Machine press

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Manual goldsmith press GoldsmithPress.jpg
Manual goldsmith press
General-purpose hydraulic shop press 40-ton-shop-press.jpg
General-purpose hydraulic shop press
Power press with a fixed barrier guard Power press animation.gif
Power press with a fixed barrier guard
A HACO CNC hydraulic press brake Euromaster-Achtergrond.jpg
A HACO CNC hydraulic press brake
A press brake bending a sheet of steel

A forming press, commonly shortened to press, is a machine tool that changes the shape of a work-piece by the application of pressure. [1] The operator of a forming press is known as a press-tool setter, often shortened to tool-setter.

Contents

Presses can be classified according to

Shop Press

Typically consisting of a simple rectangular frame, often fabricated from C-channel or tubing, containing a bottle jack or hydraulic cylinder to apply pressure via a ram to a work-piece. Often used for general-purpose forming work in the auto mechanic shop, machine shop, garage or basement shops, etc. Typical shop presses are capable of applying between 1 and 30 tons pressure, depending on size and construction. Lighter-duty versions are often called arbor presses.

A shop press is commonly used to press interference fit parts together, such as gears onto shafts or bearings into housings.

Other presses by application

An example of peculiar press control: servo-press

A servomechanism press, also known as a servo press or an 'electro-press, is a press driven by an AC servo motor. The torque produced is converted to a linear force via a ball screw. Pressure and position are controlled through a load cell and an encoder. The main advantage of a servo press is its low energy consumption; its only 10-20% of other press machines.

When stamping, it is really about maximizing energy as opposed to how the machine can deliver tonnage. Up until recently, the way to increase tonnage between the die and work-piece on a mechanical press was through bigger machines with bigger motors. [6]

Types of presses

The press style used is in direct correlation to the end product. Press types are straight-side, BG (back geared), geared, gap, OBI (open back inclinable) and OBS (open back stationary). Hydraulic and mechanical presses are classified by the frame the moving elements are mounted on. The most common are the gap-frame, also known as C-frame, and the straight-side press. A straight-side press has vertical columns on either side of the machine and eliminates angular deflection. A C-frame allows easy access to the die area on three sides and require less floor space. A type of gap-frame, the OBI pivots the frame for easier scrap or part discharge. The OBS timed air blasts, devices or conveyor for scrap or part discharge. [7] [8]

Comparison of various machine presses
Type of pressType of framePosition of frameActionMethod of actuationType of driveSuspensionRamBed
Open-backGapStraight-sideArchPillerSolidTie rodVerticalHorizontalInclinableInclinedSingleDoubleTripleCrankFront-to-back crankEccentricToggleScrewCamRack & pinionPistonOver directGeared, overdriveUnder directGeared, underdriveOne-pointTwo-pointFour-pointSingleMultipleSolidOpenAdjustable
BenchXXXXXXXXXXXXXXXXX
Open-back inclinableXXXXXXXXXXXXXXXXXX
Gap-frameXXXXXXXXXXXXXXXXXXXXXXXX
Adjustable-bed hornXXXXXXXXXXXXXXX
End-wheelXXXXXXXXXXXX
Arch-frameXXXXXXXXXXXX
Straight-sideXXXXXXXXXXXXXXXXXXXXXXXXXX
ReducingXXXXXXXXXXXXXXX
Knuckle-leverXXXXXXXXXXXXXXXX
Toggle-drawXXXXXXXXXXXXXXXX
Cam-drawingXXXXXXXXXXXXXXX
Two-point single-actionXXXXXXXXXXXXXXX
High-productionXXXXXXXXXXXXXX
Dieing machineXXXXXXXXXX
TransferXXXXXXXXXXXXXXX
Flat-edge trimmingXXXXXXXX
HydraulicXXXXXXXXXXXXXXXXXX
Press brakeXXXXXXXXXXXX

History

Proofing press from 1941, cultural monument at the Karlsruhe Institute of Technology KIT Prufpresse.jpg
Proofing press from 1941, cultural monument at the Karlsruhe Institute of Technology

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. Often a smith would employ a helper or apprentice to swing the hammer while the smith concentrated on positioning the work-piece. Drop hammers and trip hammers utilize a mechanism to lift the hammer, which then falls by gravity onto the work.

