A farm machinery and/or implement can be defined as any type of machinery or implement that can be used in the process of agricultural production; it can be for crop production or animal production.
Primary & Secondary tillage Implements and their usesSazib akan
Tillage is the manipulation of the soil into a desired condition by mechanical means; tools are employed to achieve some desired effect (such as pulverization, cutting, or movement). cultivator. agricultural technology: Fallow system and tillage techniques. cereal farming: Seedbed preparation.
Mechanical manipulation of soil to provide favorable condition for proper crop growth is called tillage.
Soil tillage consists of breaking the compact surface of earth to a certain depth.
To loosen the soil mass so as to enable the roots of the crops to penetrate and spread into the soil.
FARM POWER IN INDIA –
Farm Power is an essential input in agriculture for timely field operations for increasing production and productivity of land.
Farm power is used for operating different types of machinery like tillage, planting, plant protection, harvesting and threshing machinery.
A transplanter is an Agriculture machine used for transplanting seedlings to the field. This is very important as it reduces the time taken to transplant seedlings (when compared to manual transplanting), thus allowing more time for harvesting. It also reduces the use of manual energy. Paddy transplanter machines are comes in 2 , 3 , 4 up-to 6 rows for large capacity field .
A farm machinery and/or implement can be defined as any type of machinery or implement that can be used in the process of agricultural production; it can be for crop production or animal production.
Primary & Secondary tillage Implements and their usesSazib akan
Tillage is the manipulation of the soil into a desired condition by mechanical means; tools are employed to achieve some desired effect (such as pulverization, cutting, or movement). cultivator. agricultural technology: Fallow system and tillage techniques. cereal farming: Seedbed preparation.
Mechanical manipulation of soil to provide favorable condition for proper crop growth is called tillage.
Soil tillage consists of breaking the compact surface of earth to a certain depth.
To loosen the soil mass so as to enable the roots of the crops to penetrate and spread into the soil.
FARM POWER IN INDIA –
Farm Power is an essential input in agriculture for timely field operations for increasing production and productivity of land.
Farm power is used for operating different types of machinery like tillage, planting, plant protection, harvesting and threshing machinery.
A transplanter is an Agriculture machine used for transplanting seedlings to the field. This is very important as it reduces the time taken to transplant seedlings (when compared to manual transplanting), thus allowing more time for harvesting. It also reduces the use of manual energy. Paddy transplanter machines are comes in 2 , 3 , 4 up-to 6 rows for large capacity field .
Appropriate mechanization of small farmsSandeep Pawar
Increasing food production to feed the growing population is a primary challenge of Indian
farming system. Indian agriculture is characterized by millions of small and marginal
farmers. About 100 million farm families with 250 million workers (50% of work force)
contribute not more than 14 % to GDP. One of the major reasons behind these figures is lack
of appropriate mechanization mainly in small farms in India. One of the main causes for low
agricultural productivity in most of the developing countries, including India, is the lack of
appropriate machineries that suit the requirements of small scale farms. Thus many farms are
deemed as unproductive and inefficient. Need of appropriate mechanization for Indian farms
is defined in the report. This study report attempts to throw a light on other countries
scenario in case of mechanization and possible learning so as to improve outcomes in
agriculture in India.
this testing includes weeding, its objective ,types and testing of both manual and power weeders
Testing of weeder includes General test or lab test and Field test
General test or lab test includes
Checking of specifications
Checking of hardness of material
Chemical analysis of soil engaging components
Wear of the soil engaging components
Engine performance
Noise level
Air cleaner oil pull over
Amplitude of mechanical vibration
Discard limit
Turning ability
Rotary blades
Safety requirements
---Field test
Field parameters
Speed of travel
Field capacity
Depth of weeding
Draft of the weeder
Weeding efficiency
Power requirement
Plant damage
Field efficiency
Performance index
Fuel consumtion
Soundness of construction
Ease of adjustment and operation
The main purpose of this presentation is give knowledge and mechanism and also parts of combine harvester. When we are Agricultural engineers and then combine harvester is very important for us.
Tractor is a self propelled power unit having wheels or tracks for operating agricultural implements and machines including trailers.
Tractor engine is used as a prime mover for active tools and stationary farm machinery through power-take off (pto) or belt pulley
Harvesting operations are one of the farm field operation in which seeds are separated from the stalk on which they grow. This is done when crops are ripened and reached maturity.
