AGV

Technology serves a multitude of functions; making the work people do easier and eliminating human error are the main goals of most technological advances. AGVs, or automatic guided vehicles, are quickly becoming essential to manufacturers and other sectors of the heavy industry. With AGVs there is an increase in safety, less damage to materials and buildings, 24/7 operation, no labor expenses, and inventory/production control-- making AGVs the optimal solution.

AGVs are vehicles that are guided by a computer rather than a human. They are powered either by a battery or electric motor, and are able to complete many functions in manufacturing, warehousing, and even farming applications. These self-propelled machines have capabilities ranging from load transferring, pallet movement and stacking, assembly and even towing heavy loads. These functions have been traditionally performed by people, which increased the risks of injury and human error. With these self-propelled vehicles, these possibilities are eliminated. Learn more about AGVs.

Air Compressor Manufacturers

Air compressors are a type of air handling equipment with the goal of providing air and power alike to systems and tools. As their name suggests, they do so by compressing air. The most common way that air compressors work is by pulling air from the surrounding atmosphere and then decreasing its volume while increasing its pressure. In this way, air compressors are able to convert mechanical energy into useful pneumatic energy.

Most often, air compressors are used in industries including automotive, commercial art, construction, home and office, marine safety, sports and recreation and water purification services. They power tools like jackhammers, and provide pressurized air to systems and tools like surface supplied diving systems, gas cylinders, high pressure air tanks, tires and large scale processes like bag house purge systems.

Those looking for air compressors have many options, as air compressors can be built using a number of different materials and power systems, and in a number of different sizes and styles. Typically, air compressors are built using aluminum, cast iron or steel. In the case of a lightweight, mini or portable compressor, however, manufacturers may opt for a strong plastic. Air compressors can be purchased new or like-new. Learn more about air compressors.

Air Pollution Control Equipment

Air pollution control equipment is equipment that targets and removes or reduces the presence of irritable, potentially harmful or harmful particles and substances from the air. These include Hazardous Air Pollutants (HAPs), such as odors, fumes, vapors and sulfuric gases, and Volatile Organic Compounds (VOCs). The removal of pollutants such as these is important for a number of different reasons. First, from a community health and wellness standpoint, it is the responsibility of those facilities that emit harmful substances to keep them from getting into the breathing air and/or water of the surrounding community. (Note over 100 regulated HAPS have been confirmed as or are suspected carcinogens.)

Also, since many HAPs and VOCs contribute to carbon emissions, acid rain, smog and other symptoms of climate change, air pollution control equipment is needed to keep the local ecosystems and environment healthy, balanced and thriving. From a business perspective, air pollution control equipment helps keep companies in line with EPA regulations like the Clean Air Act. To meet a diverse set of needs, there are is a diverse set of air pollution control equipment available to users, such as wet scrubbers, dry scrubbers, mist collectors, odor control systems and electrostatic precipitators. Learn more about air pollution control.

Assembly Machinery/Automation Equipment

Assembly machinery is a large category of machinery that encompasses all computerized machines used in the manufacturing industry. One of the biggest perks to using these machines is the brief amount of human contact required to run one. Therefore, assembly machinery is more cost effective then a machining system that requires constant surveillance.

Assembly machinery is used in the production, assembly and packaging areas of the manufacturing industry. Assembly lines use automation equipment for all parts of making a product and getting it ready to ship, usually with a computerized machine for each step of production. Computer controlled machines are also referred to as CNC machines, specifically CNC manufacturing when they are programmed to produce sellable goods. Through programs such as computer assisted design (CAD), computer aided manufacturing (CAM) and photo imaging a manufacturing company is able to set up each step of the production with the precise measurements and exact details to make every product perfect. Production often includes automated equipment designed to perform tool and die processes, which can be more complicated and dangerous since drilling and cutting is involved. Conveyor belts are often utilized as the transportation of the product from one workstation to another, each assembly machine it passes building it more till it reaches the end a complete part. The conveyor belts must be built well with sturdy material, because they function as transport as well as a surface for the manufacturing automation machines to work on.

Many manufacturing functions such as material handling, product forming, welding, milling, grinding, cleaning, assembly, and packaging are accomplished through the use of computer controlled, automated, and robotic machinery. Automated systems sort mail, packaged goods, and food products.

These systems may be partially manned, supervised by a production manager, or totally automated, operating without any human guidance or intervention beyond the initial programming and necessary maintenance. Learn more about automation equipments.

Blower Manufacturers

Blowers are an important component of many types of air handling equipment. Also known as air blowers, blower fans or blowers, they work by generating airflow that can be forced into or through various buildings, machines or structures. To accomplish this, blowers harness the power of rotating blades that are connected to a hub, shaft and motor or turbine. They may also include parts such as housings, impellers, impeller locking devices, inlet ducts, outlet ducts, bearings, couplings and/or shaft seal plates.

Quite similar to centrifugal fans, the main difference between the two is the fact that blowers can achieve a higher pressure ratio. Their typical applications include ventilation, heating and cooling and drying, though some blowers serve specialized applications, such as vacuum creation or aeration.

The most popular blower applications are exhaust and ventilation, but in general, they are also incredibly useful in HVAC (heating, ventilation and air conditioning) settings. This is because blowers are less expensive and easier to construct and maintain than many other fans, such as axial fans. With such varied applications, it should come as no surprise that blowers can be found in many different settings, among them commercial buildings, factories, warehouses and the home. Learn more about blowers.

Clean Rooms

Clean rooms are enclosures designed to facilitate sensitive research, fabrication and other operations that must take place in the absence of dust, moisture and other airborne contaminants. Clean rooms systems were first developed in response to the needs of the aerospace and microtechnology industries in the early 1960s. As those and other high-tech disciplines like bio-technology and medical research developed, and as products and research subjects became smaller, airborne contaminants became increasingly disruptive. The rigidly controlled environments with which these professionals began to surround their work came to be known as clean rooms. Learn more about clean rooms.

Conveyor Systems

Conveyors are a type of material handling equipment which assists in moving products, packages, foods or equipment from one place inside a facility to another, or through various stages of automated manufacturing or finishing. Because conveyors move such a broad range of items, different conveyor configurations are available to meet the material handling needs of manufacturers and distributors everywhere. Belt conveyors are the most common, followed by chain conveyors, roller conveyors, spiral conveyors, overhead conveyors, vertical conveyors and conveyor systems, which may use combinations of many different conveyor types.

Conveyors are usually motorized, but some conveyor types, such as ball transfer and chute, are gravity conveyors. Pneumatic conveyors also assist in transporting materials, but these tubular air-powered conveyors specialize in bulk powder solid transportation, a different type of conveying. Manufacturers and package handlers in almost every industry make use of various types of conveyors or conveyor systems, especially food conveyors and industrial conveyors, to transport parts, products and packages through various processing systems. In a setting, such as a manufacturing business, conveyors may be set up between work stations.

The most typical conveyor is the belt conveyor, which consists of a wide polymer or rubber belt wrapped around rollers which turn in the same direction, giving the belt and all objects on the belt linear movement. This same construction is used with chain conveyors, except that chains are wrapped around the wheels instead of a belt; chain conveyors may move products along one chain or multiple parallel chains. These are the most common conveyor types, being used for general product movement in food processing, packaging and parts manufacturing industries to transport items or to move unfinished products through various stages of processing. Chain conveyors utilizes parallel horizontal chains to move materials through a conveyor system and from one place inside a facility to another, or through various stages of automated manufacturing or finishing. Chain conveyors are commonly used to move parts such as powdered metal parts through ovens for sintering or drying, or to move unfinished metal parts through parts washing processes.

Roller conveyors are commonly used in these industries as well, using individual rollers placed parallel to one another to provide movement. Vertical conveyors are configured with platforms, buckets, grippers or magnets around moving belts or chains, which lift items from one level to another; although not as common, vertical conveyors can be crucial in facilities where it is necessary to safely transport food items or parts vertically. Parts manufacturers frequently use overhead conveyors to transport parts and products across a facility and/or through processing systems such as spray paint booths, dryers or ovens. Conveyor systems combine many or all of these conveyor types to transport products across a facility or to move unfinished products through automated assembly lines or finishing processes. While most conveyors are powered by electric or pneumatic motors and drive systems, some conveyors are propelled by gravity; roller conveyors are often moved by the inertia of products or packages rolling over them, a design typically used in downward spiral conveyors.

