Inkjet printer

From Wikipedia, the free encyclopedia

Inkjet printers are a type of computer printer that operates by propelling tiny droplets of liquid ink onto paper. They are the most common type of computer printer for the general consumer due to their low cost, high quality of output, capability of printing in vivid color, and ease of use.

1 In general
2 Inkjet Inks
- 2.1 Inkjet head design
3 Advantages
4 Disadvantages
5 Underlying business model
6 Professional inkjet printers
7 Inkjet Printing of Functional Materials
8 See also
9 External links

[edit] In general

In the personal and small business computer market, inkjet printers currently predominate. Inkjets are usually inexpensive, quiet, reasonably fast, and many models can produce high quality output. Like most modern technologies, the present-day inkjet has built on the progress made by many earlier versions. Among many contributors, Epson, Hewlett-Packard and Canon can claim a substantial share of credit for the development of the modern inkjet. In the worldwide consumer market, four manufacturers account for the majority of inkjet printer sales: Canon, Hewlett-Packard, Epson, and Lexmark.

Ink jet printers use one of three main technologies: thermal, piezoelectric, and continuous.

[edit] Thermal Ink Jet

Most consumer ink jet printers (Epson being a notable exception) work by having a print cartridge with a series of tiny electrically heated chambers constructed by photolithography. To produce an image, the printer runs a pulse of current through the heating elements. A steam explosion in the chamber forms a bubble, which propels a droplet of ink onto the paper (hence Canon's tradename for its inkjets, Bubblejet). The ink's surface tension pulls another charge of ink into the chamber through a narrow channel attached to an ink reservoir.

Thermal ink jet technology is used almost exclusively in the consumer ink jet market. The ink used is usually water-based, pigment-based or dye-based but the print head is produced usually at less cost than other ink jet technologies.

Note that this is not the same thing as a thermal printer, commonly found in ATMs and cash register receipt printers.

[edit] Piezoelectric Ink Jet

All Epson printers and most commercial and industrial ink jet printers use a piezoelectric material in an ink-filled chamber behind each nozzle instead of a heating element. When a voltage is applied, the crystal changes shape or size, this generates a pressure pulse in the fluid forcing a droplet of ink from the nozzle. This is essentially the same mechanism as the thermal inkjet but generates the pressure pulse using a different physical principle. Piezoelectric ink jet allows a wider variety of inks than thermal or continuous ink jet but is more expensive.

The emerging Ink jet material deposition market uses ink jet technologies, typically piezoelectric ink jet, to deposit materials on substrates.

[edit] Continuous Ink Jet

The continuous ink jet method is used commercially for marking and coding of products and packages. The first patent on the idea is from 1867, by William Thomson. The first commercial model was introduced in 1951 by Siemens. In continuous ink jet technology, a high-pressure pump directs liquid ink from a reservoir through a microscopic nozzle, creating a continuous stream of ink droplets. A piezoelectric crystal causes the stream of liquid to break into droplets at regular intervals. The ink droplets are subjected to an electrostatic field created by a charging electrode as they form. The field is varied according to the degree of drop deflection desired. This results in a controlled, variable electrostatic charge on each droplet. Charged droplets are separated by one or more uncharged “guard droplets” to minimize electrostatic repulsion between neighboring droplets.

The charged droplets are then directed (deflected) to the receptor material to be printed by electrostatic deflection plates, or are allowed to continue on undeflected to a collection gutter for reuse. The more highly charged droplets are deflected to a greater degree.

Continuous ink jet is one of the oldest ink jet technologies in use and is fairly mature. One of its advantages is the very high velocity (~50 m/s) of the ink droplets, which allows the ink drops to be thrown a long distance to the target. Another advantage is freedom from nozzle clogging as the jet is always in use. Volatile solvents (ketones and alcohols) can therefore be used, giving the ability of the ink to "bite" into the substrate and dry quickly. The fluid handling systems can be quite complex. Droplets are generated at ~75 to 165 kHz; only a few percent of the droplets are used to print; the rest are recycled.

[edit] Inkjet Inks

Image:Refill-Ink-Kit-Black.jpg

Image:Refill-Ink-Kit-Color.jpg

Image:Canonrefill.jpg

The basic problem with inkjet inks is the conflicting requirement for a colouring agent that will stay on the surface and rapid dispersement of the carrier.