In order to achieve increased yield, the crops that are cultivated should be harvested at appropriate harvest time and moisture content. Both delayed and early harvesting results in decreased yield.
Definition
The operation of cutting, picking, digging or any combination of these for removing the whole crop or edible part of the crop from either under the ground or above the ground is called harvesting.
The information of useful small farm Agricultural Machinery is given in this presentation such as battery-assisted Four wheel weeder, Cono weeder, Wheel hoe, dibbler, vegetable transplanter, Direct paddy seeder, Manual Groundnut Decorticator, Tubular Maize Sheller, 7HP mini tiller and Brush Cutter.
Introduction:
A combine is a large, self-propelled agricultural machine used to harvest grain crops such as wheat, corn, soybeans and rice. As its name suggests, the combine performs two, and sometimes more, basic functions of harvesting: first it reaps (cuts) the crop, and then it threshes it, separating the kernels of grain from the seed coverings and other debris (chaff). Some combines may also bale the straw that remains after threshing; the machines can also be equipped to pick cotton.
Factors affecting selection of equipment's
Size required for a given job.
Kind of job for which it will be used
Type of footing over which it will travel or its requires high or low tractive efficiency
Firmness of haul road
Smoothness of haul road
Slope of haul road
Length of haul road
Tractors are machines that converts engine energy into tractive energy ( Pull or push)
Types
1. Crawler Type Tractors
2. Wheel Type Tractors
1. Two wheel type tractors
2. Four wheel type tractors
Appropriate mechanization of small farmsSandeep Pawar
Increasing food production to feed the growing population is a primary challenge of Indian
farming system. Indian agriculture is characterized by millions of small and marginal
farmers. About 100 million farm families with 250 million workers (50% of work force)
contribute not more than 14 % to GDP. One of the major reasons behind these figures is lack
of appropriate mechanization mainly in small farms in India. One of the main causes for low
agricultural productivity in most of the developing countries, including India, is the lack of
appropriate machineries that suit the requirements of small scale farms. Thus many farms are
deemed as unproductive and inefficient. Need of appropriate mechanization for Indian farms
is defined in the report. This study report attempts to throw a light on other countries
scenario in case of mechanization and possible learning so as to improve outcomes in
agriculture in India.
this testing includes weeding, its objective ,types and testing of both manual and power weeders
Testing of weeder includes General test or lab test and Field test
General test or lab test includes
Checking of specifications
Checking of hardness of material
Chemical analysis of soil engaging components
Wear of the soil engaging components
Engine performance
Noise level
Air cleaner oil pull over
Amplitude of mechanical vibration
Discard limit
Turning ability
Rotary blades
Safety requirements
---Field test
Field parameters
Speed of travel
Field capacity
Depth of weeding
Draft of the weeder
Weeding efficiency
Power requirement
Plant damage
Field efficiency
Performance index
Fuel consumtion
Soundness of construction
Ease of adjustment and operation
The main purpose of this presentation is give knowledge and mechanism and also parts of combine harvester. When we are Agricultural engineers and then combine harvester is very important for us.
Tractor is a self propelled power unit having wheels or tracks for operating agricultural implements and machines including trailers.
Tractor engine is used as a prime mover for active tools and stationary farm machinery through power-take off (pto) or belt pulley
Harvesting operations are one of the farm field operation in which seeds are separated from the stalk on which they grow. This is done when crops are ripened and reached maturity.
In order to achieve increased yield, the crops that are cultivated should be harvested at appropriate harvest time and moisture content. Both delayed and early harvesting results in decreased yield.
Definition
The operation of cutting, picking, digging or any combination of these for removing the whole crop or edible part of the crop from either under the ground or above the ground is called harvesting.
The information of useful small farm Agricultural Machinery is given in this presentation such as battery-assisted Four wheel weeder, Cono weeder, Wheel hoe, dibbler, vegetable transplanter, Direct paddy seeder, Manual Groundnut Decorticator, Tubular Maize Sheller, 7HP mini tiller and Brush Cutter.
Introduction:
A combine is a large, self-propelled agricultural machine used to harvest grain crops such as wheat, corn, soybeans and rice. As its name suggests, the combine performs two, and sometimes more, basic functions of harvesting: first it reaps (cuts) the crop, and then it threshes it, separating the kernels of grain from the seed coverings and other debris (chaff). Some combines may also bale the straw that remains after threshing; the machines can also be equipped to pick cotton.
Factors affecting selection of equipment's
Size required for a given job.
