TY  - BOOK
AU  - Venkata Reddy H K
AU  - Manoj Mathew(Guide)
TI  - Design and development of a tractor drawn multi crop precision planter
U1  - 631.3 
PY  - 2022///
CY  - Tavanur
PB  - Department of Farm Machinery and Power Engineering, Kelappaji College of Agricultural Engineering and Technology
KW  - Power engineering
KW  - Farm machinery
KW  - Tractor drawn
KW  - Multi crop precision planter
N1  - PhD
N2  - Sowing accounts for 18.0 per cent of labour utilization in India which indicates 
that sowing of seeds is a highly labour-intensive operation. The major constraint in 
sowing is the non-availability of labour in time, especially, during peak periods of 
sowing and harvesting. Traditional methods of sowing involve sowing excess seeds 
and thinning the plants to obtain the desired plant population at uniform plant spacing. 
For obtaining high yield, it is very essential to drop the desired number of seeds in rows
maintaining accurate seed rate and seed spacing during metering. Among different 
sowing techniques, precision sowing is the preferred method, since it provides accurate 
spacing of single seeds in the row with proper planting depth and creating a uniform 
germination environment for each seed. 
In conventional planters the metering mechanism is usually driven by a ground 
wheel, to maintain the seed rate, irrespective of the forward speed. The speed ratio 
between the ground wheel and seed metering mechanism could not be maintained due 
to the power transmission loss, resulting in a reduction in uniformity of seed 
distribution. To solve the above problem, an alternative method of driving the metering 
mechanism with a 24 V DC motor was identified in this study. The metering unit was 
synchronized with the forward speed with the help of an encoder, Arduino Nano and 
crank-rocker linkage.
The performance of the seed-metering device of a multi crop precision planter 
was investigated under laboratory and field conditions to optimise the design and 
operating parameters for groundnut, maize, cowpea and okra seed planting. The effect 
of operational speed of the metering mechanism disc, forward speed and cell size were 
evaluated by examining the mean seed spacing, precision in spacing (coefficient of 
variation), miss index, multiple index, and highest quality of feed index. For picking 
single seed, the planter disc had a single cell of size 12 mm, 10 mm, 9 mm and 8 mm 
in diameter for groundnut, maize, cowpea and okra respectively. The metering disc 
peripheral speed was operated 0.86 m s-1
(165 rpm).
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It was observed that the optimum forward speed was 1.5, 2.5, 1.5 and 3.0 km h1
for groundnut, maize, cowpea and okra when the metering disc peripheral speed was 
at 0.86 m s-1
(165 rpm) and cell size was 10 % more than maximum seed dimension. 
However, there was conclusive statistical evidence to identify a single value of disc 
speed and cell size. Lower missing index were observed at highest cell size and lowest 
speed and low multiple index at low cell size and highest speeds. The metering 
mechanism with a peripheral speed of 0.86 m s-1
(165 rpm), and a 10 % more than 
maximum seed dimension for groundnut produced superior results with a miss index 2 
%, multiple index 2 %, precision index 9 % and maximum value of quality of feed index 
95 %. For maize, the minimum values of miss index 1 %, multiple index 2 %, precision 
index 9 % and maximum value of quality of feed index 94.5 % were observed for 
metering disc peripheral speed of 0.86 m s-1
and 10 % more than maximum seed 
dimension. For cowpea, the minimum values of miss index 1.5 %, multiple index 4 %, 
precision index 8.5 % and maximum value of quality of feed index 93.5 % were 
observed for metering disc peripheral speed of 0.86 m s
-1
and 10 % more than maximum 
of seed dimension. For okra, the minimum values of miss index 1 %, multiple index 3 
%, precision index 8 % and maximum value of quality of feed index 93.5 % were 
observed for metering disc peripheral speed of 0.86 m·s
-1
and 10 % more than 
maximum of seed dimension.
Based on the optimised operational parameters, performance indices of the multi 
crop precision planter was determined under field condition by measuring the 
distribution of seeds and its spacing. The minimum values of miss index 6 %, multiple 
index 4 %, precision index 12 % and maximum value of quality of feed index 87 %, 
emergence plant population index 93.82 % and average mean seed spacing 17.79 cm 
were observed for groundnut. For maize, the minimum values of miss index 5 %, 
multiple index 4 %, precision index 13 % and maximum value of quality of feed index 
87 %, emergence index 94.53 % and average mean seed spacing 27.39 cm were 
observed. For cowpea, the minimum values of miss index 5 %, multiple index 5 %, 
precision index 14 % and maximum value of quality of feed index 86 %, emergence 
index 95.82 % and average mean seed spacing 17.58 cm were observed. For okra, the 
minimum values of miss index 5 %, multiple index 4 %, precision index 15 % and 
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maximum value of quality of feed index 87 %, emergence index 95 % and average mean 
seed spacing 32.82 cm were observed. 
The maximum field capacity and efficiency were 0.54 ha hr-1
and 88 % 
respectively. The savings in cost and time for mechanical planting was about 89.1 % 
and 99.27 % compared to manual planting. Based on the field performance evaluation, 
it is concluded that the developed tractor drawn multi-crop precision planter is 
economical and efficient for planting different seeds
UR  - https://krishikosh.egranth.ac.in/handle/1/5810208838
ER  -