Agricultural Equipment Technicians


About

Exploring this Job

If a candidate lives in a farming community, they will already have some experience with farming equipment. Vocational agriculture education programs in high schools can be found in most rural settings, many suburban settings, and even in some urban schools. These schools teaching staff and counselors can provide considerable information about this career.

Light industrial machinery is now used in almost every industry. It is always helpful to watch machinery being used and to talk with people who own, operate, and repair it.

Summer and part-time work on a farm, in an agricultural equipment manufacturing plant, or in an equipment sales and service business offer opportunities to work on or near agricultural and light industrial machinery. Such a job may give you a clearer idea about this careers various activities, challenges, rewards, and possible limitations.

The Job

Agricultural equipment technicians work in a wide variety of jobs both on and off the farm. Most generally find employment in one of three areas: equipment manufacturing, equipment sales and service, or on-farm equipment management.

Equipment manufacturing technicians are primarily involved with designing and testing agricultural equipment, such as farm machinery, irrigation, power, and electrification systems, soil and water conservation equipment, and farm harvesting and processing equipment. Two kinds of technicians work in this field: agricultural engineering technicians and agricultural equipment test technicians.

Agricultural engineering technicians work under the supervision of design engineers. They prepare original layouts and complete detailed drawings of farming equipment. They also review plans, diagrams, and blueprints to ensure that new products comply with company standards and design specifications. They must use their knowledge of biological, engineering, and design principles to do this. They also must keep current on the new equipment and materials being developed for the industry to ensure the machines run at their highest capacity.

Agricultural equipment test technicians test and evaluate the performance of farm machinery and equipment. They make sure the equipment conforms to operating requirements, such as horsepower, resistance to vibration, and strength and hardness of parts. They test equipment under actual field conditions on company-operated research farms and more controlled conditions. They work with test equipment and recording instruments such as bend-fatigue machines, dynamometers, strength testers, hardness meters, analytical balances, and electronic recorders.

Test technicians are also trained to record the data gathered during these tests. They compute horsepower and tensile strength using algebraic formulas and report their findings using graphs, tables, and sketches.

After the design and testing phases are complete, other agricultural equipment technicians work with engineers to perform any necessary adjustments in the equipment design. By performing these functions under the general supervision of the design engineer, technicians do the engineers "detective work" so the engineers can devote more time to research and development.

Large agricultural machinery companies may employ agricultural equipment technicians to supervise production, assembly, and plant operations.

Most manufacturers market their products through regional sales organizations to individual dealers. Technicians may serve as sales representatives of regional sales offices, where they are assigned several dealers in a given territory and sell agricultural equipment directly to them. They may also conduct sales training programs for the dealers to help them become more effective salespeople.

These technicians are also qualified to work in sales positions within dealerships as equipment sales workers or parts clerks. They are required to perform equipment demonstrations for customers. They also appraise the value of used equipment for trade-in allowances. Technicians in these positions may advance to sales or parts manager positions.

Some technicians involved in sales become systems specialists who work for equipment dealerships. They assist farmers in the planning and installation of various kinds of mechanized systems, such as irrigation or materials-handling systems, grain bins, or drying systems.

Technicians may work as field service representatives in the service area, liaising between the companies they represent and the dealers. They assist the dealers in product warranty work, diagnose service problems, and give seminars or workshops on new service information and techniques. These service technicians may begin their careers as specialists in certain repairs. Hydraulic specialists, for instance, maintain and repair the parts of hydraulic systems in tractors and other agricultural machines. Diesel specialists rebuild, calibrate, and test diesel pumps, injectors, and other diesel engine components.

Many service technicians work as service managers or parts department managers. Service managers assign duties to the repair workers, diagnose machinery problems, estimate repair costs for customers, and manage the repair shop. Parts department managers in equipment dealerships maintain inventories of all the parts that may be requested by customers or the dealerships service departments. They deal directly with customers, parts suppliers, and dealership managers and must have good sales and purchasing skills. They also must be effective business managers.

Technicians working on the farm have various responsibilities, the most important of which is keeping machinery in top working condition during the growing season. During off-season periods, they may overhaul or modify equipment or maintain the machinery in good working order for the next season.

Some technicians find employment as on-farm machinery managers, usually working on large farms servicing or supervising the servicing of all automated equipment. They also monitor the field operation of all machines and keep complete records of costs, utilization, and repair procedures relating to the maintenance of each piece of mechanical equipment.