Kind of job for which it will be used
Type of footing over which it will travel or its requires high or low tractive efficiency
Firmness of haul road
Smoothness of haul road
Slope of haul road
Length of haul road
Tractors are machines that converts engine energy into tractive energy ( Pull or push)
Types
1. Crawler Type Tractors
2. Wheel Type Tractors
1. Two wheel type tractors
2. Four wheel type tractors
In USA, agriculture plays an important role in economy. Understanding the problem of farmers, The USA government came up with several insurance schemes for the farmers in Fresno to protect them from any damage or loss.
To improve the quality of agriculture, we have developed a mechanism for cutting of different crops, so that harvesting can be done easily in minimum period of time.
To overcome all issues a new manually handled and engine operated cutter is fabricated for cutting of multiple types of crop like paddy, wheat, oil seeds, and pulses etc. named as “Multiple Crop Cutting Machine”. There is two types of blades are used according to need of crops. First is rotary blades, those crops needs high torque i.e. paddy, wheat this blades used. And another is reciprocating which is used for pulses and oil seeds.
Find the List of Best Farm Tractors in the World at Tractor Agriculture. We are single point destination for all your Tractor Research related tasks.
http://www.tractoragriculture.com/best-farm-tractors-in-the-world/
If you need to find particular information regarding a specific Tractor Brand, then you can get all the related information here.
http://www.tractoragriculture.com/
Agro Buzz - Farm Mechanization in IndiaGodrejAgrovet
Mechanized agriculture has not been given its due in our country. While government efforts are in place, they are not significant in terms of crop productivity, farm incomes and the well-being of farmers in general.
A backgrounder on the farm mechanisation sector in India that was prepared for the EIMA Agrimach 2009. Agrimach is a flagship FICCI exhibition and conference on farm mechanisation in the country.
There are three parts to this slide show. Part 1 shows how CAFOs are subsidized, (the biggest subsidies). These are paid by farmers in the form of cheap, below cost grain. They're cause economically by chronic market failure on both supply (farmer) and demand (consumers, livestock farmers and industry,) sides. Part 2 explains how to end CAFO subsidies. It seems that only the Family Farm Movement, (Farm Justice Movement,) offers proposals to end CAFO subsidies, not the new urban Food/Environmental and related Movement sectors working on the farm bill. Even the Anti-CAFO Movement doesn't seem to know how CAFOs are subsidized, (and offers false, pro-CAFO proposals). There are five major econometric studies of the "Family Farm" proposals, and they strongly confirm the approach used. Part 3 teaches the earlier, largely forgotten history of fighting CAFOs from the 1950s to the 1990s. Again, this was massive activism from the Family Farm (Farm Justice) Movement. I show important historical articles dating back to the 1960s.
This is the presentation about the Pierce Conservation District's Agricultural Assistance Program presented by Sarah Wilcox at the June 18 Nisqually River Council meeting.
AgriSuccess is FCC’s bi-monthly farm management magazine. Filled with free tips and strategies from producers and industry experts, you’ll find practical information, real-life examples and innovative ideas to grow your business.
I shared this presentation at the Northern IL Farm show on 1/12/2012.
It contains some new slides specific to N IL but also many slides recycled from other presentations
This seminar was presented at the VABF Agriculture Conference at the Hotel Roanoke in Roanoke, Virginia on January 8th, 2023. It is a review of approaches to farming with vintage tractors as a way to be economical, avoid debt and be more self-sufficient. Repair and maintenance, field preparation, bed preparation and cultivation are also covered. Sources of materials, manuals and seeds are included.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Executive Directors Chat Leveraging AI for Diversity, Equity, and InclusionTechSoup
Let’s explore the intersection of technology and equity in the final session of our DEI series. Discover how AI tools, like ChatGPT, can be used to support and enhance your nonprofit's DEI initiatives. Participants will gain insights into practical AI applications and get tips for leveraging technology to advance their DEI goals.
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
1. Biographical info: Age? Gender? Education? Career? Relation to you?
How have the physical demands of agriculture changed during your life?
Do you miss any of the physical work of the past?
What types of physically demanding work do you miss the least?
Did you get paid for agricultural labor as a child? If not, what motivated you to
do it?
Do you view the reductions in physical labor in agriculture during your lifetime
as all positive? Do you think there are any negative trade-offs?
Do you think participation in agricultural labor has impacted your health or
character? Please explain.
Is there anything else that you would like to share about physical labor in ag?
