiple processes. They are an ideal solution for processing high volumes of components and parts. An overhead conveyor oven has a continuous circuit chain running on a through track with vertical and horizontal curves that connect to a drive unit that pulls the chain.
The entrance to an overhead conveyor oven is air sealed. The conveying system can serpentine like a chain on edge conveyor, which helps to make the oven cost and energy efficient.

• Belt Conveyor Ovens

Belt conveyor ovens have a woven chain belt that moves parts and materials through the oven. The belt can be designed to move continuously or index and dwell depending on production volume and timing. Belt conveyor ovens are ideal for processing huge volumes of small parts and are a safe, reliable solution to part heat treatment. Parts are placed on the wire mesh belt and slide on a steel slider bed.

• Chain-On-Edge Conveyor Ovens

Chain-on-edge or spindle conveyor systems have a chain mounted on the floor or a frame with posts attached to the chain that have some form of fixture. They operate much like an overhead conveying system and can twist and turn. Parts are loaded onto the spindles or posts to be conveyed through the oven with the oven configured for multiple passes.
As with other types of conveyor ovens, the chain-on-edge version can be programmed for continuous flow or indexing. Much like the belt version, chain-on-edge conveyor ovens are a perfect solution for small high volume parts.

• Tunnel Conveyor Ovens

Tunnel ovens are typically used to process food and are designed with high temperature capabilities. As with all conveyor ovens, tunnel ovens come with a variety of heat sources, from infrared to direct gas fire, and use any of the different types of conveying systems. Tunnel ovens can have multiple heat and cooling zones with adjustable conveying speeds and can be integrated into an existing conveying system.

• Carousel Conveyor Ovens

Carousel conveyor ovens allow for the loading and unloading of the treated product in the same location. This method of conveying offers the flexibility of varying quantities to be loaded, what sizes can be loaded, and the facilitation of personnel. Carousel conveyor ovens use horizontal airflow and save floor space.

• Hybrid Conveyor Ovens

A common design practice for conveyor ovens is to combine various heating methods. The combinations include gas and indirect radiant, gas and convection, and ovens using three heating systems such as gas, radiant, and convection. The benefits of combining heat sources is an optimization of energy consumption and faster processing times.

Types of Conveyors for Conveyor Ovens

All conveyor ovens are specially designed and engineered to meet the needs of the customer. When planning the purchase of a conveyor oven, there is a wide variety of factors that need to be considered, such as the material to be treated, oven configuration, how the oven will fit into the manufacturing process, and the type of belt material.

Conveyor oven belts can be made from several materials; these include fabric and metals. The determination of the belt material hinges on the oven's purpose—sintering, drying, annealing, or curing to name a few.

• Carbon Steel Belts

Carbon steel belts are durable, have precision tracking, and exceptional straightness and flatness. They are easy to clean, hygienic, and abrasion resistant. Carbon steel belts are commonly used in baking and food preparation. The down side of carbon steel is that it rusts and discolors.

• Stainless Steel Belts

Stainless steel is one of the most resilient metals used for industrial applications. It is the first choice for conveyor belts since it does not rust or corrode and does not require frequent cleaning. The strength, durability, and toughness of stainless steel makes it the ideal material for conveyor belts for several industries including rubber, lamination, wood, and chemicals.

• Rubber Belts

The choice of rubber may seem to be unusual for a conveyor belt for a conveyor oven since it easily melts . For rubber to be used for a conveyor oven, it is specially treated to be able to withstand temperatures of 450° F (232° C). Once treated, rubber is the perfect choice for food preparation conveyor ovens.

• Plastic Conveyor Belt

Of the many available choices for conveyor oven conveyor belts, plastic would seem to be the least likely. Plastic cannot be used in high temperature applications but is ideal for cooling chambers and low heat processes. It is cost effective, has a long usage life, and requires little maintenance. Plastic conveyor belts are made in linked sections, which makes them easier to remove and replace.

• Polypropylene Conveyor Belt Material

Polypropylene is adaptable for several applications and has the advantages of all plastic belts, and it is lightweight, sturdy, and flexible. It is resistant to water, mold, abrasion, chemicals, and corrosion. Of the various materials, polypropylene is the most versatile.

• TeflonTM Coated Fiberglass Conveyor Oven Belt

When fabric is being used as a conveyor belt for a conveyor oven, it is coated in TeflonTM, which makes the fabric non-stick and heat resistant. This type of conveyor belt is used in industrial ovens for baking and drying applications in food production in order to be in compliance with Federal Food and Drug Administration (FDA) rules.

• Stainless Steel Chain Strand Conveyor Belt

Chain driven roller conveyor belts have two or more strands of chain designed to support a flat product in the shape of a board that is placed on top of the chain strands. An alternative to the simple chain design is securing steel slats between the strands, a formation that allows smaller parts to be processed.

• Overhead Chains

In an overhead conveying system, each link of the conveyor belt system is attached to another link to form a loop. Overhead chain systems allow for turns and elevation changes. The chain is connected to a motor that pulls it and is hung from a trolley or rail.