Conveyor and conveyor system manufacturers are creating innovative solutions to new manufacturing challenges every day. All conveyors may twist, turn and travel vertically up and down floors to transfer items. As a result, modern conveyor systems are equipped not only to move parts across horizontal and vertical distances, but also to curve, divert, lift and sort products and packages as part of complete automated systems. These types of advanced conveying processes are done by brushes, magnets, automated levers, rails and even simple gravity. Packaging industries have designed conveyor systems pre-programmed to sort specific boxes into separate chutes, and automated food processing conveyors can handle and sort the most delicate fruits and vegetables using sensors and robotic handlers. When integrated with robotic processing, conveyors and conveyor systems become powerful processing tools.

Conveyor systems encompass various material handling equipment that efficiently transport packages, products, parts, food, or equipment within a facility. They facilitate movement through different stages of manufacturing, finishing, or distribution processes, as well as between different locations. Beyond material handling, conveyor systems support applications in shipping, receiving, distribution, sintering, finishing, parts washing, packaging, and warehousing. These systems are critical in many industries, including aerospace, automotive, commercial manufacturing, retail, food processing, industrial manufacturing, military, defense, paper, and pharmaceutical sectors.

Conveyor systems cater to diverse applications, prompting manufacturers to provide various standard configurations. These include belt, chain, roller, overhead, vertical, and chute conveyor systems. While most systems are automated, some, like chute and roller systems, are not. Conveyor systems can combine different configurations to move items vertically or horizontally, and efficiently divert, lift, curve, and sort products.

Learn more about conveyor systems.

Cooling Towers

A cooling tower is a closed structure utilized in industrial plants to remove heat from water or other fluids. Despite varying designs, types, shapes, and sizes, cooling towers operate on the principle of evaporative cooling. Heat from water is transferred to the air through evaporation, effectively lowering the water temperature. Sometimes referred to as evaporative condensers or fluid coolers, cooling towers' efficiency is assessed based on the wet bulb temperature, which represents the lowest achievable temperature of the water in the system.

The rate of heat transfer required for water evaporation into the air serves as a performance indicator for cooling towers. The entering wet bulb temperature of the air is crucial in evaluating a cooling tower's effectiveness. Guidelines from industry bodies like the American Society of Mechanical Engineers (ASME) and the Cooling Technology Institute (CTI) recommend sizing and testing cooling towers based on entering wet bulb temperatures, measured using a psychrometer.

Learn more about cooling towers.

Crane Manufacturers

Crane manufacturers are operations that supply industries and commercial operations with materials suspension equipment. Materials handling operations require a great diversity of equipment to accommodate all of the different kinds of loads that they are used to move. Cranes are often indispensable tools for such operations.

Crane manufacturers offer many different varieties of cranes. They are made for a wide range of lifting and positioning applications and vary in load capacity up to nearly 1,000 tons. Bridge cranes, which in some cases are known as track cranes, are stretched across building structural beams and used as permanent fixtures in manufacturing or distribution facilities, operating from a set of overhead rails. Gantry cranes are bridged between two movable supports, often on wheels, and are typically used outside in large industrial construction applications. Jib cranes, unlike other classes of overhead cranes, are only supported on one side by a vertical support or wall fixture; many workstation cranes are types of jib cranes. A beam extends from the support or wall on a pivot, while the trolley carries the hoist along the overhead beam. Stacker cranes are used in automated computer warehouse systems and move vertically or horizontally on tracks to reach items in large storage facilities. They are an alternative to forklift trucks and are popular in warehouses where conditions are inhospitable to workers. For crane applications that require more than linear movements or are in hard-to-reach places, mobile cranes are used as an alternative to overhead cranes. A large percentage of modern construction operations are accomplished with the help of some kind of crane. Bridges, monuments, cargo ships and other large vehicles and vessels are built using gantry cranes, and most industrial equipment manufacturing and large metalworking processes use built-in overhead traveling cranes to move objects around. Bridge cranes present a safe, easy-to-use alternative to ground transportation in many situations, particularly when handling extremely heavy or awkwardly shaped objects. Because all of a bridge crane's constituent parts are suspended above ground, they do not occupy any space on the ground. Small jib cranes can provide excellent relief from factory or assembly workers continually lifting and moving objects around a facility while taking up little or no valuable floor space. Cranes used for material and equipment handling within a facility, like monorail cranes that are mounted to the ceiling, are often referred to as workstation cranes.

Gantry cranes are one quite common crane variety. Gantries are sometimes supported on one side only and are usually counterbalanced on the side opposite the hoist; these are called half gantries, semi-gantries or cantilevered gantries. Jib cranes differ from semi-gantries or cantilevered gantries in that the overhead arm typically pans 180 degrees horizontally, as opposed to the half gantry's fixed arm. Jib cranes may have a portable one-sided support, or smaller workstation jib crane arms may be attached to the wall; these are often called wall cranes.

Still more innovations have been offered by crane manufacturers even within the context of individual crane configurations. The bridge crane, for example, is available in single and double girder configurations. A bridge crane is a complex of vertical girders to which one (in the case of single girder cranes) or two (in the case of double girder cranes) girders are attached. Attached to the girder or girders is a winch system that is used for lifting and lowering objects. Single girders are sometimes mistakenly considered to be diminished in their capacity for lifting loads compared to double girder varieties. In reality, the only significant difference between single girder and double girder varieties is the maximum height that the bottom of the winch hardware can achieve. Crane manufacturers can advise their customers about the best configuration for a given use. Especially in the construction industry, the applications for cranes can vary widely from project to project. In many cases, such as in the construction or repair of a bridge, mobile cranes, the dimensions and capacities of which can be specially suited for the task, are designed with that specific project in mind. This can be true in many other specialized applications as well.

Cranes, also known as overhead cranes, bridge cranes, hoist cranes or lifting cranes, are machines used to lower, lift and transport loads of all shapes, sizes and weights up to approximately 1,000 tons.

Typically, cranes are powered either by electric batteries, internal combustion or a hydraulics system. They typically consist of either one or two support beams, a hoist or hook, wire rope or cables and sheaves. Cranes are built out of steel or stainless steel. This is because these metals provide the greatest support, durability and corrosion resistance.

Believe it or not, cranes were first invented by the Ancient Greeks, who used them in the construction of tall buildings. Many years have passed since then and the crane has evolved over time. However, cranes are still used today in the construction of tall buildings. In fact, today, cranes are highly useful in a number of settings. These include auto manufacturing plants, building construction sites, oil rigs, paper mills and refineries, among others. In these settings, they attend to applications like raw materials handling, hot metal storage, the construction of paper machines and heavy press rolls, the maintenance of paper machines and heavy press rolls, material hoisting and steel refinement. Learn more about crane manufacturers.

Data Acquisition Systems

Data acquisition systems, shortened to DAS, are systems designed to convert analog waveforms into digital values, so that they can be used for processing. Industries that make use of this technology include aerospace, medicine, wastewater services, and industrial manufacturing. The process involves the sampling and converting of electrical or physical phenomenon or property into data and inputting the data into a computer. Examples of phenomena and properties include voltage, current, sound, fluid flow, gas pressure, force, temperature, and light intensity.

Once the data has been converted into a singular form, it can be accessed and controlled by data acquisition software programs that use a variety of programming languages, such a Pascal, Lisp, BASIC, C++, LabVIEW, and Java. In addition to allowing manufacturers to read data, data acquisition systems allow them to test a wide variety of technical products and make informed process adjustments. Learn more about data acquisition systems.