Physical labor interview Qs
2. 43 sets of Physical Labor interview responses have been submitted
Allison H Responded on:2013-09-03
Andrew F Responded on:2013-09-04
Andrew H Responded on:2013-09-02
Andrew W Responded on:2013-09-03
Cheyenne S Responded on:2013-08-31
Chris C Responded on:2013-09-02
Clinton E Responded on:2013-09-02
Cody L Responded on:2013-09-03
Craig W Responded on:2013-09-04
Cristopher T Responded on:2013-09-03
Devan B Responded on:2013-09-04
Dillon P Responded on:2013-09-04
Elijah H Responded on:2013-09-03
Eric L Responded on:2013-09-02
Ethan B Responded on:2013-09-01
Evan P Responded on:2013-09-03
Gloria L Responded on:2013-09-04
Jacob P Responded on:2013-09-03
Jeffrey M Responded on:2013-09-04
Jessica M Responded on:2013-09-04
John C Responded on:2013-09-04
John H Responded on:2013-09-03
Joseph C Responded on:2013-09-04
Joseph M Responded on:2013-09-03
Joshua B Responded on:2013-09-03
Justin F Responded on:2013-09-03
Karisa J Responded on:2013-09-02
Kelly A Responded on:2013-08-29
Kelly J Responded on:2013-09-03
Kelsey H Responded on:2013-08-30
Kyle W Responded on:2013-09-03
Molly M Responded on:2013-09-04
Morgan W Responded on:2013-09-04
Olivia F Responded on:2013-09-04
Roger T Responded on:2013-09-03
Samantha S Responded on:2013-08-29
Sarah G Responded on:2013-09-03
Sean M Responded on:2013-09-03
Sean M Responded on:2013-09-03
Steven R Responded on:2013-09-01
Taylor J Responded on:2013-09-03
Tyler Z Responded on:2013-09-04
Zane H Responded on:2013-09-01
TALK to me if you have NOT submitted!!!
4. Questions for Mechanization of ag interview (Due before start of class on 9/11)
Biographical info: age, years farming, scale of main enterprises, HP of largest tractor
What development(s) in farm equipment during your career have had the biggest
impact on your life? Please explain.
How do you weigh in on the value of new equipment? How valuable is it to regularly trade-up
vs. run older well maintained equipment?
How much of the repair and servicing of your equipment do you do yourself? How has this
changed over time?
What are the main ways that you learn about new developments in farm equipment?
How many gallons of diesel fuel are required to produce an acre of corn on your farm? How
has this changed during your career?
Do you think equipment will just keep getting larger or do you expect smaller fully or mostly
automated equipment will become important?
Is there anything else that you would like to share about the mechanization of agriculture?
6. Agriculture prior to the
mechanical revolution
• Wooden plows, all
sowing by hand,
cultivation by hoe
(but mostly no weed control)
• Hay and grain cutting
with a sickle, and
threshing with a flail
The Sower by Vincent Van Gogh
9. European farming practices in the
1600s were not that different from
the practices used in ancient Egypt
thousands of years earlier
10. Jethro Tull, 1731
Jethro Tull, a British agricultural pioneer (1674-1741)
invented the grain drill and other complementary row crop
implements that resulted in large increases in
agricultural output and productivity.
11. Agricultural productivity
is the relationship between
agricultural inputs and outputs,
a measure of the efficiency of
production.
What is productivity?
Yield ≠ Productivity
12. Primary Methods for Productivity Enhancement
in Agriculture
http://www.nae.edu/File.aspx?id=52553
13. • 1790s Scythe and cradle
introduced
• 1793 Eli Whitney invented the
cotton gin and championed
manufacturing using
interchangeable parts
• 1794 Thomas Jefferson
designed an improved grain
drill and moldboard plow
• 1797 Charles Newbold
patented first cast-iron plow
Cotton Gin
Scythe w/ cradle
What does a cotton gin do?
What is the purpose of the cradle?
14. A 15-man haying crew in Pennsylvania ready to start work in the fields (~ 1900).
http://www.farmcollector.com/Equipment/When-the-Scythe-was-the-Cutting-Edge.aspx#ixzz2621ExmZw
15. http://www.sjsapush.com/resources/slaves-in-field.jpg
The cotton gin made large-scale production
of cotton possible in the US South
10,500 bales produced in 1793 4.5 million produced in 1861
major expansion of slavery in southern US
cheap cotton industrialization of textile production
16. • 1834 first McCormick
reaper patented
• 1847 McCormick moved
to Chicago and began
manufacturing reapers
-- > International Harvester Later model reaper
What does a reaper do?
