Material Handling Equipment



Material handling equipment is all equipment that relates to the movement, storage, control and protection of materials, goods and products throughout the process of manufacturing, distribution, consumption and disposal. Material handling equipment is the mechanical equipment involved in the complete system.  Material handling equipment is generally separated into four main categories: storage and handling equipment, engineered systems, industrial trucks, and bulk material handling.
Material handling equipment is used to increase throughput, control costs, and maximize productivity. There are several ways to determine if the material handling equipment is achieving peak efficiency. These include capturing all relevant data related to the warehouse’s operation (such as SKUs), measuring how many times an item is “touched” from the time it is ordered until it leaves the building, making sure you are using the proper picking technology, and keeping system downtime to a minimum.
(Source:http://en.wikipedia.org/wiki/Material_handlingequipment &http://www.gatewaymaterialhandling.com)

Workbench

A workbench is sturdy table at which manual work is done. They range from simple flat surfaces to very complex designs that may be considered tools in themselves. Workbenches vary in size from tiny jewelers benches to the huge benches used by staircase makers. Almost all workbenches are rectangular in shape, often using the surface, corners and edges as flat/square and dimension standards. Design is as varied as type of work for which the benches are used but most share these attributes: A comfortable height for working with provisions for seated or standing  work, A way to fix the workpiece to the surface so that it may be worke with both hands and Provisions for mounting, storing and accessing tools
Workbenches are made from many different materials including metal, wood, stone, and composites depending on the needs of the work.Workbench types may be divided according to the particular work they are designed to accommodate:
Multi-purpose/portable
These benches are small, light, collapsible, and typically have built in clamps. Epitomized by the WorkMate, a bench invented and patented by Ron Hickman, they can be used for nearly all types of work.
Woodworking
May be used for general woodworking but may be specialized for joinery, cabinetmaking, patternmaking, stairbuilding, carving, carpentry or trim work. They are usually made from solid wood and have integral clamping mechanisms.
See also: Workbench (woodworking)
Metalworking
Metalworkers need benches built to handle grinding, welding, light casting and forging, and layout. Most of these benches include a metalworker's vise mounted to the top.
Gardening
Gardener's benches must be resistant to moisture and dirt. They are used for potting, seeding, and grooming, and usually have built-in shelving and storage.
Electronics
Formally a fixture in radio shacks, now used for assembly and repair of all sorts of electronic equipment including communication, computer, and home entertainment items. These benches usually have sources of power built in, along with shelves and task lighting. The height of most electronics benches are set for a seated worker.
General repair
Almost all family farms have one of these. Also found in small engine repair shops. Used for sharpening, cleaning, lubricating, assembly/disassembly, and light metal work.
Laboratory work
Utilized especially with the chemical and biological sciences. Surfaces are typically made of an inert material like slate. Most of these benches have water and fuel sources built in or near at hand.
Art and sculpture
These benches are most likely to be used in the round. They are designed so that the workpiece can be mounted firmly, usually from underneath, and accessed from all sides. Used by wood and stone carvers.
Jewelers and Watchmakers
Purpose built benches which generally have a "bench pin" - a small wooden work surface protruding out towards the worker, allowing for working on small parts. In addition there is usually a tray or leather apron underneath to catch precious metal filings or dropped items. They are designed so that when the worker is seated the work is at or near eye level.
Fitting and assembling
Used by machinists, pipefitters, electricians, textile workers, handloaders, and piece workers, these benches usually have space for layout and built-in tools, jigs and measuring devices to facilitate the work.
(Source: http://en.wikipedia.org/wiki/Workbench & http://www.amazon.com )

Engine Stand

An engine stand is a tool commonly used to repair large heavy gasoline or diesel engines. It uses a heavy cantilevered support structure to hold the engine in midair so that the mechanic has access to any exposed surface of the engine.
While small single-piston engines can commonly be laid on a table for repair, a large engine is normally meant to be supported from its engine mounts or from the flywheel transmission case mounts, and fragile components such as oil pans and valve covers would be crushed if the large engine were placed on a flat surface.
Engine stands are typically mounted on large casters so than an engine can be moved around the shop to different test and repair stations, and the engine can often be rotated in midair to provide easier access to underside surfaces of the engine.
The engine stand is commonly used in combination with the engine crane to remove or install an engine in a vehicle, break in that engine, and perform repairs.
(Source: http://en.wikipedia.org/wiki/Engine_stand & http://www.mikestoolsusa.net/ac-delco/acdelco-2000lbengstand.asp)

Spot Welding

Spot welding (RSW) is a process in which contacting metal surfaces are joined by the heat obtained from resistance to electric current flow. Work-pieces are held together under pressure exerted by electrodes. Typically the sheets are in the 0.5 to 3 mm (0.020 to 0.12 in) thickness range. The process uses two shaped copper alloy electrodes to concentrate welding current into a small "spot" and to simultaneously clamp the sheets together. Forcing a large current through the spot will melt the metal and form the weld. The attractive feature of spot welding is a lot of energy can be delivered to the spot in a very short time (approximately ten milliseconds). That permits the welding to occur without excessive heating to the rest of the sheet.

The amount of heat (energy) delivered to the spot is determined by the resistance between the electrodes and the amplitude and duration of the current. The amount of energy is chosen to match the sheet's material properties, its thickness, and type of electrodes. Applying too little energy won't melt the metal or will make a poor weld. Applying too much energy will melt too much metal, eject molten material, and make a hole rather than a weld Another attractive feature of spot welding is the energy delivered to the spot can be controlled to produce reliable welds.

Projection welding is a modification of spot welding. In this process the weld is localized by means of raised sections, or projections, on one or both of the workpieces to be joined. heat is concentrated at the projections, which permits the welding of heavier sections or the closer spacing of welds. The projections can also serve as a means of positioning the workpieces. Projection welding is often used to weld studs, nuts, and other screw machine parts to metal plate. It's also frequently used to join crossed wires and bars. This is another high-production process, and multiple projection welds can be arranged by suitable designing and jigging.
(source: www.millerwelds.com and welding-machinery-video.com)
Speedway Series 1404 110-Volt 30-AMP Spot Welder