Deburring Machinery

Deburring machinery are machines that are used during the secondary machining process in order to achieve a smooth final surface. This can be after a number of different manufacturing techniques such as drilling, forging, stamping, molding, machining, or just about any other form of material manipulation that leaves behind a rough and unfinished surface. The reason being that these processes often leave behind a raised edge, sharp edge, bump, burr or seam that can sometimes interfere with the overall task of the object. This interference could lead to operational damage, or even injury. This is why having proper deburring machinery is crucial for a wide range of industries and applications.

There are a number of different processes at play within deburring machinery, from buffing and polishing to vibratory finishing. All of which are utilized in order to remove any burrs or imperfections on the surface of a part or product. Deburring machinery itself is a rather broad term as you can find large, industrial sized machinery all the way down to small hand-held pieces of machinery which get the job done within certain applications. These hand-held tools are great for products or intricate parts which are rather fragile and would risk damage by going through an industrial sized deburring machine which has everything from wheels to belts and vibratory tools. Deburring works on a wide range of materials from metals to even wood, no matter what material you are working with it is important to achieve a smooth finish in order to prevent injury and ensure that the product will be able to perform within its own application to the best of its abilities. Learn more about deburring equipments.

Dust Collector Manufacturers

Dust collectors are a type of equipment that work to accomplish just what their name suggests the collection of dust and other particles from air or gas. They are useful and important in a number of different industries, such as: agriculture, cement fabrication, chemical processing, coal handling, mining, pharmaceuticals, recycling and woodworking.

It should be noted that one of the reasons that dust collectors are so important is the fact that they help companies meet the stringent standards of air quality and restrictions on emissions of dust, fumes and smoke put forth by OSHA, the EPA and various other regulatory bodies. Because they must purify air and gas in such unique settings and because individual users have such different goals of percentage of particles captured, dust collectors come in all shapes and sizes.

To convey the scope of their variations, here is a list of just a few different types of dust collectors: cartridge collectors, cyclone dust collectors, downdraft tables, fabric filter baghouses, jet dust collectors, portable dust collectors, small dust collectors and wet dust collectors. Regardless of their type, however, dust collectors generally contain a blower, a dust filter, a filter cleaning system, and dust removal system or dust receptacle. Learn more about dust collectors.

Electric Transformers

Electric transformers are inductively coupled electro-magnetic devices that transfer electrical energy from one circuit to another. All electronically operated equipment depends on power transformers to convert electrical currents into voltages that fit a specific application, and current transformers are also required in order to store and transport energy through power lines and grids.

Because there are so many contexts in which electronic transformation is necessary, there exists a wide variety of electric transformers to accommodate them. Auto transformers, step-up and step-down transformers (which can be found here and here respectively), toroidal transformers, zig zag transformers and pulse transformers are just a few examples. By transferring electrical energy through two coil stages, transformers can increase, decrease, isolate, translate and pattern electrical currents to safely power electronic equipment of all voltage requirements. Electric transformer manufacturers configure transformers differently to meet all types of electric transformation applications and range in size from thumb-sized transformers in electric lamps or microphones to the enormous stationary transformers in power facilities. Low voltage transformers convert electrical currents into voltages that fit appliances such as dimmer lights and other small electronic devices, while high voltage transformers are used in the transmission of electricity between power generation facilities and its points of consumption. Most transformers are isolation transformers because they facilitate the transmission of electricity through induction, and many transformers are 3 phase transformers, capable of transforming electricity in 3 phases.

In addition to converting currents to a higher or lower voltage, electric transformers can serve to isolate parts of circuits from others. Auto transformers, however, have no isolation between the source and load circuit; they transmit electricity through conductors that are in contact with each other. You can find a list of manufacturers making these types of transformers on IQS Directory.

Electric transformers electrical devices that transfer electrical energy between two or more circuits. They can also increase, decrease, isolate, pattern and translate electrical currents of all power levels. The purposes of such actions are to make sure that they match the voltage and the voltage safety requirements of any given piece of equipment.

Electronic transformers serve every piece of equipment that is powered by electricity. This is because the transformers provide electrical equipment with the current to voltage conversions that they require. Transformers are also important in the storage and transportation of energy in power lines and power grids.

To meet the needs of their innumerable applications, electronic transformers are configured using countless designs. They vary in many ways, including by: frequency range, voltage class, basic magnetic form and general winding configuration. Examples of transformer types include: step up and step down, polyphase, toroidal and zig zag transformers. Generally speaking, though, electric transformers consist of the following components: a core and windings. Among other materials, the core may be made of laminated steel, powdered iron or non-conductive magnetic ceramics (ferrites). Windings serve to minimize the leakage of inductance. In addition, very large transformers are equipped with high voltage insulated bushings. Learn more about electric transformers.

Environmental Test Chambers

Environmental test chambers reproduce environmental conditions within a contained space for the purposes of evaluating the long-term effects of specific changes upon objects such as industrial products and materials, electronic products and other components. These conditions simulate those which a product will typically encounter in the span of its useful life. Test results can show the process of product decay and degradation and help predict the potential lifespan of a product or material.

For manufacturers, environmental chambers allow for the evaluation of product quality and reliability while also highlighting product flaws or weaknesses before the product is released to the public. There are many different kinds of test chambers which simulate various environmental conditions, and many chambers can control several different conditions at once. Some commonly tested conditions include: extreme temperatures, sudden temperature variations, humidity, moisture, and varying levels of salt water. These can be tested in temperature chambers, humidity chambers, and salt spray chambers, but there are many other kinds of test chambers like AGREE chambers, altitude chambers, thermal shock chambers, and vacuum test chambers. Learn more about environmental test chambers.

Filtering Systems

Filtration systems are used residentially, commercially, and industrially to physically remove contaminants from air, liquid, gas, or powdered substances. The process of separating a fluid substance into two or more distinct factions is often accomplished through the use of a screen, film, or membrane. The fluid may be vacuum or pressure driven, or gravity fed through the filtration device to remove particles or contamination. Other methods of filtration include centrifugation, and chemical, biological, or electrical processing.

Air and water are the most common fluids to go through the filtration process. Other process fluids include food and beverage products, petrochemicals, paints, plating solutions, photographic solutions, pharmaceutical products, chemicals, lubricants, gases, fuels, coolant, and cosmetics.

There are several different manners in which filtration systems separate materials in a mixed process stream. Membrane filtration involves the use of media that trap contaminants. Foams and other materials employ similar techniques; additional filtration options include the use of gravity, centrifugal force, chemical solvents, biological agents and even electrically charged apparatus. Gravity and centrifugal force filters use hydrostatic or rotational pressures, which remove heavier particles from the flow line. Chemical filters function by either dissolving specific contaminants or attracting them and, through the use of gravity, pulling them from the system. Not as common, but thoroughly effective, biological filters use digestive microbes to remove unwanted organic compounds. There are two main types of filtration systems that depend upon the use of electrical charges to purify air and fluid supplies. Electrodialysis (ED) uses membranes that allow the passage of either positively or negatively charged ions while excluding the passage of the opposite. Because ED membranes are easily clogged, many filters are equipped with electrodialysis reversal (EDR) systems instead. It works in the same way as ED systems, but it periodically reverses the electrical current in order to exchange the fresh product flow. Reverse osmosis (RO), electrodeionization (EDI) and ultrafication (UF) processes are less common but equally efficient options. Each type has benefits and advantages particular to specific filtration applications. Learn more about filtration systems.

Fork Lift Trucks

Forklifts are industrial vehicles used in applications such as warehouse storing and distribution for the lifting, moving and loading of heavy products, materials and packaged pallets. Forklifts typically have a power-operated, moving forked platform attached to the front of the vehicle. This is designed to be inserted under loads and raised in order to move the load to a desired location.

Forklifts are sometimes referred to as forklift trucks or simply lift trucks. Practically speaking, these terms are all interchangeable. In a technical sense, lift truck is more accurate since not every type of this machine possesses actual forks for lifting. Since the vast majority of lift trucks do possess forks, the term forklift is sufficient and will be used for the purposes of this article.