Why is Cyrus McCormick often called the
Father of Modern Agriculture?
17. McCormick’s reaper triggered a major
expansion of commercial agriculture in
the US.
Farmers needed cash to purchase
factory-made reapers and other
agricultural machinery and thus had to
increase their sale of farm products.
subsistence farming → commercial farming
18. • 1837 John Deere
invented the self-
scouring steel plow
greatly accelerating the
breaking of prairie
John Deere
(1804-1886)
What is meant by “self-scouring”?
19. After a strained 5 yr partnership that ended in 1848, Deere
moved to Moline, IL, because the city was a transportation
hub on the Mississippi River. In 1855, Deere's new factory
manufactured more than 10,000 plows.
In 1838, John Deere sold his first steel plow to a local farmer
who quickly spread word of his success with the plow. By
1841, Deere was manufacturing 75-100 plows per year.
26. • 1865-75 Gang plows and
sulky plows came into
common use along with
spring-tooth harrows for
seed bed preparation.
• 1868 Steam tractors first
taken to the field.
27. • 1870s Silos came into use.
• 1870s Deep-well drilling first
widely used.
• 1874 Glidden barbed wire
patented.
Barbed wire allowed fencing
of rangeland, ending the era
of unrestricted open-range
grazing.
First upright silo built in 1873
Hatch farm, McHenry Cty, IL
http://www.moore-warner.com/barns2009/001.jpg
28. Acclaimed director George
Stevens' legendary tale of the
end of the open range earned
six Academy Award
nominations and was my
dad’s favorite film.
The story brings Shane, a
drifter and retired gunfighter,
to the assistance of a
homestead family terrorized
by a wealthy cattleman and
his hired guns.
Have any of you seen
this classic film?
29. • 1880 William Deering
sold 3,000 twine
binders.
• Late 1880s
Horse-drawn combine
first used on wheat
farms in the PNW.
A binder
http://www.corbisimages.com/images/Corbis-IH170859.jpg?size=67&uid=61af598f-c2a7-4eac-a38b-4416b4deeae4
31. The Bonanza farms of the Red River Valley were very large-
scale wheat farms that developed as a result of a monetary
panic in 1873. As shares of the Northern Pacific Railway
plummeted, investors were given the option of trading their
bonds for railroad owned land in the Dakota Territory.
Hundreds of investors traded their railroad bonds for hundreds
of thousands of acres of virgin prairie in the northern part of
Dakota and hired professional managers to run their farming
operations. Techniques recently introduced in American
factories were applied to these farms in an attempt to make
each farm extremely efficient through the use of large-scale
machinery and cheap migrant labor.
After ~ 20 years of profitable bonanza farming, low wheat
prices, degraded soils and high land prices drove the investors
to sell off the Bonanza farms.
32. Farm boys from IL and other parts of the Midwest, who spent time
working on Bonanza farms, returned home to their families’
small diversified homesteads and began building larger farms
with mechanization, hired labor and borrowed capital.
33. 1902 First U.S. factory for tractors with internal
combustion engines
Charles Hart and Charles Parr established the first U.S.
factory devoted to manufacturing a traction engine powered
by an internal combustion engine. Smaller and lighter than
its steam-driven predecessors, it ran all day on one tank of
fuel. Hart and Parr are credited with coining the term
"tractor" for the traction engine.
34. 1904 First crawler tractor with tracks rather
than wheels
Benjamin Holt, a California manufacturer of agricultural
equipment, developed the first successful crawler tractor,
equipped with a pair of tracks rather than wheels. Dubbed
the "caterpillar" tread, the tracks helped keep heavy tractors
from sinking in soft soil and were the inspiration for the first
military tanks. The 1904 version was powered by steam; a
gasoline engine was incorporated in 1906. The Caterpillar
Tractor Company was formed in 1925, in a merger of the
Holt Manufacturing Company and its rival, the C. L. Best Gas
Traction Company.
35. Fordson Tractor
Henry Ford & Son
Corporation—a spinoff of
the Ford Motor Company—
began production of the
Fordson tractor. Originally
called the "automobile
plow" and designed to
work 10- to 12-acre fields,
it cost as little as $395 and
soon accounted for ~ 75%
of US and 50% of global
tractor sales.