In the mid 19th century, manual and rotary-cam hammers began to be replaced in industry by the steam hammer, which was first described in 1784 by James Watt, a British inventor and Mechanical Engineer who also contributed to the earliest steam engines and condensers, but not built until 1840 by British inventor James Nasmyth. By the late 19th century, steam hammers had increased greatly in size; in 1891 the Bethlehem Iron Company made an enhancement allowing a steam hammer to deliver a 125-ton blow. [9]

Most modern machine presses typically use a combination of electric motors and hydraulics to achieve the necessary pressure. Along with the evolution of presses came the evolution of the dies used within them. [10]

Safety

Machine presses can be hazardous, so safety measures must always be taken. Bi-manual 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 curtains that keep the machine from working if the operator is in range of the die.

Related Research Articles

<span class="mw-page-title-main">Mechanization</span> Process of changing from working by hand or with animals to work with machinery

Mechanization is the process of changing from working largely or exclusively by hand or with animals to doing that work with machinery. In an early engineering text a machine is defined as follows:

Every machine is constructed for the purpose of performing certain mechanical operations, each of which supposes the existence of two other things besides the machine in question, namely, a moving power, and an object subject to the operation, which may be termed the work to be done. Machines, in fact, are interposed between the power and the work, for the purpose of adapting the one to the other.

<span class="mw-page-title-main">Forging</span> Metalworking process

Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer or a die. Forging is often classified according to the temperature at which it is performed: cold forging, warm forging, or hot forging. For the latter two, the metal is heated, usually in a forge. Forged parts can range in weight from less than a kilogram to hundreds of metric tons. Forging has been done by smiths for millennia; the traditional products were kitchenware, hardware, hand tools, edged weapons, cymbals, and jewellery.

<span class="mw-page-title-main">Machine tool</span> Machine for handling or machining metal or other rigid materials

A machine tool is a machine for handling or machining metal or other rigid materials, usually by cutting, boring, grinding, shearing, or other forms of deformations. Machine tools employ some sort of tool that does the cutting or shaping. All machine tools have some means of constraining the workpiece and provide a guided movement of the parts of the machine. Thus, the relative movement between the workpiece and the cutting tool is controlled or constrained by the machine to at least some extent, rather than being entirely "offhand" or "freehand". It is a power-driven metal cutting machine which assists in managing the needed relative motion between cutting tool and the job that changes the size and shape of the job material.

<span class="mw-page-title-main">Metalworking</span> Process of making items from metal

Metalworking is the process of shaping and reshaping metals to create useful objects, parts, assemblies, and large scale structures. As a term it covers a wide and diverse range of processes, skills, and tools for producing objects on every scale: from huge ships, buildings, and bridges down to precise engine parts and delicate jewelry.

An actuator is a component of a machine that produces force, torque, or displacement, usually in a controlled way, when an electrical, pneumatic or hydraulic input is supplied to it in a system. An actuator converts such an input signal into the required form of mechanical energy. It is a type of transducer. In simple terms, it is a "mover".

<span class="mw-page-title-main">Fluid power</span> Use of fluids under pressure to generate, control, and transmit power

Fluid power is the use of fluids under pressure to generate, control, and transmit power. Fluid power is conventionally subdivided into hydraulics and pneumatics. Although steam is also a fluid, steam power is usually classified separately from fluid power. Compressed-air and water-pressure systems were once used to transmit power from a central source to industrial users over extended geographic areas; fluid power systems today are usually within a single building or mobile machine.

<span class="mw-page-title-main">Metal fabrication</span> Creation of metal structures

Metal fabrication is the creation of metal structures by cutting, bending and assembling processes. It is a value-added process involving the creation of machines, parts, and structures from various raw materials.

<span class="mw-page-title-main">Hydraulic press</span> Machine press using a hydraulic cylinder to generate a compressive force

A hydraulic press is a machine press using a hydraulic cylinder to generate a compressive force. It uses the hydraulic equivalent of a mechanical lever, and was also known as a Bramah press after the inventor, Joseph Bramah, of England. He invented and was issued a patent on this press in 1795. As Bramah installed toilets, he studied the existing literature on the motion of fluids and put this knowledge into the development of the press.

<span class="mw-page-title-main">Hydraulic machinery</span> Type of machine that uses liquid fluid power to perform work

Hydraulic machines use liquid fluid power to perform work. Heavy construction vehicles are a common example. In this type of machine, hydraulic fluid is pumped to various hydraulic motors and hydraulic cylinders throughout the machine and becomes pressurized according to the resistance present. The fluid is controlled directly or automatically by control valves and distributed through hoses, tubes, or pipes.