Almost every industry which handles heavy items and large quantities of materials or goods utilizes industrial trucks or pallet trucks. Using a forklift in most industrial or commercial situations improves storage potential, reduces risk of injury and cuts stocking time. Forklifts are used in both indoor and outdoor applications and can be designed to meet a number of specific requirements. They are particularly useful in storerooms, construction sites and loading docks where efficiency is improved by the addition of mechanical power. Forklifts also enable a facility owner to maximize vertical storage space by enabling loads to be stacked as high as the lift trucks can reach.

Forklifts, also known as forklift trucks, are essential vehicles to industrial and commercial warehouses. In these settings, they lift, move and load heavy product-storing pallets. Because this is such a universal warehouse application, forklifts can be used in many different industries, from paper and pulp to industrial manufacturing. In particular, forklift trucks are popular on construction sites, storerooms and loading docks.

Forklift trucks make the task of stacking loaded pallets on top of each other much easier. Pallet stacking is a common way to maximize floor space. The only limit to how tall forklifts can make these stacks is how high they can reach.

Forklifts are controlled by a driver, who has access to controls that allow them to move the forklift and raise and lower its lift mechanism. Usually, forklift trucks operate using gas power and hydraulic hoses. There are many different types of forklifts, including sideloaders, reach trucks, picker trucks and narrow aisle forklifts. Sideloaders are used primarily to assist in heavy duty lift applications. Meanwhile, both reach trucks and picker trucks are useful in warehouses for access to equipment, products and other types of inventory. Finally, narrow aisle forklifts, as their name suggests, are designed to fit and move within small spaces. Learn more about forklifts.

Heat Exchanger Manufacturers

Heat exchangers are devices made from thermally conductive materials designed to transfer heat between fluids. Depending on the model, these fluids can either be in direct contact or separated by a barrier. Heat exchangers are used to facilitate heat transfer for cooling or heating substances, which are then used in various other processes.

Heat exchangers are crucial in industrial processes involving the design, operation, and maintenance of heating systems, power generation, air-conditioning systems, chemical processing, engineering, and waste heat recovery systems. The fundamental principle of heat exchangers is also applied in the design of boilers, which heat large spaces by dispersing heat from a centralized source.

Learn more about heat exchangers.

Hydraulic Presses

Hydraulic presses utilize hydraulic or fluid pressure to exert force on objects, offering greater efficiency than mechanical presses and pneumatic systems. They excel in clinching, molding, blanking, deep drawing, forging, punching, and metal forming tasks. They are also essential in compacting food and other consumables, as well as manufacturing ceramics, appliances, electrical and automotive parts, and even in aircraft construction.

Various types of hydraulic presses cater to different needs and applications. These include transfer presses, stamping presses, vacuum presses, platen presses, arbor presses, laminating presses, pneumatic presses, C-frame presses, H-frame presses, power presses, and press brakes.

Due to their involvement in heavy-duty applications and the need to withstand high shear forces, hydraulic presses are typically constructed from robust materials such as stainless steel. They can be configured with either single-station or multi-station designs. Single-station setups feature a single set of tools, while multi-station designs accommodate a variety of press operations with multiple tooling options.

Learn more about hydraulic presses.

Industrial Balers

Balers compress materials to create uniform bales, facilitating efficient stacking and transportation. In recycling operations, sorted materials are fed into baling machines to form compact units. These bales, comprised of plastics or metals, are then shipped to manufacturers for melting and repurposing into new products.

Certain baling machines include a unique feature for moisture extraction, effectively eliminating any residual liquid traces. Materials like cardboard, plastics, and metals, which may have previously contained liquids, undergo thorough drying during recycling processes. This ensures that the bales exiting the facility are completely dry and ready for further processing.

To create a bale, a large volume of material is loaded into the machine's input area. From there, it enters a compression chamber where it undergoes crushing and shaping into a compact cube. While most balers operate on electricity, they harness hydraulic power for robust and consistent compression. Following compaction, wire or durable plastic ties secure the bale, ensuring structural integrity during handling. Certain balers offer flexibility to produce customized bale sizes. Due to their weight, forklifts are employed to lift and stack them or load them directly onto trucks for transport.

For manufacturers in industries reliant on recycled materials for new product creation, compact bales offer unparalleled convenience. These bundles can be stored for deferred processing and effortlessly transported throughout factories with the aid of forklifts. In the fast-paced environment of high-production facilities, the ability to melt substantial quantities of material at once optimizes operational efficiency to its fullest potential.

Learn more about balers.

Industrial Boilers

Boilers are enclosed containers designed to heat water or other fluids. In the United States, if the boiler's purpose isn't to boil water, it's often referred to as a furnace or, in household terms, a water heater. These devices are utilized across industrial, commercial, and residential settings to provide heated air, hot water, and steam for machinery powered by steam.

Learn more about boilers.

Industrial Dryers

Industrial dryers encompass a broad category of equipment designed for manufacturing, industrial, or large-scale commercial drying purposes.

While they are indeed used in laundromats and hotels for drying clothes and linens, their applications extend far beyond. Industrial dryers are indispensable across diverse industries such as agriculture, food processing, manufacturing, pharmaceuticals, pollution control, water treatment, and paper and pulp. These industries rely on industrial dryers to remove moisture from materials ranging from fertilizers, grains, and chemicals to dairy products, minerals, papers, and plastics.

Industrial dryers operate through three primary methods: air drying, infrared drying, and spray drying. Air drying, the most common method, involves exposing materials to hot air to facilitate evaporation of moisture. Infrared dryers use electromagnetic radiation within a specific wavelength to dry solid materials. Spray dryers utilize jets of hot steam to rapidly evaporate moisture, known as flash drying.

Constructed predominantly from stainless steel, industrial dryers come in various models tailored to specific needs. They are generally larger than household dryers and are typically not used for drying laundry outside of commercial settings like laundromats and hotels.

For further information, contact an industrial dryer manufacturers to explore the range of options available to meet specific drying requirements.

The term "industrial dryers" encompasses a wide range of drying equipment, regardless of their specific drying method-whether air, infrared, or spray drying. Due to this diversity, industrial dryers vary greatly in design and configuration. While there is no universal model, many share common traits such as being constructed from robust, sanitary stainless steel, prized for its strength and corrosion resistance.

These dryers can take the form of cylindrical tanks or rectangular boxes, equipped with multiple intake and output valves, connections, openings, gauges, and controls. Some operate continuously, utilizing conveyor belts to process a steady stream of materials, while others work in batches. Their capacity varies widely depending on the type of dryer and the material being dried-ranging from units capable of drying over 25,000 pounds per hour to smaller models designed to handle just one cubic foot at a time.

Industrial dryers play indispensable roles across pharmaceutical, food processing, manufacturing, agricultural, pollution control, water treatment, and paper industries. They serve multiple functions in handling chemicals, dairy products, fertilizers, grains, minerals, paper, plastics, refuse, and more. Each dryer is tailored to meet specific industry needs, ensuring efficient moisture removal and product preservation. Learn more about industrial dryers.

Industrial Lasers

Lasers produce beams of monochromatic, coherent radiation (light) and are designed to concentrate high amounts of energy over a defined point. The term laser is an acronym for Light Amplification by Stimulated Emission of Radiation. This helps us understand that, through stimulated emission, lasers release a beam of electromagnetic radiation (beam of light). Learn more about lasers.

Industrial Mixers

Mixers and blenders are pivotal industrial equipment designed for precision mixing and blending operations across sectors such as agriculture, food processing, mining, and pharmaceuticals. These machines are integral in the production of diverse products including cosmetics, baking ingredients, fertilizers, and pet foods.

Ensuring consistent quality is paramount in these industries, necessitating mixers and blenders equipped with precise speed controls, carefully regulated internal temperatures, and meticulously engineered mixing components. They are adept at handling both wet and dry materials, with specialized configurations for each, requiring robust power for efficient blending of heavier, wet substances at high speeds.

Maintaining hygienic standards is facilitated through effective dust seals, safeguarding facility environments from contaminants. The machines' modular design allows for easy component removal and cleaning, enhancing operational efficiency. Additionally, their adaptability is showcased through the availability of various attachments tailored to specific material batches.