1917 Tractors become affordable
36. In 1918, Deere and Company bought Waterloo Gasoline Engine Company. This
company had already established its own tractor model called the Waterloo Boy.
Suddenly Deere and Company was in the tractor race. Deere’s first tractor, the Dain
All-Wheel-Drive had 4 cylinders and 3 wheels - 2 in front and 1 in the rear. Only 100
were ever produced because it was too expensive - $1500!!
Key ignition
Gear-driven water pump
On-the-go shifting
Shiftless speed changing
4 cylinder
24 belt HP
4600 lbs
State of the art
Only 1 exists today!
37. 1921 First major aerial dusting of crops
U.S. Army pilots and Ohio entomologists
conducted the first major aerial dusting of crops,
spraying arsenate of lead over 6 acres of catalpa
trees in Troy to control the sphinx caterpillar.
38. 1922 International Harvester introduces the PTO
International Harvester introduces the PTO, a device that
allowed rotary power from the tractor’s engine to be
transmitted to attached harvesting equipment. This innovation
was part of the company’s signature Farmall tractor in 1924.
The Farmall featured a tricycle design with a high-clearance
rear axle and closely spaced front wheels.
39. 1931 Caterpillar manufactures a crawler
tractor with a diesel engine
Caterpillar manufactured a crawler tractor with a diesel
engine, which offered more power, reliability, and fuel
efficiency than those using low-octane gasoline. Four
years later International Harvester introduced a diesel
engine for wheeled tractors.
http://www.caterpillar.com/cda/layout?m=393446&x=7&id=3108507
40. 1932 - First tractor with rubber wheels
An Allis-Chalmers Model U tractor belonging to Albert
Schroeder of Waukesha, Wisconsin, was outfitted with a pair
of Firestone 48X12 airplane tires in place of lugged steel
wheels. Tests by the University of Nebraska Tractor Test
Laboratory found that rubber wheels resulted in a 25 percent
improvement in fuel economy. Rubber wheels also allowed
smoother, faster driving with less wear and tear on tractor
parts and the driver.
41. Market Share of Leading Wheel Tractor
Manufacturers by Decade
1910s 1920s 1930s 1940s 1950-55 Overall
John Deere 4.0% 6.4% 21.7% 17.0% 14.5% 14.5%
International Harvester 21.4% 28.6% 44.3% 32.7% 30.6% 32.5%
Ford 20.1% 44.2% 0.0% 7.9% 19.3% 16.7%
Massey-Ferguson 2.9% 1.9% 2.9% 14.7% 10.8% 9.1%
Case 7.2% 3.6% 7.4% 7.6% 5.1% 6.2%
Allis Chalmers 6.2% 3.5% 12.6% 9.7% 10.3% 9.1%
Oliver 2.1% 2.2% 5.0% 4.8% 5.4% 4.4%
Minneapolis Moline 8.0% 0.7% 2.9% 3.2% 3.6% 3.1%
All Others 28.0% 9.0% 3.2% 2.5% 0.2% 4.4%
Who is on top today?
44. Tractor production at IH's Farmall Works in Rock Island, IL ceased in May
1985. Production of the new Case IH tractors moved to the J.I. Case Tractor
Works in Racine, Wisconsin. Production of IH Axial-Flow combines
continued at the combine factory in East Moline, IL.
The combination of a 6 month strike starting in Nov 79, a sluggish economy and
internal corporate problems placed IH in a hole that left little way out. Things
only got worse until 1984, when the bitter end came. International Harvester,
following long negotiations, agreed to sell its agricultural products division to
Tenneco, Inc. on November 26, 1984. Tenneco had a subsidiary, J.I. Case, that
manufactured tractors, but lacked the full line of farm implements that IH
produced (combines, cotton pickers, tillage equipment…)
So…what happened to IH?
45. 1932 First pickup baler manufactured
The Ann Arbor Machine Company of Shelbyville, IIlinois,
manufactured the first pickup baler, based on a 1929 design by
Raymond McDonald. Six years later. Edwin Nolt developed and
marketed a self-tying pickup baler. The baler, attached to a
tractor, picked up cut hay in the field, shaped it into a 16-18-inch
bale, and knotted the twine that held the bale secure.
46. 1933 3 point hitch developed
A few years later, Ferguson’s company merged with
Canadian company Massey-Harris to form Massey-Ferguson.
The David Brown Company in
England was the first to build
tractors with a 3 pt hitch, but
Ferguson also demonstrated
the system to Henry Ford in the
United States. With a
handshake agreement, Ford
manufactured Ferguson’s
tractor and implements from
1939 to 1948.