Small inkjet printers as being used in offices or at home, all use aqueous inks based on a mixture of water, glycol and some dyes or pigments. These inks are inexpensive to manufacture, but are difficult to control on the surface of media and therefore require often specially coated media. Aqueous inks are mainly being used in printers with disposable, so-called thermal, inkjet heads, as these heads require water in order to perform.

In professional wide format printers, a much wider range of inks is in use currently. Most of these inks require piezo inkjet heads:

In solvent inks, VOCs are the main ingredient. Advantage of these inks is that they are very inexpensive and enable printing on uncoated vinyl substrates, which are used a lot in advertising for billboards and fleet graphics.

UV-curable inks consist mainly of acrylic monomers with an initiator package. After printing, the ink has to be cured by a high dose of UV-light. The advantage of UV-curable inks is that they "dry" as soon as they are cured, they can be printed on a wide range of uncoated substrates and make a very robust image. Disadvantages is that they are more expensive, require expensive curing modules in the printer and the cured ink has a significant volume and so give a slight relief on the surface.

Dye sublimation inks contain special sublimation dyes and are used to print directly or indirectly on fabrics that consist of a high percentage of polyester fibres. In a heating step the dyes sublimate into the fibers and create an image with strong color and good durability.

[edit] Inkjet head design

Two main design philosophies operate in inkjet head design. Each has strengths and weaknesses.

The fixed-head philosophy provides an inbuilt print head (often referred to as a 'Gaither Head') that is designed to last for the whole life of the printer. The idea is that because the head need not be replaced every time the ink runs out, consumable costs are typically lower and the head itself can be more precise than a cheap disposable one. On the other hand, if the head is damaged, it is usually necessary to replace the entire printer. Epson have traditionally used fixed print heads featuring micropiezo technology. These print heads are available in consumer products and are traditionally more accurate in dot placement than comparable thermal printers.

Other fixed head designs are more likely to be found on industrial high-end printers and large format plotters.

Fixed-head designs normally use piezo inkjet heads. Because development of these heads requires a large investment in research and development, there are only a few companies offering them: Trident, Xaar, Spectra (Dimatix), Hitachi / Ricoh, HP Scitex, Brother, Konica Minolta, Seiko Epson, and ToshibaTec (a licensee of Xaar).

The disposable head philosophy uses a print head which is part of the replaceable ink cartridge. Every time the printer runs out of ink, the entire cartridge is replaced with a new one. This adds to the cost of consumables and makes it more difficult to manufacture a high-precision head within reasonable cost limits, but also means that a damaged print head is only a minor problem: the user can simply buy a new cartridge. Hewlett-Packard has traditionally favoured the disposable print head, as did Canon in its early models.

An intermediate method does exist: a disposable ink tank connected to a disposable head, which is replaced infrequently (perhaps every tenth ink tank or so). Most high-volume Hewlett-Packard inkjet printers use this setup, with the disposable print heads used on lower volume models.

Canon now uses (in most models) replaceable print heads which are designed to last the life of the printer, but can be replaced by the user if they should become clogged. For models with "Think Tank" technology, the ink tanks are separate for each ink color. Hewlett-Packard is now also experimenting with fixed print heads on many of their upcoming low-volume models.

[edit] Advantages

Compared to earlier consumer-oriented printers, ink jets have a number of advantages. They are quieter in operation than impact dot matrix or daisywheel printers. They can print finer, smoother details through higher printhead resolution, and many ink jets with photorealistic-quality color printing are widely available.

In comparison to more expensive technologies like thermal wax, dye sublimations, and laser printers, ink jets have the advantage of practically no warm-up time and lower cost per page (except when compared to laser-printers).

[edit] Disadvantages

The disadvantages of inkjets include flimsy print heads (prone to clogging) and expensive ink cartridges (sometimes costing US$30 – $40 or more). This typically leads value-minded consumers to consider laser printers for medium-to-high volume printer applications. Consumers might save money by using compatible generic cartridges or re-filling kits. But while generic cartridges cost less, most produce far fewer prints than brand-name inks, so per-print costs may not be any lower.[1] Also, generic inks may result in lower print quality, and possibly damage the printer.

Other disadvantages include ink bleeding, where ink is carried sideways away from the desired location by the capillary effect; the result is a muddy appearance on some types of paper. Most ink jet printer manufacturers also sell special clay-treated paper designed to reduce bleeding, but such paper is expensive and sometimes has a peculiar texture.