Key types of mixers and blenders include auger mixers, high-capacity mixers, and ribbon blenders, each fulfilling distinct operational requirements in industrial settings.

Industrial mixers in a variety of configurations are used to blend multiple bulk or powdered materials together as part of a bulk material processing system.

Mixers used in powder & bulk applications are typically paddle mixers or ribbon blenders; sometimes powdered or dry materials are mixed with wet materials to form products such as bread dough or slurries. Learn more about industrial mixers.

Industrial Ovens

Industrial ovens are thermal processing machines that provide various applications with the very important process of heat treating.

During this process, heat speeds up the molecular activity inside an object. Inside solid objects, molecules are arranged in lattices that vibrate from the heat, while in gases, these molecules collide. Learn more about industrial ovens.

Industrial Parts Washers

Industrial washers are parts washing equipment that use methods such as water, ultrasonic blasts, agitation, and aqueous chemical solutions to effectively clean parts. It is possible to design these washers to function as a multi-stage process that encompasses cleaning, deburring, drying, surface treating, and powder coating all in one. There are other pieces of parts washing equipment that function as an aqueous, single-step parts washing tub. Other types of industrial parts washers utilize non-aqueous solutions such as vibration cleaning, laser ablation, acoustic cleaning, and vapor cleaning when aqueous cleaning is not appropriate or possible.

Until recently, the majority of aqueous parts washing solutions have been chemical based. However, new regulations regarding the safety of workers and the environment have been on the rise. These regulations have led manufacturers to use organic solvents much more frequently. Another method of parts cleaning that has been increasing in popularity is ultrasonic cleaning. Ultrasonic cleaning is a new and innovative method that significantly cuts down on costly and harmful waste, because ultrasonic cleaners require only a fraction of the amount of solvent concentrations that traditional parts washers use. Ultrasonic cleaners use tiny air blasts against the parts‘ surface. These air blasts enable the machine to effectively clean crevices that other cleaners cannot reach. Ultrasonic cleaning is used by various industries whose products have little to no tolerance for parts contamination, such as the automotive industry. Manufacturing automotive parts requires the utmost precision. Contaminants such as shavings, oil, grease, and foreign chemicals can be a costly hindrance to the smooth operation of machinery, and at the very worst, a danger to those who operate them. Industrial parts are capable of thoroughly cleaning parts and saving money. Therefore, industrial washers are a necessity in the process of manufacturing quality parts. Other industries for which industrial parts washers are essential include electronics, dental, surgical, and medical parts washing. Learn more about parts washers.

Industrial Shredders

Shredding equipment is indispensable in recycling operations, effectively reducing tough materials into smaller fragments before they are baled or transformed for reuse. Shredders are diverse, designed for various materials like rubber, plastic, and metal, each necessitating specific sizes and types of machinery. Manufacturers cater to different industries by creating shredders tailored to their unique requirements; for instance, document destruction demands lighter-duty machines compared to heavy-duty models used in metal processing. The recycling of electronic scrap has surged due to the proliferation of obsolete electronic devices, highlighting the need to dismantle and recycle their components efficiently.

Shredders operate similarly despite variations in design. They consist of interlocking metal shafts fitted with discs bearing sharp teeth at regular intervals. Positioned at the bottom of a hopper, these shafts are powered by a motor to rotate. As objects are fed into the shredder, the teeth on the discs grab and pull them between the shafts, breaking them into small pieces. The shredded materials exit at the bottom into a bin or onto the facility floor for further processing or disposal.

Shredders vary in design to accommodate different tasks: single-shaft models handle smaller materials and light duty tasks, while models with up to four shafts tackle heavy duty applications such as shredding tires. This capability enhances recycling efficiency and reduces costs by breaking down bulky materials quickly. Shredders play a crucial role in recycling processes, enabling the reuse of materials that would otherwise be difficult to process. Explore more about industrial shredders for further insights.

Labeling Machinery

Labeling machinery is the term used to describe any equipment involved in the process of producing labels or affixing them to products. This equipment includes printers, applicators, dispensers and many other label making and applying systems.

Labeling machinery has applications in many industries, including, among others, agriculture, chemical and laboratory, electronics, food and beverage, home and office, pharmaceuticals, and packaging. Industries like these use both individual labeling components and fully integrated labeling systems. Labeling machinery may be as simple as handheld label or barcode printers, or as involved as systems that incorporate microprocessors and/or computer software.

Labeling equipment are various machines, including label printers, label applicators, printer-applicators, and labeling systems, that apply labels to various products and packages.

The equipment used to produce and attach labels is as varied as the applications it employs. To begin, labeling equipment must first produce the labels, which takes place within a label printing machine. Label printers are generally high-quality, fast-working thermal transfer printers. Tape, fabric, plastic and metal may all be used as label material, therefore requiring label printers to be available in a plethora of styles. Specialized label printers exist for a variety of applications such as laboratories and hospital wristbands, which require varied information with each use. Comparatively, printer-applicators both print and apply labels for nearly any packaged good. Labels may identify the product and brand or they may have added information such as nutritional facts, product warnings, or bar codes. Among the industries that utilize labeling equipment are shipping and handling, textile manufacturing, food and beverage, automotive, electronic, agricultural and medical. Because labeling is one of the easiest and cheapest methods to prepare goods for a consumer context, label makers are everywhere.

Label applicators, which can also be known as label dispensers, are used to apply labels to a product. They come in air-blow and tamp-blow varieties that blow labels onto products quickly and accurately. Wipe-on applicators, which wipe labels onto products, are also available for applying labels to unusually shaped objects. A specific example is a bottle labeler, which is specially designed to label the spherically shaped glass, metal and ceramic objects. Other adhesive attaching techniques are used for bottles as well though, including pressure sensitive and heat shrink. Labeling systems are integrated systems that provide label printing and application through the use of integrated conveyor belts and computerized controls. For other applications, specialized labeling equipment also exists. Examples include rotary labeling systems for bottles and special printers and applicators for RFID and security tags. Regardless of the technique or material, there is a piece of labeling equipment right for any application. When choosing a printer, applicator or labeling system, the buyer should consider the material of the label as well as what it will be attached to, the size of the label as well as the amount being produced, label inks as well as mechanical specifics like productivity and accuracy rates and adjustability. Learn more about labeling equipments.

Liquid Chillers

Liquid chillers rapidly cool large quantities of liquid refrigerant to extract heat from air or other liquids. Subsequently, they distribute the cooled liquid or air as required.

Learn more about chillers.

Lubricating Systems

Lubricants, or lubes, are substances that reduce friction and heat between surfaces, facilitating particle transport and temperature regulation. They also serve as conductive agents, enhancing current flow. Essential for the maintenance and proper function of machines with moving parts, lubricants are used across various industries, including automotive, aerospace, marine, metal fabrication, and food and beverage.

Lubricants, also known as lubes, are substances used to reduce friction (increase lubricity) and heat generated between two surfaces. They can also facilitate the transportation of particles, and heating and cooling forces. In addition, they can be used as a conductive agent to increase the flow of a current.

Lubricants are an essential part of the proper function and maintenance of machines and components with two or more moving parts that rub together. Some of the industries in which lubricants are used include: automotive, aerospace, marine, metal fabrication and food and beverage. Learn more about lubricants.

Machine Vision Systems

Machine vision systems are technical systems designed to mimic human vision. In industrial settings, machine vision (MV) refers to the computer "vision" used to control automated manufacturing equipment. In systems engineering, machine vision is separate from computer vision, which they instead see as a type of computer science. Learn more about machine visions.

Marking Machinery

Marking machinery refers to a variety of machines that are used to implement images, logos, identification codes, part numbers, hazardous symbols and much more.

Marking machines are ideal for adding a uniform system to a workplace and there are several logistical benefits associated with marking machinery. These machines offer a number of different part marking styles such as hot stamping, plasma etching, laser marking, dot peen and more. The type of marking equipment that should be selected for a situation is based upon the surface type and application.