Irish mechanic Harry Ferguson developed an innovative
hydraulic draft control system - the 3 point hitch which raised
and lowered attached implements and set their depth.
47. 1935 Rural Electrification Administration begins
bringing electricity to farms
President Roosevelt issued an executive order to create the
Rural Electrification Administration (REA), which formed
cooperatives that brought electricity to millions of rural Americans.
Within 6 years, the REA had aided the formation of 800 rural
electric cooperatives with 350,000 miles of power lines.
Electricity on the farm brought about dramatic change in the barn
(motors to run ventilation fans, pumps, conveyors, arc welders,
shop tools, lighting) and in the home (lights, radios, fans,
refrigerators, washing machines)
Rural and urban standards of living moved closer.
49. 1938 First self-propelled combine
The Massey-Harris MH-20 was one of the most significant
developments in harvesting history. The MH-20 introduced
the term “Combine harvester” and was the first serious
rival to tractor or horse drawn harvesting. There had been
earlier attempts to develop self-propelled harvesters but
none were commercial successes.
Over 900 MH-20s were
sold during its first 2
years on the market but
the smaller MH-21
introduced in 1941 was
much more popular.
Annual sales peaked at
>10,000 in 1949.
50. 1943 First commercially viable mechanical
spindle cotton picker
International Harvester built
"Old Red," the first commercially
viable mechanical spindle cotton
picker, invented and tested by
Texans John and Mack Rust
beginning in 1927.
The spindle picker featured
moistened rotating spindles that
grabbed cotton fibers from open
bolls while leaving the plant
intact. The cotton fibers are then
blown into waiting hoppers, free
of debris.
51. Have any of you read this book?
Denver worked as a share cropper
picking cotton by hand into the 1960s
52. About half
of the global
cotton crop is
still picked by
hand
Kyrgyzstan
Hand picked cotton
is normally picked
multiple times
improving the
quality of the
cotton
53. 1948 Center pivot irrigation invented
Colorado farmer Frank Zybach invented the center
pivot irrigation machine, which revolutionized
irrigation technology. The system consists of
sprinklers attached to arms that radiate from a water-
filled hub out to motorized wheeled towers in the
field. Zybach was awarded a patent in 1952 for the
"Self-Propelled Sprinkling Irrigating Apparatus."
# of acres irrigated in US quadrupled
54. Peak tractor sales in the US (~ 800,000) occurred in 1951
Tractor HP exceeded horse/mule power in ~ 1930
58. John Deere and
International
Harvester were the
first companies to
introduce corn
head attachments
for their combines.
1954 Corn head attachments for combines
Corn heads allowed farmers to use just one combine to
harvest small grain crops in the summer and corn and
soybeans in the fall but required new handling and
storage systems for shelled corn.
59. How many of you have ever seen a corn crib?
How many of you have ever seen a
corn crib full of ear corn?
When I was growing up in Maryland most
farms in our area still picked ear corn.
60.
61. Carl Seiler of Knox County, IL – National champion corn husker in 1932
62. Frank Hennenfent of Roseville, IL shortly after
winning the open class at Nationals in ‘08
64. 1956 Gyral air seeder patented
The Gyral air seeder, which planted seeds
through a pneumatic delivery system, was
patented in Australia. The technology eventually
evolved into large multi-row machines with a
trailing seed tank and often a second tank
holding fertilizers.
65. 1966 Electronic planter monitors
The DICKEY-JOHN Manufacturing Company introduced
electronic monitoring devices that allowed farmers to quickly
identify problems during planting. Attached to mechanical
planters and air seeders, the devices monitored the number
and spacing of seeds being planted.
During the 1990s, next generation devices were introduced
for yield mapping i.e., measuring and displaying the quality
and quantity of grain entering a combine.
66. Versatile was the first
company to mass-
produce articulated
four-wheel drive
tractors, starting in
1966 with the D100 and
G100
67. In 1966, George McKibben established no-till
plots at the U of IL Experiment Station in Dixon
Springs, IL. The plots are now named after
George McKibben. According to Don Holt,
former head of the University of Illinois
agronomy department, "These plots represent
a historic resource," and McKibben's research
on no-till was "probably the greatest single
contribution to control soil erosion“.
McKibben's no-till plots are the oldest
in Illinois and also globally.