<span class="mw-page-title-main">Sheet metal</span> Metal formed into thin, flat pieces

Sheet metal is metal formed into thin, flat pieces, usually by an industrial process.

<span class="mw-page-title-main">Hydroforming</span> Method of shaping metal through pressurized water

Hydroforming is a cost-effective way of shaping ductile metals such as aluminium, brass, low alloy steel, and stainless steel into lightweight, structurally stiff and strong pieces. One of the largest applications of hydroforming is the automotive industry, which makes use of the complex shapes made possible by hydroforming to produce stronger, lighter, and more rigid unibody structures for vehicles. This technique is particularly popular with the high-end sports car industry and is also frequently employed in the shaping of aluminium tubes for bicycle frames.

<span class="mw-page-title-main">Punch press</span>

A punch press is a type of machine press used to cut holes in material. It can be small and manually operated and hold one simple die set, or be very large, CNC operated, with a multi-station turret and hold a much larger and complex die set.

<span class="mw-page-title-main">Punching</span> Creating a hole by forcing a tool through the workpiece

Punching is a forming process that uses a punch press to force a tool, called a punch, through the workpiece to create a hole via shearing. Punching is applicable to a wide variety of materials that come in sheet form, including sheet metal, paper, vulcanized fibre and some forms of plastic sheet. The punch often passes through the work into a die. A scrap slug from the hole is deposited into the die in the process. Depending on the material being punched this slug may be recycled and reused or discarded.

<span class="mw-page-title-main">Stamping press</span>

A stamping press is a metalworking machine tool used to shape or cut metal by deforming it with a die. In simple terms, a stamping press is the modern day equivalent of a hammer and anvil. The difference is that a stamping press uses precision-made male and female dies to dictate the shape of the final product.

<span class="mw-page-title-main">English wheel</span> Metalworking tool for curving sheet metal

The English wheel, in Britain also known as a wheeling machine, is a metalworking tool that enables a craftsperson to form compound curves from flat sheets of metal such as aluminium or steel.

<span class="mw-page-title-main">Planer (metalworking)</span> Machining tool which uses linear relative motion between the workpiece and tool bit

A planer is a type of metalworking machine tool that uses linear relative motion between the workpiece and a single-point cutting tool to cut the work piece. A planer is similar to a shaper, but larger, and with workpiece moving, whereas in a shaper the cutting tool moves.

The following outline is provided as an overview of and topical guide to machines:

<span class="mw-page-title-main">Riveting machine</span>

A riveting machine is used to automatically set (squeeze) rivets in order to join materials together. The riveting machine offers greater consistency, productivity, and lower cost when compared to manual riveting.

<span class="mw-page-title-main">Press brake</span>

A press brake is a machine used for bending sheet metal and metal plate, most commonly sheet metal. It forms predetermined bends by clamping the workpiece between a matching top tool and bottom die.

<span class="mw-page-title-main">Injection molding machine</span> Machine for manufacturing plastic products

An injection molding machine, also known as an injection press, is a machine for manufacturing plastic products by the injection molding process. It consists of two main parts, an injection unit and a clamping unit.

References

  1. Press , retrieved 2009-11-24.
  2. Press Brake Tonnage Table, American Machine Tools Co. Web site (http://www.americanmachinetools.com/pressure_table.htm Archived 2018-08-15 at the Wayback Machine ). Retrieved 7-26-14.
  3. Press Brakes, Pacific Press Technologies Web site (http://www.pacific-press.com/brakes.html Archived 2014-04-11 at the Wayback Machine ). Retrieved 7-26-14.
  4. Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II, pp. 29, 83, Cypress, California, 2013. ISBN   978-0-9897906-0-4.
  5. Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II, pp. 87, Cypress, California, 2013. ISBN   978-0-9897906-0-4.
  6. "The science behind the servo press". www.thefabricator.com. 2008-01-15. Retrieved 2016-02-03.
  7. "Metal Stamping Equipment And Machines - American Industrial". American Industrial. Retrieved 2016-02-03.
  8. "SME.org PDF". www.sme.org. Retrieved 3 February 2016.
  9. Punch Press Services Ltd. "The History of Punch Press Machines". Archived from the original on 2015-07-15.
  10. Parker, Dana T. Building Victory: Aircraft Manufacturing in the Los Angeles Area in World War II, pp. 20, 29, 48, 83, 85, 87, Cypress, California, 2013. ISBN   978-0-9897906-0-4.
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