Abstract
Olive harvesting is the most expensive cultivation operation in areas where full mechanization is not possible due to structural conditions such as low tree density, old trees, irregular spacing, and terraced fields, which are very frequent in many small Italian farms. Under these conditions the use of hand-held vibrating harvesters is quite wide spread, because they are capable of approximately three times the productivity of workers using manual harvesting methods. Unfortunately, the use of these machines exposes the operators to hand-arm vibration risk and acceleration values are affected by several factors, including harvester kinematics, rod material and geometry, and load conditions. In this study several models of electrical portable harvesters, obtained by combining six harvester heads and four rods (one telescopic), were tested under idling and load conditions, measuring acceleration values on the rod, near the hand positions. Assuming the use of the machinery for 4 h per day, the result is a level of daily vibration exposure A(8) for the most exposed hand ranging from about 11 to 40 m/s2, much higher than the daily exposure limit value of 5 m/s2 stated by the European Directive 2002/44/EC. With the same harvester head, reduction in vibration may be achieved by using carbon fiber rods rather than aluminum ones or by increasing the rod diameter. The most significant reduction is achievable by designing harvester heads whose kinematics inherently incorporate oscillation compensation.
Highlights
Olive cultivation in Italy produces approximately 2,500,000 tons and the cultivated surface is about 1,160,000 ha [1], mainly concentrated in the centre-south of the peninsula
Considering the harvester heads, mean acceleration total value ranged from 26.49 m/s2 (H2) to 32.76 m/s2 (H3)
36.32 a 34.23 ab 45.74 a Ftoigrus r(em4e.aMnesaenpaacrcaetiloernatbioynKtorutaslkvaal–luWeaslwlisittheshtaravtepst=er 0h.e0a5dlsevHe1l;–H(n3s)a:ccdoirfdfeirnegntcoesthneomt saiignnfiaficctoanrst; ((m**e*)a:ndsifefpearernatcieosnsbigynKifircuasnktaal–tWp =al0li.s00te1slteavtepl).= 0.05 level;: differences not significant; (***): differencTeshseiginntifeircaancttiaotnps=b0e.t0w01eleenvetlh).e harvester head and the other main factors are summarizedCionnTsaidbeleri5n.g the harvester heads, mean acceleration total value ranged from 26.49 mTa/bs2le(H5.2) Atocc3e2le.7ra6timon/s2to(tHal3v).aHluoesw(emve/rs,2)acwcoitrhdhinagrvteosttehrehKeardusskHa1l–-HW3al(lmisetaensts,edpiafrfaetrieonncebsy bKertuwskeaeln–Wthaellihsatervstefsotrereahcehaidnstewraectrieonn:omt esatantsiswtiicthaltlhyessiagmneifilectatnert.aTrehneodt isftfaetrisetniccaelslydduifefetroentthaet rpo=d0t.y0p5elewveelr).e statistically significant
Summary
Olive cultivation in Italy produces approximately 2,500,000 tons and the cultivated surface is about 1,160,000 ha [1], mainly concentrated in the centre-south of the peninsula. Olive cultivation incurs high production costs, mainly during the harvesting phase. Harvesting costs decrease with the increase in mechanization level. In olive groves where high levels of mechanization are not possible, the use of hand-held vibrating harvesters is quite spread. These machines are approximately capable of increasing by three times the productivity of workers using manual harvesting methods, and they reduce harvesting costs [6]
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