User talk:Kunjjarjee

A press, or a machine press is a tool used to work metal (typically steel) by changing its shape and internal structure.

A forge press reforms the work piece into a three dimensional object—not only changing its visible shape but also the internal structure of the material. A stronger part results from this process than if the object was machined.

Bending is a typical operation performed and occurs by a machine pressing, or applying direct pressure, to the material and forcing it to change shape. A press brake is a typical machine for this operation.

An easy to understand type of machine press is a set of rollers. Metal is fed into the rollers, which are turning to pull the material through. The space between the rollers is smaller than the unfinished metal, and thus the metal is made thinner and/or wider.

Another kind of press is a set of plates with a relief, or depth-based design, in them. The metal is placed between the plates, and the plates are pressed up against each other, deforming the metal in the desired fashion. This may be coining or embossing or forming. A punch press is used for forming holes. Capping Presses form caps from rolls of aluminium foil at up to 660 per minute.

Progressive stamping is a manufacturing method that can encompass punching, coining, bending and several ways of modifying the metal, combined with an automatic feeding system. The feeding system pushes a coil of metal through all of the stations of a progressive stamping die. Each station performs one or more operations until a finished part is made per the requirements on the print. The final operation is a cut-off operation, which separates the finished part from the carrying web. The carrying web, along with metal that is punched away in previous operations, is considered scrap metal.

Power press with a fixed barrier guardA brake press is a special type of machine press that bends sheet metal into shape.

Press BrakeA good example of the type of work a brake press can do is the backplate of a computer case. Other examples include brackets, frame pieces and electronic enclosures just to name a few. Some press brakes have CNC controls and can form parts with accuracy to a fraction of a millimetre. These machines can be dangerous considering the knife-edge bending dies and forces in excess of 4,000 kilonewtons (900,000 lbf) However in the hands of a skilled operator the machine presents minimum hazard.

Machine presses are used extensively around the world for shaping all kinds of metals to a desired shape. A typical toaster (for bread) has a metal case that has been bent and pressed into shape by a machine press.

Machine presses can be hazardous, so safety measures must always be taken. Injuries in a press may be permanent, because of the large forces used. Bimanual controls (controls the use of which requires both hands to be on the buttons to operate) are a very good way to prevent accidents, as are light sensors that keep the machine from working if the operator is in range of the die.

[edit] Types of presses Allsteel hydro-mechanical press Pneumatic press Knuckle-joint press Hydraulic press Servo press Fine blanking press Forging press (Hammer press)

[edit] History Historically, metal was shaped by hand using a hammer. Later, larger hammers were constructed to press more metal at once, or to press thicker materials. Adding wind or steam power allowed for stronger presses. Most modern machine presses use a combination of electric motors and hydraulics to achieve the necessary pressure.

[edit] Characteristics of 18 different types of presses Characteristics of 18 types of presses Type of press Type of frame Position Action Method of actuation Type of drive Suspension Ram Bed of frame Open-back Gap Straight-side Arch Piller Solid Tie Rod Vertical Horizontal Inclinable Inclined Single Double Triple Crank Front-to-back crank Eccentric Toggle Screw Cam Rack and pinion Piston Over direct Geared, overdrive Under direct Geared, underdrive One-point Two-point Four-point Single Multiple Solid Open Adjustable Bench X X   X  X  X X X   X  X  X  X X X    X   X  X X X Open-back inclinable X X    X  X  X  X X  X  X   X  X X X   X X  X X  X  Gap-frame X X    X X X X X X X X  X X X X    X X X   X X X X X X X  Adjustable-bed horn  X    X  X    X   X  X     X X X   X X  X  X X X End-wheel  X    X  X    X    X X      X X   X   X  X X  Arch-frame   X X  X  X   X X   X        X X   X   X   X  Straight-side   X X  X X X X  X X X X X X X    X X X X X X X X X X X X X  Reducing X X X   X X X X   X   X       X X X   X   X   X  Knuckle-lever   X   X X X   X X X     X     X X   X X  X X X X  Toggle-draw   X   X X X     X X X  X X      X  X X X X  X  X  Cam-drawing X X X   X X X  X   X  X     X   X X   X    X  X  Two-point single-action  X X   X X X   X X   X  X       X  X  X  X  X X  High-production   X   X X X   X X   X  X      X X   X X  X   X  Dieing machine     X   X    X   X        X  X  X X  X   X  Transfer  X X   X X X    X   X X X X     X X    X  X   X  Flat-edge trimming    X  X  X     X       X    X   X   X     Hydraulic  X X  X  X X X X  X X X        X     X X  X X X X X Press brake X X    X  X    X   X       X  X    X X X  X