Early Allis-Chalmers
no-till planter
Many conservation tillage tools were
developed in the 70s and 80s
70. 1995 Global Positioning Systems (GPS)
The U.S. Department of Defense began constructing a
network of satellites for positioning purposes in the 1970s.
Civilian use began in the 1980s. In 1995, GPS reached full
operational capability and farmers began using GPS
receivers to geo-reference soil sampling, crop scouting,
crop yield data…
In 1999, the first GPS
automated steering
system became
commercially available in
North America.
80. Automatic Milking Systems (AMS), also referred to as robotic milkers, were developed
in Europe and became available there in 1992. The technology was introduced to the
US in 2000 and the first robotic milker was installed on a Michigan farm in 2009.
In 2012, there were 10 dairy farms in Michigan using robotic milking technology.
With current designs, robotic milking
is most appealing to small and
medium-sized dairies. Farms with
hundreds of cows need to purchase
multiple robots, which is currently less
economical than hiring people to milk.
81. 10 Most Frequently Asked Questions About Robotic Milking of Dairy Cows
• How many cows will I have to cull because robots cannot milk
them?
• How long does it take cows to learn to use a robotic milking system
and what is involved in training?
• How will I know there is a problem with a cow, such as clinical
mastitis? And can the system separate unmarketable milk?
• But isn't this way more expensive than other milking systems?
• Do I need to build a new barn to use robotic milking?
• Does Robotic Milking require special feeding? Will it work with
TMR?
• Are there issues unique to North America?
• Are there special regulations for robotic milking?
• How good is milk quality from these herds?
• How will I spend my time, if there is no milking to do?
Jack Rodenburg - Dairy Cattle Production Systems Program Lead/OMAFRA
82. There is increasing awareness and development of agricultural robots around the
world. In these pages I will try to bring together the links to projects that I am aware
of. If you know of any links not included here, please let me know!
http://www.unibots.com/Agricultural_Robotics_Portal.htm
84. U of Illinois estimates
http://www.farmdoc.illinois.edu/manage/newsletters/fefo05_17/fefo05_17.pdf
How much fuel is required to perform field operations?
85. For 12 Long Years, ever since the EPA included off-highway diesel engines
on its hit list of polluters, engine makers have been scrambling, reviewing,
analyzing, redesigning and refining the science of compression ignition to
come up with the world's first smokeless tractor.
And let's just say, they've come a long way, baby. Those black puffs of
smoke that once characterized tractor exhaust have been reduced to a few
particles on a pinhead, thanks to technologies that better control the burning
of fuel.
But one more overhaul is required to get the regulated emissions down to
zero. EPA's final regulations for non-road diesel engines, known as Tier 4,
are at hand, and engineers say it's the toughest round yet.
86. The Tier 3 regulations reduced by 60% the emissions of the unregulated
engines produced just 12 years ago. Tier 4 requires a 90% reduction
in the levels of PM and NOx set by those Tier 3 standards.
“I always think of the white hankie test for carbon,” says Roger Gault,
technical director of the Engine Manufacturers Association (EMA).
“When you place a hankie over the exhaust, it will remain white if the
engine is compliant. Tier 4 engines will be that clean.”
Large engines rated over 174 hp will have the toughest time meeting the
requirements. Tractor engines this size will require not only advanced
engine technologies but also after-treatment of the exhaust gas.
Because this poses new problems — like how to fit all the new
components and plumbing under the narrow nose of a tractor — the
EPA has staggered the deadlines for this size category. The interim
deadline, which applies mostly to PM, comes up in 2011. The final
deadline, which includes the tougher limits on NOx, is set for 2014. All
farm vehicles with engine power ratings of 174 hp and above and
manufactured beginning on those dates must comply.
89. "It was not as easy as just taking a harvester and putting it out in their existing
field with the existing varieties. They had to change what they were growing,
their irrigation, fertilization—all sorts of things“
“We'd harvest in the daytime, and then we'd work all night putting it back together”
Nearly all of California's tomato crop was converted to machine harvest within ~ 5 yrs.
90. Failure of the Land Grant College Complex
Who benefited from public investment in
mechanized tomato harvesting?
94. largest ships carry
~18,000 containers
On any 1 day, > 20 million
containers are traveling at sea
Chinese goods, like Nike shoes, iPods and
Barbies are transported to the U.S. in
20&40-foot steel containers. Once
emptied, the containers pile up at major
transport hubs like Chicago. Grain
merchants have jumped on this opportunity
to back ship grain to China.