000 02195nam a22002657a 4500
003 OSt
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008 230802b |||||||| |||| 00| 0 eng d
040 _aTUPM
_beng
_c-
050 _aBTH TJ 230
_bB38 2019
100 _aBote, King Michael T.
245 _aDesign and Fabrication of a Combine Palay Harvester/
_cKing Michael T. Bote [and four others].
264 _aManila:
_bTechnological University of the Philippines,
_c2019.
300 _a70 pages ;
_c28 cm.
_e+1 CD-ROM (4 3/4 in.)
500 _aThesis (Undergraduate)
502 _aCollege of Engineering--
_bBachelor of Science in Mechanical Engineering,
_cTechnological University of the Philippines,
_d2019
520 3 _aGiven the demand of rice is always high, both local and international, several researches and studies were conducted to find a faster and effective way of harvesting rice to satisfy the demand of the product locally or globally. Similarly, this study aims to develop a low-cost harvesting machine that can be used as an alternative to some of the existing machineries that can be bought in the market. The design considered a flexible palay harvester that can be both used to a dry and wet paddy field. Within this context, different wheels are considered to come up to the most appropriate type of wheels that can be effective in two given conditions. The machine consists of four (4) major components: the reel, the cutting unit, the conveyor, and the threshing unit. The four components were driven by a 7-hp gasoline engine for its full operation starting from the reel and cutting unit, to the conveyor, up to the threshing unit. The gathered grains were stored at a sack attached to the threshing unit for storing. The sacks can be replaced after it is filled with grains. The machine has a Cutting capacity of 63 hours per hectare and a Threshing capacity of 96 kg/hr at full operation.
650 _aDesign and Fabrication
_xMechanical Engineering
650 _aPalay Harvester
_xMechanical Engineering
700 _aHerween Jake N. Lescano
700 _aKenneth B. Lozada
700 _aCarlo F. Macababat
700 _aJohn Kenneth L. Sapungan
942 _2lcc
_cBTH COE
_n0
999 _c28049
_d28049