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Subject: Agricultural Engineering × Author: KAU × End date: 1996 × Start date: 1996 × Type: Thesis ×
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    ThesisItemOpen Access
    Design, fabrication and testing of a power operated paddy dibbler
    (Department of Farm Power Machinery and Energy, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 1996) Jayarajan, R; KAU; Jippu, Jacob
    A 2-row power operated paddy dibbler was designed, fabricated and tested at Kelapaji College of Agricultural Engineering and Technology, Thavanur. The main components of the dibbler were two seed boxes, plungers reciprocating within the seed tubes, fluted roller seed metering mechanism, dibbler wheels, stationary cam, frame and transport wheels. The seed tubes were fixed radially around the dibbler wheel with 45 mm of it projecting outwards for penetrating the soil. The plunger was actuated by a stationary cam and during its upward stroke it uncovered the farther end of the seed transfer tube and transferred the seeds into the seed tube and then into the holes made in the soil. In the downward stroke the plunger closed the seed transfer tube. Simultaneously the fluted roller transferred the seeds in to the seed transfer tube. The average speed of operation of the dibbler was 1.32 kmph and its field capacity and field efficiency were 0.031 ha/h and 78.18 per cent respectively. The average number of seeds dropped per hill was 5 and the seed rate obtained was 78 kg/ha. The seeds were placed within the confines of the holes made by the seed tube and plunger. There was absolutely no scattering. The depth of placement varied from 3.8 to 4.6 cm. The operating cost of the dibbler was Rs. 502.58/ha. This mechanism offers scope for developing dibblers with more number of rows for being operated more economically.
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    ThesisItemOpen Access
    Dynamics of power transmission in tractor mounted paddy reaper
    (Department of Farm Power Machinery and Energy, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 1996) Sushilendra; KAU; Sivaswami, M
    A tractor front mounted 2.2 m wide paddy reaper windrower was evaluated to find out the optimum forward speed, cutterbar speed, conveyor belt speed and engine speed for different field conditions to achieve better harvesting and windrowing pattern, Maximum field capacity and field efficiency with less harvesting losses. Three PTO pulleys of 17.78 cm, 19.03 cm and 20.32 cm diameter with internal splines were fabricated and used with an engine speed from 1000 to 2000 rpm with four gears in low range and first gear in high range. In addition to pneumatic tyres, a pair of special cage wheels and a simple collection unit were developed and evaluated. In water submerged fields with special cage wheels and PTO pulley of 17.78 cm diameter better results were observed when reaper was operated at an engine speed of 1500 rpm with third low gear with a forward speed of 0.95 m/s. The optimum cutterbar index and conveyor index were found to be 1.56 and 2.30 respectively. The actual field capacity was 0.38 ha/hr and field efficiency was 54 per cent. The crops were found to throw within 10 cm from the discharge plate with an tiller angle of more than 85 degree with only 1.54 per cent of total loss of grain. When the soil is moist and pneumatic wheels fail to give sufficient traction, the special cage wheels were used with a PTO pulley of 19.03 cm diameter. An engine speed of 1400 rpm with third gear and with a forward speed 0.90 m/s was found to give satisfactory performance. The optimum cutterbar index was 1.66 and conveyor index was 2.45. The reaper had the field capacity of 0.36 ha/hr with field efficiency of 53 per cent. The windrowed crop were found to throw within a distance of 13.5 cm with 85 degree of tillers angle with total grin loss of 1.55 per cent. For dry fields, the reaper with pneumatic wheels was found to operate satisfactorily with 20.32 cm diameter PTO pulley at an engine speed of 1300 rpm with fourth gear and with a forward speed of 1.00 m/s. The optimum cutterbar index was 1.48 and conveyor index was 2.19. The actual field capacity was 0.38 ha/hr and field efficiency was 50.66 per cent. The tillers angle was 85 degrees with total grain loss of 1.62 per cent. It is found that the better field performance was achieved when the reaper is operated at a cutterbar speed of 1.50 m/s and conveyor belt speed of 2.20 m/s. A simple crop collection unit of size 1. 5m x 0.7m x 0.35m was developed with the provision for conveying the windrowed crop directly into the collection box. The unit was field evaluated with reaper. The box was found to fill within 10 m of travel and problems were observed in its manoeuv reability, loading and unloading of box and increased idle time.
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    ThesisItemOpen Access
    Development and evaluation of a low cost power operated paddy thresher-cum-winnower
    (Department of Farm Power Machinery and Energy, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 1996) Sureshkumar, P K; KAU; Sankaranarayanan, M R
    Since threshing is labour intensive and involves considerable human drudgery and as the threshers now available are not suitable for small and marginal farmers, a Low Cost Power Operated Paddy Thresher Cum Winnower has been developed and tested. The machine consists of a threshing unit of wire loop cylinder and cover, a winnowing unit, a grain collecting tray, prime mover, power transmission system and the main frame. The power required to operate the machine is taken from a 2 hp electric motor and is transmitted to the cylinder and blower shafts by V- belt and pulley arrangement. Two labourers can hold the crop against the threshing cylinder. The optimum cylinder speed is 400 rpm. The capacity of the thresher at 16.0 per cent moisture content of the crop is 300 hg per hour. Threshing and cleaning efficiencies are 99.25 and 91.82 per cent respectively. Mechanical damage to the grain is negligible. The labour requirement of the thresher cum winnower is two. The cost of the thresher cum winnower was found out to be around Rs 8000.00 and the cost of operation for threshing and winnowing was Rs 8.50 per quintal. An empirical relation between the energy requirement of the thresher and various crop and thresher parameters is P = 931.035 + 4.683 (MC) – 0.462 (PV) – 1.169 (FR) + 8.251 (G/S ratio) The moisture content of the crop and the Feed Rate have statistically significant effect on power Requirement whereas the cylinder speed and Grain/Straw ratio do not have any statistically significant effect.