The term "marking machinery" encompasses a wide range of machinery and equipment that is used to create markings for and on a variety of products and parts. Once these markings have been designed and fabricated, they are then put onto packages by labeling machinery. Learn more about marking machinery.

Mezzanines Manufacturers

Mezzanines are raised, often un-walled platforms that are used in a diversity of settings; they can be used to store unused materials, provide working space for equipment and seat people in auditoriums, among many other uses. Industrial mezzanines, however, are used only for purposes related to industrial operations. Manufacturers, suppliers, distributors and service companies all make use of mezzanines. Mezzanines can store unused materials, provide a work platform for equipment, walking space for facility guests, and seat people in auditoriums, among many other uses. Mezzanines can also provide a floor space or a ceiling for offices. A small, in-plant office, for example, could be built beneath a mezzanine; in which case, the mezzanine floor can simultaneously provide the office ceiling and a platform for storage. Conversely, an office could be built above, at mezzanine level, allowing the space below to be used for storage or for other uses. Learn more about mezzanines.

Modular Buildings

Modular buildings are a broad class of prefabricated buildings that have become increasingly popular in recent years.

They serve as an economical and effective solution for those seeking permanent, long-term, or temporary facilities, such as military barracks, booths, disaster relief housing, temporary medical treatment facilities, schools, libraries, universities, gyms, storage buildings, construction site offices, modular offices, and churches. Modular buildings are built to provide long-term temporary or permanent shelter. They can be found in the form of complete standalone buildings, space partitions, building extensions or small booths and guard houses. They serve as facilities and structures for all sorts of applications, including: church, school and university, modular home, classroom, cleanroom, gym, hospital, construction site office, inplant office, commercial modular building, disaster relief housing, storage building, medical/dental office, emergency medical center, security guardhouse and military barrack. Learn more about modular buildings.

Noise Control Companies

Soundproofing is the process of reducing unwanted noise and noise pollution, and in preventing noise from entering or leaving specific areas. Soundproofing materials and products act as silencers, mufflers and insulation, absorbing the excess sound level in rooms, chambers and around pieces of equipment in order to create quieter environments for the purposes of worker safety, product testing, audio mixing and research etc. Learn more about soundproofing.

Packaging Machinery Companies/ Packaging Equipment Manufacturers

Packaging equipment refers to the various types of machinery used in the process of enclosing or protecting products and materials for the purposes of storage, sale, distribution and use.

Also known as packaging machinery, packaging equipment is used to automate the packaging process, reducing labor time and cost as well as increasing process efficiency. Learn more about packaging equipment.

Paint Finishing Equipment

Paint finishing equipment is the broad category of tools and machines that includes all devices used in the paint finishing process. By definition, the paint finishing process is the application of coats of paint or a finish to a surface. There are many different types of paints and finishes that vary in characteristics such as color, hardness, durability, sheen and other attributes. Finishes can be applied both for visual appeal and function and the methods used to apply them differ greatly as well. Learn more about paint finishing equipments.

Palletizers

Palletizers are machines designed for handling pallets during loading, unloading, and storage processes. They facilitate the efficient consolidation of numerous smaller units into larger, easier-to-handle pallet loads, commonly used for mass shipping and distribution purposes.

Many manufacturing and distribution plants utilize automated palletizers and robotic systems for efficient pallet loading and unloading. Automated conveyor palletizers are categorized as either low-level, loading from ground level, or high-level, operating on elevated platforms. These palletizing systems can handle various types of products, including bags, cases, drums, and bottles, depending on specific machine configurations. Large-scale facilities often employ depalletizers for unloading packaged units, while accessories like pallet dispensers and load transfer stations aid in managing pallets and loads effectively. Some professionals interchangeably use terms like "palletizers" and "case pickers"; however, "case picking" typically refers to individual product retrieval in distribution operations.

Packaging equipment refers to the various types of machinery used in the process of enclosing or protecting products and materials for the purposes of storage, sale, distribution and use.

Also known as packaging machinery, packaging equipment is used to automate the packaging process, reducing labor time and cost as well as increasing process efficiency. Learn more about palletizers.

Plastic Tanks

Plastic tanks, also known as poly tanks, are versatile containers used for bulk storage of a wide range of industrial substances or liquids. The tanks are available in an array of sizes and configurations. They can be vertical or horizontal, rectangular, circular or square shaped. Plastic tanks may store substances from as little as 15 gallons to as large as 20,000 gallons.

Plastic tanks are the preferred choice for many applications--both in large or small scale industrial use--because they hardly react to any liquid it contains. Most of the tanks, especially the bulk storage tanks, feature slots for tying them down, while others have centered and offset self-vented and slosh-proof lids. Learn more about plastic tanks.

Pneumatic Conveyors

A pneumatic conveying system transports bulk materials from one location to another using gas flow, commonly air, as the conveying medium. The system's design aims for efficiency, practicality, and cost-effectiveness in moving materials to single or multiple destinations.

Pneumatic conveying equipment plays a pivotal role in transferring dry bulk and powder materials through a fully enclosed pipeline. This movement relies on a combination of pressure differentials and the flow of gases like nitrogen. Key components of the system include a feeder, an air mover, a dust collection system, a termination vessel, and a belt conveyor.

It's important to note that the system transports materials such as cement, flour, sand, minerals, and various food products. It's essential that these materials are in granular form and dry. Substances in paste or slurry form are unsuitable and can lead to complications in the system.

A pneumatic conveying system transfers bulk materials using gas flow, typically air, as the conveying medium. Efficiently designed systems are practical and economical for moving materials to single or multiple destinations. Primarily used for dry bulk and powder materials, these systems utilize pressure differentials and gas flow, such as nitrogen, within enclosed pipelines. Key components include a feeder, air mover, dust collection system, termination vessel, and belt conveyor. Suitable materials include cement, flour, sand, minerals, and food products, provided they are dry. Materials in paste or slurry form are unsuitable.

Learn more about pneumatic conveyors.

Power Supplies

Power supplies, or power supply units (PSU), are devices that produce electrical power and provide reliable electrical currents that power electronics, machinery and devices for both industrial and commercial use. Learn more about power supplies.

Pressure Vessels

Pressure vessels, often referred to as air pressure tanks are used for the storage and containment of fluids, vapors or gases at pressure levels greater than that of atmospheric pressure.

They are designed to operate at pressures more than 15 psi, and are made of a variety of metals, high-strength plastic or fiberglass. The tanks are usually cylindrical in shape with a horizontal or vertical orientation. Learn more about pressure vessels.

Sandblast Equipment

The term "sandblast equipment," or blaster/ machinery, applies to a wide variety of tools and equipment designed to use sand (or a similar material) to clean or resurface industrial products and components. To do this work, sandblasters participate in the process of sandblasting, also known as blast cleaning. Sandblasting is an abrasive blasting process that propels materials at a high pressure and high speed to smooth out rough surfaces. Note: Sandblasting has become the blanket term for all media blasting processes, though it technically refers only to media blast processes that use sandblasters and silica blasting media. Learn more about sandblast equipments.

Screw Conveyors

Screw conveyor systems are essential mechanisms designed to efficiently rotate and transport a wide range of fluids, solids, and granular materials between different stages of a process. In essence, they facilitate the seamless transfer of materials.

These systems are alternatively referred to as auger conveyors, helix conveyors, worm conveyors, or flexible screw conveyors.

Screw conveyor systems, also known as auger, helix, worm, or flexible screw conveyors, are mechanisms designed to transport fluid, solid, and granulated materials between processes.

Learn more about screw conveyors.

Stainless Steel Tanks

Stainless steel tanks are thin-walled constructions manufactured through a rolling process or welding. Although stainless steel is strong, it is vulnerable to buckling when the material is thin. Stainless steel tanks are most susceptible to damage during construction, transportation and installation.

The contents of full stainless steel tanks actually aid its stability. The shape of the tank is dependent on its diameter or height and the efficient use of material. Stainless steel tank manufacturers can make the ends of their products flat or in the shape of a dome or cone. In determining the size that a tank needs to be, consider how much extra volume should be included to cover for future process needs, such as thermal expansion or foaming, and also filling control, especially in the applications that require high speed pumping. Learn more about stainless steel tanks.

