Agricultural machinery
Agricultural machinery is machinery used in the operation of an agricultural area or farm.
Contents
History of the Machines
The Industrial Revolution
With the coming of the Industrial Revolution and the development of more complicated machines, farming methods took a great leap forward.[1] Instead of harvesting grain by hand with a sharp blade, wheeled machines cut a continuous swath. Instead of threshing the grain by beating it with sticks, threshing machines separated the seeds from the heads and stalks. The first tractors appeared in the late 19th century. [2]
Steam power
Power for agricultural machinery was originally supplied by ox or other domesticated animals. With the invention of steam power came the portable engine, and later the traction engine, a multipurpose, mobile energy source that was the ground-crawling cousin to the steam locomotive. Agricultural steam engines took over the heavy pulling work of oxen, and were also equipped with a pulley that could power stationary machines via the use of a long belt. The steam-powered machines were low-powered by today's standards but, because of their size and their low gear ratios, they could provide a large drawbar pull. Their slow speed led farmers to comment that tractors had two speeds: "slow, and damn slow."relationship are hard
Internal combustion engines
The internal combustion engine; first the petrol engine, and later diesel engines; became the main source of power for the next generation of tractors. These engines also contributed to the development of the self-propelled, combined harvester and thresher, or combine harvester (also shortened to 'combine'). Instead of cutting the grain stalks and transporting them to a stationary threshing machine, these combines cut, threshed, and separated the grain while moving continuously through the field.
Types
Combines might have taken the harvesting job away from tractors, but tractors still do the majority of work on a modern farm. They are used to push implements—machines that till the ground, plant seed, and perform other tasks.
Tillage implements prepare the soil for planting by loosening the soil and killing weeds or competing plants. The best-known is the plow, the ancient implement that was upgraded in 1838 by John Deere. Plows are now used less frequently in the U.S. than formerly, with offset disks used instead to turn over the soil, and chisels used to gain the depth needed to retain moisture.
The most common type of seeder is called a planter, and spaces seeds out equally in long rows, which are usually two to three feet apart. Some crops are planted by drills, which put out much more seed in rows less than a foot apart, blanketing the field with crops. Transplanters automate the task of transplanting seedlings to the field. With the widespread use of plastic mulch, plastic mulch layers, transplanters, and seeders lay down long rows of plastic, and plant through them automatically.
After planting, other implements can be used to cultivate weeds from between rows, or to spread fertilizer and pesticides. Hay balers can be used to tightly package grass or alfalfa into a storable form for the winter months.
Modern irrigation relies on machinery. Engines, pumps and other specialized gear provide water quickly and in high volumes to large areas of land. Similar types of equipment can be used to deliver fertilizers and pesticides.
Besides the tractor, other vehicles have been adapted for use in farming, including trucks, airplanes, and helicopters, such as for transporting crops and making equipment mobile, to aerial spraying and livestock herd management.
New technology and the future
The basic technology of agricultural machines has changed little in the last century. Though modern harvesters and planters may do a better job or be slightly tweaked from their predecessors, the US$250,000 combine of today still cuts, threshes, and separates grain in the same way it has always been done. However, technology is changing the way that humans operate the machines, as computer monitoring systems, GPS locators, and self-steer programs allow the most advanced tractors and implements to be more precise and less wasteful in the use of fuel, seed, or fertilizer. In the foreseeable future, there may be mass production of driverless tractors, which use GPS maps and electronic sensors.
Open Source Agricultural Equipment
Many farmers are upset by their inability to fix the new types of high-tech farm equipment.[3] This is due mostly to companies using intellectual property law to prevent farmers from having the legal right to fix their equipment (or gain access to the information to allow them to do it). [4] This has encouraged groups such as Open Source Ecology and Farm Hack[5] to begin to make open source agricultural machinery. In addition on a smaller scale Farmbot [6]and the RepRap open source 3D printer community has begun to make open-source farm tools available of increasing levels of sophistication.[7] In October 2015 an exemption was added to the DMCA to allow inspection and modification of the software in cars and other vehicles including agricultural machinery.[8]
See also
Notable Manufacturers
- AGCO
- Art's Way
- Claas
- CNH Industrial
- Mahindra & Mahindra
- Minsk Tractor Works
- JCB
- Mirrlees Blackstone
- Industry of Machinery and Tractors IMT
- Kubota
- John Deere
- Pronovost Inc.
References
- ↑ Agricultural engineering Britannica Online. Retrieved 2012-12-25.
- ↑ Tractor (vehicle) Britannica Online. Retrieved 2012-12-25.
- ↑ http://www.wired.com/2015/02/new-high-tech-farm-equipment-nightmare-farmers/
- ↑ http://www.wired.com/2015/04/dmca-ownership-john-deere/
- ↑ A worldwide community of farmers that build and modify our own tools. http://farmhack.org/app/
- ↑ Open source CNC farming http://go.farmbot.it/
- ↑ Pearce, J.M.(2015). Applications of Open Source 3-D Printing on Small Farms. Organic Farming 1(1), 19-35. DOI: 10.12924/of2014.01010019
- ↑ Exemption to Prohibition on Circumvention of Copyright Protection Systems for Access Control Technologies http://copyright.gov/1201/2015/fedreg-publicinspectionFR.pdf
External links
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