Because the ink used in most inkjets is water-soluble, care must be taken with inkjet-printed documents to avoid even the smallest drop of water, which can cause severe "blurring" or "running." Also, highlighter markers cannot be used with such documents.

[edit] Underlying business model

A common business model for inkjet printers involves selling the actual printer at or even below production cost, while dramatically marking up the price of the (proprietary) ink cartridges. Hewlett-Packard, for example were recently able to cover the entire 12-month losses accumulated by their other Printer divisions with the profits made by their consumables division, and have a little left over.

Alternatives for consumers are cheaper copies of cartridges, produced by other companies, and refilling cartridges themselves, for which special refill sets are for sale. As a result of the large differences in pricing due to OEM markups, there are many companies specializing in these types of alternative off-brand ink cartridges. Most printer manufacturers discourage refilling disposable cartridges. Aside from the obvious economic reasons, the heating elements in thermal cartridges often burn out when the ink supply is depleted, permanently damaging the print head.

Some inkjet printers enforce this tying using microchips in the cartridges to prevent the use of third-party or refilled ink cartridges. In Lexmark Int'l v. Static Control Components, the United States Court of Appeals for the Sixth Circuit ruled that circumvention of this technique does not violate the Digital Millennium Copyright Act. In fact, the European Commission ruled this practice anticompetitive: it will disappear in newer models sold in the European Union.

[edit] Professional inkjet printers

Besides the well known small inkjet printers for home and office, there is a market for professional inkjet printers; some being for page-width format printing, and most being for wide format printing. "Page-width format" means that the print width ranges from about 8.5" to 37" (about 20 cm to 100 cm). "Wide format" means that these are printers ranging in print width from 24" up to 15' (about 75 cm to 5 m). The application of the page-width printers is for printing high-volume business communications that have a lesser need for flashy layout and color. Particularly with the addition of variable data technologies, the page-width printers are important in billing, tagging, and individualized catalogs and newspapers. The application of most of the wide format printers is for printing advertising graphics; a minor application is printing of designs by architects or engineers.

In terms of units, the major supplier is Hewlett-Packard, which supply over 90 percent of the market for printers for printing technical drawings. The major products in their DesignJet series are the DesignJet 500/800, the DesignJet 1050 and the DesignJet 4000/4500. Besides this they also have the DesignJet 5500, a six-color printer that is used especially for printing graphics. The constantly growing niche of page-format printing has been filled by Kodak, with the Kodak Versamark(tm) VJ1000, VT3000, and VX5000 printing systems. Scitex also made a short-lived entry into high-speed, variable-data, inkjet printing, but sold its profitable assets associated with the technology to Kodak in 2005.

A few other suppliers of low volume wide format printers are Epson, Kodak and Canon. Epson has a group of 3 Japanese companies around it that all use predominantly heads and inks coming from Epson: Mimaki, Roland and Mutoh.

More professional high-volume inkjet printers are made by a range of companies. These printers can range in price from 25,000€ to as high as 1.5 million €. Carriage widths on these units can range from 54" to 192" and ink technologies tend toward solvent, eco-solvent and UV-curing as opposed to water-based (aqueous) ink sets. Major applications where these printers are used are for outdoor settings for billboards, truck sides and truck curtains, building graphics and banners, while indoor displays include point-of-sales displays, backlit displays, exhibition graphics and museum graphics.

The major suppliers for professional wide- and grand-format printers include: LexJet, Inca, Durst, Océ, NUR, Lüscher, VUTEk, Zünd, Scitex Vision, Gandinnovations, Mutoh, Mimaki, Roland DGA, Seiko I Infotech, Leggett and Platt, Agfa, Raster Printers and MacDermid ColorSpan.

[edit] Inkjet Printing of Functional Materials

Three-dimensional printing constructs a prototype by printing cross-sections on top of one another.

High-end inkjet printers can be used to produce fine-art prints called giclées.

U.S. Patent 6,319,530 teaches a "Method of photocopying an image onto an edible web for decorating iced baked goods". In plain English, this invention enables one to inkjet print a food-grade color photograph on a birthday cake's surface. Many bakeries now carry Edible Image brand printers.

Inkjet printers and similar technologies are to be used in the production of many microscopic items. See MEMS.