Storage Racks

Storage racks are stands or frameworks that are used to display, store, and organize products, parts, equipment, tools, materials, boxes, and pallets for the efficient use of space within warehouses, manufacturing facilities, shipping areas, and product assembly rooms.

Storage rack manufacturers produce industrial storage racks for heavy duty usage according to the product specifications and required accessibility. Racks are commonly designed to hold inventory that has been palleted, and are constructed using metals such as aluminum and steel which are strong and durable. Metal storage racks, especially steel storage racks are employed for these applications, but some lighter weight racks are made of materials such as titanium, wood or particle board. Storage racks hold many kinds of inventory, from boxed goods to long carpet rolls or tubing. Learn more about storage racks.

Tube Forming Machinery

Tube forming machines refer to various types of equipment that are used in order to form tubing, which is the process of altering tubing into complex shapes. A tube is defined as a long and thin hollow cylinder that is most commonly used to either convey a fluid or gas, or to function as a passage. Typically cylindrical, tubes can also be formed into square or rectangular shapes as well.

Tube forming differs from tube fabrication, which is the manufacturing of tubing, and is considered to be a secondary process to tube fabrication. The machines that perform tube forming processes must be able to maintain a high level of accuracy due to the complexity of the various shapes required. As a result, tube forming machines are generally either dedicated machines or automated manufacturing cells. While dedicated machines are built for a specific job and thus, cannot accommodate any design changes, automated manufacturing cells are able to provide high production rates as well as the ability to be versatile in design. Some examples of applications and industries that utilize tube forming machinery include: marine, for use in exhaust products, heat exchangers, piping systems and more; automotive, to be used for structural components, coolant systems, exhaust manifolds and more; industrial manufacturing, for applications such as various automation equipment and tubing assemblies; and medical, for use in complex components such as glass capillary tubes, epidural needles and arthroscopic drivers. Learn more about tube forming machines.

Ultrasonic Cleaner Manufacturers

Ultrasonic cleaners are a type of cleaning equipment. They remove soil and contamination from small parts using cavitation causing, high-frequency sound frequencies of about 18 kHz. Cavitation, or ultrasonic cavitation, is the formation and implosion of minuscule bubbles in a liquid cleaning medium. The bubbles, or implosions, of cavitation clean and clear away parts of small dirt particles that reside in crevices and surface areas that would otherwise be impossible to reach. Ultrasonic cleaners typically clean contaminants like sludge, buffing and polishing compounds, mold release agents, and oil.

Ultrasonic cleaning equipment has a range of applications; however, it is most commonly used to clean jewelry, watches, delicate parts for electronics, medical and dental instruments, precision tools, heat exchangers, and weaponry.

Some of the industries that use ultrasonic cleaners to clean things include: healthcare (general practice, surgery, optometry, podiatry, etc), laboratory (sonochemistry, cleaning scientific and medical research equipment, cell disruption and mixing technology), manufacturing, jewelry, aerospace, automotive, defense, filtration, molding and fabrication, pharmacy and reconditioning and maintenance. Learn more about ultrasonic cleaners.

Vacuum Cleaner Manufacturers

Industrial vacuum cleaning equipment is equipment that makes life easier for those individuals who wish to clean up a large and/or very dirty space. Particularly useful in those settings in which a continuous flow of dust and debris are produced, industrial vacuum cleaning equipment is used in settings such as metal fabrication plants, woodworking shops and other industrial facilities. They are also quite popular for use by clients like carpenters, custodians and maintenance workers.

Industrial vacuum cleaners are a specific type of vacuum cleaning equipment. Nevertheless, they too have many variations in design. Two examples of possible vacuum design variations include airflow and vacuum generation. The first design consideration, airflow, may be defined as the velocity of the air stream produced by the motor of a vacuum cleaner. Some industrial vacuums have higher airflows than others, allowing them to extract debris and dust at different levels and in different volumes. The term vacuum generation, refers to how the vacuum, which creates the necessary force for cleaning, is created. Other design variations include: air speed, vacuum/suction levels (measured in pascals), weight, noise generation (measured in decibels), input power (measured in watts or amperes) and output power (measured in airwatts). Learn more about vacuum cleaners.

Vibratory Feeders

Vibratory feeders, also called vibratory conveyors or bowl feeders, are crucial for handling bulk materials, and facilitating their conveyance and sorting. They consist of a vibrating unit, a bowl, and a control box for adjusting vibrations, often integrated with a conveyor track. These feeders excel in gently handling sticky or delicate materials, ensuring damage-free conveyance through controlled vibrations.

Powered by a unit beneath the bowl, vibratory feeders move and sort materials. While their design is straightforward, features can vary between models. Some include troughs for sifting materials, while others use vibrating or trommel screens for sorting bulk products simultaneously.

Vibratory feeders are categorized into two types: bowl feeders, which align parts before packaging to ensure correct discharge, and conveyors, designed to transport materials efficiently from one point to another. Explore the versatility and applications of vibratory feeders in material handling.

Vibratory feeders are conveying ramps or feeding tubes which assist in transferring bulk and powder solids to and from conveyors, processes and hoppers.

By vibrating the discharge end of a hopper or conveyor, powdered material caked on the sides and within is loosened until it falls freely.

Bulk handling sometimes uses vibratory feeding ramps to convey over short distances, and most bulk bag filling, bag dumping and hoppers are equipped with vibrating feeders.

A vibratory feeder, also known as a vibratory conveyor, is specialized equipment designed to transport bulk materials through various stages of a process such as packaging, recycling, or finishing using controlled vibrations. Unlike traditional belt, screw, and pneumatic conveyors, vibratory conveying is particularly suitable for handling sticky or delicate materials without causing damage or liquefaction.

Vibratory feeders are highly advantageous for material handling due to their low-maintenance nature. They feature minimal moving parts, with the vibrating drive situated beneath the feeder pan to avoid interference with the materials being transported. Other components of a vibratory feeder are both cost-effective and easy to replace.

These feeders can be powered either electromagnetically or electromechanically. Electromechanical vibratory feeders utilize a motor supported by eccentric weights or an eccentric crank to generate the necessary vibrations for material movement.

Several main types of vibratory feeders exist. Vibratory bowl feeders, also known as centrifugal feeders or vibratory bowls, align finished or semi-finished parts for packaging in parts manufacturing. Vibratory conveyors cover a broader range, including troughs, trommel screens, and vibrating screens, designed to convey and sort bulk materials. Rotary feeders, also known as rotary valves or rotary airlocks, transfer airtight bulk material to vibratory or screw conveyors. Linear feeders, or inline feeders, transport parts from bowl feeders in a vibratory linear motion over short or long distances.

Vibratory bowl feeders are used by small parts manufacturers to efficiently orient products for distribution or subsequent finishing processes. Initially developed by pharmaceutical companies for sorting, counting, and organizing pills, these feeders have evolved to handle a diverse range of items including toothpaste caps, molded rubber parts, o-rings, ammunition, and fasteners.

Many industries, including food processing, agriculture, and pharmaceuticals, actively utilize vibratory conveyors, screens, and trommels to handle bulk and powder materials. Recycling industries rely on vibratory conveyors to sort and convey materials such as metals, crushed cement, wood, and plastic. Mining, pulp, sand and gravel, and fertilizer companies employ vibrating screens and trommel screens to sort, sift, and convey their materials. The mining industry predominantly uses grizzly screens, which are powerful types of vibrating screens. Vibratory conveyor systems often collaborate with rotary airlock feeders for conveying powder bulk solids. Additionally, in dust reclamation or collection processes, rotary feeders and dust collecting systems work together effectively.

Bowl feeders, similar to vibratory finishing bowls, are typically made of plastic, silicone, or metal. These machines feature a vibrating drive mounted at the base of the bowl. A ramped ridge, specifically designed for a particular part, guides it towards the outfeed area in a spiral along the bowl's edge. The bowl vibrates in a circular motion, moving the parts up the spiral ridge. As parts reach the output area, the ridge narrows, ensuring they form a single-file line. Small items like coins, LEGO bricks, O-rings, and washers can be easily aligned for packaging and counting when placed into the center of the bowl feeder.

