RU2064235C1 - Trailed rotary double-chop forage harvester - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: chopper-blower 11 is installed on extension 9 of output shaft 10 of conical reduction gear 8. Pulley 13 of belt drive 14 of mowing and mincing rotor 5 is installed on other extension of above-indicated shaft. Output shaft 18 of conical reduction gear 8 is connected with hitch frame shaft by overrunning clutch and safety friction clutch 22 interconnected by propeller shaft 23. EFFECT: increased efficiency of use of harvester width. 1 cl, 3 dwg

Description

 The invention relates to agricultural machinery, namely, to rotary forage harvester trailers of double grinding.

 A known design of a rotary forage harvester trailer double grinding combine, including a frame with support wheels, on which are located a mowing grinding rotor, a screw, a grinding-throwing apparatus, a silo conduit, a copy mechanism, a bevel gear, freewheels and a safety, belt and chain gear and a grommet for aggregation with energy means, in which the bevel gear is connected to the grinding and throwing apparatus through a freewheel, a cardan shaft and a safety clutch th coupling (see. company brochure "harvesting -izmelchitel mower" A model 72, USA, 1978).

 The disadvantage of this design is the low efficiency of using the width of the harvester of a rotary fodder trailed double grinding, because it consists, in addition to the working width, of the width of the grinding and throwing apparatus, the widths of the gearbox, chain and belt drives, the widths of the overrunning clutch, the friction clutch and the length of the propeller shaft, as well as the width of the left support wheel.

 There is also known the design of a rotary fodder harvester trailer for double grinding, including a frame with support wheels, on which are located a mowing and grinding rotor, a screw, a grinding and throwing apparatus, a silo conduit, a copy mechanism, a bevel gear, which is connected to a grinding and throwing apparatus, a freewheel , a driveshaft and a safety friction clutch, belt and chain gears and a grip for aggregation with energy.

 In a known construction, the left support wheel is located in the drive zone and does not increase the width of the combine (see Sperry New Holland's prospectus “Double-Shredder Mower-Grinder”, Model 339, 342 USA, 1984).

 A disadvantage of the known design is also the low efficiency of using the width of the harvester of a rotary fodder trailed double grinding, because it consists, in addition to the working width of the grip, of the width of the grinding and throwing apparatus, the width of the gearbox, chain and belt drive, the width of the freewheel, the safety friction clutch and the length of the driveshaft.

 The aim of the invention is to increase the efficiency of using the width of the rotary trailed double chopper combine by eliminating the dimensions of the freewheel, the safety friction clutch and the length of the driveshaft from the width of the harvester of the rotary forage trailed double chopping.

 This goal is achieved due to the fact that the chopping-throwing apparatus is installed on one shank of the specified output shaft of the bevel gear, and the belt pulley of the drive of the bevel-chopping rotor on the other shank of the specified shaft, and the drive shaft of the bevel gear is connected to the shaft of the grip by means of a freewheel and a safety friction clutch connected by a cardan shaft.

 In FIG. 1 shows a rotary forage harvester trailed double chopper, side view in FIG. 2 same, top view in FIG. 3 - layout of the nodes of the harvester rotary trailed double grinding.

 Support wheels 2 and 3, a copying mechanism 4, a mowing and grinding rotor 5, a screw 6, a silo 7, a bevel gear 8, on the shank 9 of the output shaft 10 of which the grinding and throwing apparatus 11 is mounted, are fixed on the frame 1 of the rotary forage harvester trailer double grinding combine and on the shank 12, the pulley 13 of the belt drive 14 of the drive of the mowing and grinding rotor 5, the chain gear 15, the gusset 16 connecting the frame 1 with the power tool 17 and transmitting rotation to the input shaft 18, the bevel gear 8 through the cardan gear 19, the bottom shaft s 20, the overrunning clutch 21 and a slipping clutch 22 connected to the propeller shaft 23.

 Combine rotary fodder trailed double grinding works as follows.

 The energy means 17 moves by means of a scraper 16, which is in position I, a rotary forage harvester of a trailed double grinding in the field on the support wheels 2 and 3 and through the cardan drive 19, the shaft of the scraper 20, the freewheel 21, the cardan shaft 23, the friction clutch 22 , bevel gear 8, belt drive 14 and chain transmission 16 gives the rotational movement to the mowing-grinding rotor 5, the screw 6 and the grinding-throwing apparatus 11.

 The mowing and grinding rotor 5 mows, grinds and feeds the crop to the screw 6. The auger 6 transports the pre-shredded crop to a chopping-and-dropping apparatus 11, which re-shreds it through a silo 7, and puts it in a vehicle (not shown in Fig.).

 During transport crossings, the scraper 16 is moved to position II and the width of the unit is reduced, including a double-chopped rotary forage harvester and energy means 17, which is equal to the width of a double-rotor forage harvested trailer.

 The installation of the chopping-throwing apparatus 11 on the shank 9, and the pulley 13 on the shank 12 of the output shaft 10 of the bevel gear 8 and the connection of the input shaft 18 of the bevel gear 8 with the grip shaft 20 via the freewheel 21, the cardan shaft 23 and the friction clutch 22 will increase the efficiency of using the width of the rotary forage harvester trailed double grinding combine, since the width of the overrunning clutch 21 is excluded from the width of the rotary forage harvesting trailer double grinding combine, safety friction clutch 22 and connecting the driveshaft 23.

 Using the invention will allow to increase the width of the harvester of the rotary fodder trailer double grinding while maintaining its width or to reduce its dimensions in width while maintaining the width of the grip, which in the first case will increase its productivity, and in the second reduce its material consumption and increases the safety of movement on general purpose roads.

 Securing the pulley 13 on the shank 12 of the output shaft 10 of the bevel gear 8 provides free access to the belt drive 14, which reduces the complexity of its maintenance.

Claims (1)

 Combined rotary fodder harvester of double grinding, including frame, support wheels, bale box with cardan drive and shaft, mowing and grinding rotor, auger, grinding and throwing device, silo, bevel gear, belt and chain transmission, freewheeling and friction couplings, cardan shaft characterized in that the grinding-throwing apparatus is mounted on one shaft of the output shaft of the bevel gear, and the pulley of the belt drive of the drive of the grinding-grinding rotor on the other shaft of the shaft, m the input shaft of the bevel gear is connected to the shaft of the spokes via a freewheel and a safety friction clutch connected to the cardan shafts.

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