• Flat Wire Conveyor Oven Belt

Flat wire conveyor oven belts are the most common and widely used. This type of oven belt is a piece of flat wire bent into a series of interlocked pickets that are connected by pins that run the width of the belt. Flat wire conveyor belts are made from wire of different thicknesses depending on the strength required for the application.

• Balanced Weave Conveyor Oven Belt

Balanced weave conveyor belts have the appearance of woven cloth but with threads made of wire. They come in different mesh and wire gauge types and styles. The width of the weave is wide enough to let air flow through but small enough to prevent small parts from falling through the mesh.

• Belt Driven Live Roller Conveyor

Belt driven live roller conveyors are used for heavy loading applications and have flexibility of motion. Their use depends on the processing temperature.They have shaft bearings on the outside of the oven with a power transmission unit that includes bearings, a system of chains, and a motor.

• Walking Beam

A walking beam conveying system is used when distance between materials is required. The pieces being moved through the oven are indexed using a static support and a moving support. The static support holds the material in place while the moving support moves it from one static support to the next. The process of lifting, moving, and holding takes place over the full length of the conveying system.

Walking beams are specially chosen for conditions where the environment prevents the use of the other conveying methods. Critical to the walking beam process are drive components and positioning sensors.

• Conveyor Oven Heat Sources

Conveyor ovens are engineered to use electric, natural gas, liquefied petroleum gas, or radiant infrared heat. Special designs have a combination of the heat sources such as electric and gas. For gas operation, facilities must have the appropriate supply while electric heating requires necessary voltage.

The choice of heat source is dependent on the process for which it will be used since each type of thermal processing unit provides different results.

• Gas Conveyor Ovens

Gas heated conveyor ovens have burners above and below the conveying mechanism. For improved uniform heating, a gas and air mixture are supplied to the burners, which are ignited by a spark electrode.

• Electric Convection Conveyor Ovens

The key factor for an electric convection conveyor oven is the continuous circulation of the heated air by a fan or other source. The circulating mechanism pulls air from one section of the oven and pushes it back into the oven. The process maintains uniform temperature throughout the heated space and brings more heated air into contact with the elements being treated.

• Infrared Conveyor Ovens

Infrared heating is accomplished by electrical energy being generated in infrared wavelengths emitted from the surface of the heating element. The heat waves travel continuously until they make contact with an object. With an infrared conveyor oven, infrared heating is an efficient and homogeneous method for heating products. Infrared conveyor ovens can have controllable and programmable heat zones that offer thermal control of the heating process.

Uses for Conveyor Ovens

• Drying

The purpose of a conveyor oven in a drying process is to remove moisture or other liquids from a product. In most cases, multiple heat zones are necessary for maximum drying efficiency. For safety purposes, an exhaust system is built into the conveyor oven to match the moisture release rate.

• Curing

The curing process raises the mass and coated material of a product to the appropriate temperature, holds it, and lets the product cool. The process is used to cure powdered coatings, paints, and adhesives. When a part is cured, the coating is hardened and toughened by the initiation of chemical structural changes in the coated material.

• Aging

Heat treatment for aging involves elevating the temperature of a product to change its properties; this is also referred to as precipitation hardening to increase the hardness of a material. The process involves heating the material and keeping it at the raised temperature for hours, an ideal process for a conveyor oven.

• Annealing

Annealing is a heat treatment process that is typically performed on hard metals to change their microstructure for shaping and deforming. It increases ductility and eliminates internal stress. Annealing must be performed under precisely controlled conditions, so the microstructure is not damaged or severely altered.

• Stress Relieving

Stress relieving is another metal changing method where the metal is heated to below its critical temperature then cooled. The heated temperature is held long enough to achieve the desired stress reduction. Since conveyor ovens do not apply flame to heat materials, they are an ideal method for relieving metal stress.

• Bonding

Bonding is a manufacturing heating process used to join multiple materials to create one material. The bonding process enhances the strength of the bonded materials with seams that are tighter and stronger than the original materials.

• Tempering

Tempering reduces the hardness of a metal; it is applied to ferrous alloys, such as steel and cast iron. When the hardness of the metal is decreased, the metal achieves greater toughness. As the hardness is reduced, the metal becomes more ductile and less brittle.

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• Conveyor Oven Control and Zone Adjustments

Conveyor ovens are equipped with programmable logic controllers (PLC) that give operators the flexibility to change many of the factors related to the oven's operation. Residence time of a product in a heat zone can be adjusted as well as oven temperature, speed, air flow, and feed time.

• Zonal Flexibility

Conveyor ovens are divided into zones, each of which can be changed and adjusted to match any variations in the product treatment process.

• Consistent Temperature Control

Unlike any other form of heat treatment method, conveyor ovens provide a consistent and uniform temperature to the heat treatment process. The product is perfectly timed and regulated as it passes through each zone.