Vibratory conveyors use directional vibrations to move heterogeneous mixtures or powdered bulk solids between equipment pieces. Some variants of these conveyors feature ultra-low vibrations, making them suitable for handling sticky, delicate, or easily liquefiable solids like lettuce or gummy bears. Trommels, also known as trommel screens, vibrate to separate small and large particles effectively. They find applications in recycling and gravel processing. Trommel magnets assist in separating ferrous from non-ferrous materials, commonly alongside rotary trommels in metal recycling operations. Continuous flatbed trommels incorporate filtering devices or screens to sort particles by size. They direct larger particles for further processing or containment as needed.

Learn more about vibratory feeders.

Work Bench Manufacturers

Workbenches and work stations are equipment or furnishings that create an efficient space in which people perform a set of specific duties, whether in offices, plants or manufacturing processes.

Ergonomic workstation design remains important in order for workers to accomplish given tasks effectively.

Workstations and work benches are manufactured for a variety of facilities and processes; industrial workstations and industrial workbenches provide workspace for machinists, assembly workers and many other industrial manufacturing processes. Custom industrial work stations can be portable stations made from lightweight materials, or they may be permanent workstations fabricated from steel or wood, depending on the needs of the industrial job site or garage workshop it is made for. Suitable for use in areas with water, dust, vibrations and wide temperatures are apart of the environment, industrial workstations can be used as clean room tables, light tables, drafting tables, packaging tables, laboratory tables, and more. They can be built for rugged durability and harsh work environments and can be made to fit packing, process control, shipping, factory automation or laboratory requirements. Learn more about work benches.

Bulk Material Handling Equipment

Bulk bag equipment is essential in handling and transporting bulk bags, which are sturdy fabric containers designed for storing and transporting dry, flowable materials like plastic granules, grain, fertilizer, and sand.

This equipment plays a crucial role in various applications, including pneumatic conveying projects. It is widely utilized across diverse facilities such as greenhouses, agricultural operations, food distribution centers, pharmaceutical plants, manufacturing facilities, and beyond. Explore further insights into bulk bag equipment.

Dust Collectors

Dust collectors are specialized machines designed to do exactly what their name implies: collect dust and other particles from the air or gas. They play a crucial role in a variety of industries, including agriculture, cement production, chemical processing, coal handling, mining, pharmaceuticals, recycling, and woodworking.

One of the key reasons dust collectors are so vital is their ability to help companies comply with strict air quality standards and emission regulations set by organizations like OSHA, the EPA, and other regulatory bodies. Because dust collectors must purify air and gas in such diverse environments, and because users have different needs in terms of particle capture efficiency, these systems come in many shapes and sizes.

To illustrate their wide range of designs, here are just a few types of dust collectors: cartridge collectors, cyclone dust collectors, downdraft tables, fabric filter baghouses, jet dust collectors, portable dust collectors, small dust collectors, and wet dust collectors. Regardless of the type, most dust collectors feature a blower, a dust filter, a filter cleaning system, and a dust removal or receptacle system. Learn more about dust collectors.

Heat Exchangers

Heat exchangers are devices made from thermally conductive materials designed to transfer heat between fluids. Depending on the model, these fluids may either be in direct contact or separated by a barrier. Heat exchangers are essential for facilitating heat transfer to heat or cool substances, which are then used in various processes.

These devices play a vital role in industries that involve heating systems, power generation, air conditioning, chemical processing, engineering, and waste heat recovery. The basic principle behind heat exchangers is also applied in the design of boilers, which heat large areas by distributing heat from a central source.

Learn more about heat exchangers.

Mezzanines

Mezzanines are elevated, often open platforms used in a variety of settings. They can serve multiple purposes, such as storing unused materials, providing workspaces for equipment, or seating people in auditoriums. In industrial environments, mezzanines are specifically designed for industrial operations. Manufacturers, suppliers, distributors, and service companies commonly utilize mezzanines for various functions, including storage, creating work platforms for equipment, offering walking space for visitors, or seating in auditoriums.

Mezzanines can also serve as a floor or ceiling for office spaces. For instance, a small in-plant office can be constructed beneath a mezzanine, with the mezzanine floor functioning as both the office ceiling and a storage platform. Alternatively, an office could be built above the mezzanine, utilizing the space below for storage or other purposes.

Learn more about mezzanines.

Industrial Oven Manufacturers

Industrial ovens are thermal processing machines used for heat treating in various applications.

This process accelerates the molecular activity within an object by applying heat. In solid materials, the heat causes the molecules, arranged in lattices, to vibrate, while in gases, the heat leads to molecular collisions. Learn more about industrial ovens.

Parts Washer Manufacturers

Parts washers are essential tools in various industries for efficiently and effectively cleaning a wide range of components. These machines are designed to remove dirt, grease, oils, and contaminants from parts, improving their functionality and extending their lifespan. Whether in automotive, aerospace, medical, or electronics industries, parts washers play a crucial role in maintaining the integrity and cleanliness of components, ensuring optimal performance and safety.

Learn more about part washers.

Pulverizer Manufacturers

Pulverizers (pulverisers) are mechanical devices used for pulverizing, crushing, and grinding a wide variety of materials to varying finesses. Just some of the many materials that pulverisers can consume include brick, coal, concrete, limestone, paper, plastic materials, metal, rubber, grains, and wood.

Pulverizers deliver material size reduction services for various purposes, such as producing fine powder for pharmaceuticals, creating pulp for paper manufacturing, grinding grain for food production, shredding and recycling tires, breaking down construction materials, turning soil, crushing vehicles for scrap, and grinding rock samples. Industries that depend on pulverizers include construction, agriculture, industrial manufacturing, power generation, pharmaceutical development, landscaping, laboratories, printing, recycling, and material processing.

Learn more about pulverizers.

Recycling Equipment Manufacturers

The recycling process starts with material collection. A waste management company gathers recyclables from homes, commercial dumpsters, and industrial facilities using trucks. These materials are then transported to a recovery center for processing.

Repurposing used materials to avoid landfills is essential for reducing environmental impact and conserving resources. An efficient recycling process allows residential, commercial, and industrial locations to dispose of, sort, and reuse materials such as metals, plastics, rubber, construction waste, wood, paper, cardboard, glass, and textiles.

Learn more about recycling equipment manufacturers.

Test Chamber Manufacturers

Most industries rely on environmental test chambers to assess the quality and reliability of products in a multitude of environments. Industries that typically use these environmental test chambers include: automotive, engineering, construction, medical, pharmaceutical, food processing, packaging and consumer.

Test chambers play a crucial role in various industries, providing controlled environments for testing and experimentation. These chambers simulate specific conditions, allowing researchers and engineers to assess the performance, reliability, and durability of products. In this article, we will delve into the world of test chambers, discussing their applications, types, regulations, limitations, and future prospects.

Learn more about test chambers.

Vacuum Cleaner Manufacturers

Vacuum cleaners are cleaning machines that use suction to collect dirt, dust, and waste products from industrial processes and other kinds of debris for disposal, recycling, or reuse. Industrial vacuum cleaners are used exclusively by professionals for building maintenance and industrial workspace cleaning.

Learn more about vacuum cleaners.

Work Bench Manufacturers

A workstation is a convenient surface for workers to put together components, perform repairs, and conduct other important functions of their job. Often, distributors and manufacturers alike often talk about workstations and workbenches as if they were the exact same thing. In fact, in this article, we will also be using both terms.

Technically, they do have different meanings. Generally, the term "workstation" encompasses an entire workspace with all its components, such as assembly tables, chairs, storage benches, racks, laminar flow benches, clean room work benches, and office tables. While "workbench" can also refer to a complete unit, it more commonly denotes the work surface areas like assembly tables, storage tables, and lab work tables, rather than the entire setup including furniture.

Learn more about work stations.

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