CN204031816U - A kind of power drive system of cutting vertical stream twin-roll all feeding-in combine - Google Patents
A kind of power drive system of cutting vertical stream twin-roll all feeding-in combine Download PDFInfo
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- CN204031816U CN204031816U CN201420418557.2U CN201420418557U CN204031816U CN 204031816 U CN204031816 U CN 204031816U CN 201420418557 U CN201420418557 U CN 201420418557U CN 204031816 U CN204031816 U CN 204031816U
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- 230000005540 biological transmission Effects 0.000 claims abstract description 86
- 230000007704 transition Effects 0.000 claims abstract description 20
- 239000010902 straw Substances 0.000 claims description 11
- 235000013339 cereals Nutrition 0.000 description 20
- 239000000463 material Substances 0.000 description 9
- 238000010586 diagram Methods 0.000 description 6
- 239000000203 mixture Substances 0.000 description 4
- 238000000926 separation method Methods 0.000 description 4
- 238000004140 cleaning Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 241000196324 Embryophyta Species 0.000 description 1
- 241000209094 Oryza Species 0.000 description 1
- 235000007164 Oryza sativa Nutrition 0.000 description 1
- 240000000359 Triticum dicoccon Species 0.000 description 1
- 230000001133 acceleration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002955 isolation Methods 0.000 description 1
- 238000010030 laminating Methods 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 235000009566 rice Nutrition 0.000 description 1
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Abstract
The utility model provides a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine, the stressed larger parts such as cut flow roller, power input shaft, engine and gearbox adopt two-side transmission, increase the reliability of transmission, reduce transmission power consumption penalty, improve the efficiency of crop of complete machine.Turning to bevel gear box I by increasing, turning to bevel gear box II and the second final drive shaft, change the monolateral drive mechanism that tradition is complicated, adopt cut flow roller two-side transmission mode, the simple stationarity simultaneously improving complete machine transmission is become making drive mechanism, reduce vibration, reduce noise, effectively can improve the reliability of work.By reducing transition transmission device, cancelling Chain conveyer and the belt transmission of long distance, adopting short distance Chain conveyer belt transmission, thus reduce the power consumption penalty in the transmission of long distance, improve the operating efficiency of complete machine.
Description
Technical field
The utility model relates to a kind of transmission system of combine, is a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine concretely.
Background technology
In recent years along with the continuous expansion of Monitoring of Paddy Rice Plant Area, the raising of output and the universal of high-yield rice, require that combined harvester is under the prerequisite ensureing superperformance, to efficient, high-power, large feed quantity future development, to boost productivity, transaction capabilities and the efficiency of this Combine Harvester are had higher requirement.
The full feed type that China developed in recent years is cut vertical stream combined harvester and is adopted advanced cutting to flow and longitudinal axial flow Combined threshing isolation technics, the long separating area of threshing stroke is large, can boost productivity when not increasing body volume, threshing performance height percentage of damage is low, good to moist difficult de-crop adaptability, present Production requirement can be met; And now traditional at present type cutting vertical stream twin-roll is all the mode of the unilateral transmission taked, the transmission of this form, transmission distance, need to increase transition transmission could realize, this makes drive path become more complicated and changeable, also virtually adding manufacturing cost, transmission increases the loss of power in transmission at a distance simultaneously; And while increase transition transmission, reliable transmission also reduces, and directly can affect efficiency of crop; And the drive mechanism of this form due to transmission distance, progression many, noise and vibration all must inevitably increase.
Utility model content
The purpose of this utility model overcomes the technical disadvantages that in above-mentioned rice-wheat combine harvester tool, transmission system exists, a kind of basis of cutting vertical stream twin-roll all feeding-in combine that can meet the requirement of large feed quantity results proposes a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine, meeting the most rational kind of drive of utilization and structure while combine results require, reducing the loss of power consumption and ensure the operating efficiency of machine.
For realizing above target, the technical solution adopted in the utility model is: a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine, it is characterized in that, comprise mowing-apparatus, gearbox, engine, jackshaft, cut flow roller, turn to bevel gear box I, second final drive shaft, blower fan, tilting longitudinal axial flow roller, grass-smashing reamer power transmission shaft, defeated grain screw feeder, tailing auger, vibratory sieve, upper shake backhaul plate and unloading screw conveyor, described engine left end delivery outlet is provided with engine power and exports five groove belt pulleys, described engine power export five groove belt pulleys by belt connect described jackshaft right-hand member arrange power input five groove belt pulleys, the left end of described jackshaft is provided with Power output duplex chain wheel and Power output two-groove belt pulley, described Power output duplex chain wheel connects the cut flow roller power input double-row chain sprocket that described cut flow roller left end is arranged, described blower fan left end arranges blower fan power input two-groove belt pulley, described defeated grain screw feeder left end arranges defeated grain screw feeder power input two-groove belt pulley, described Power output two-groove belt pulley, blower fan power input two-groove belt pulley is connected by belt with defeated grain screw feeder power input two-groove belt pulley, the left end of described defeated grain screw feeder also arranges defeated grain screw feeder power output sprocket, the left end of described tailing auger arranges tailing auger power input sprocket and tailing auger power output sprocket, described defeated grain screw feeder power output sprocket connects described tailing auger power input sprocket, described vibratory sieve left end arranges vibratory sieve power input sprocket, described upper shake backhaul plate left end arranges shake backhaul plate power input sprocket, described tailing auger power output sprocket, vibratory sieve power input sprocket is connected by chain with upper shake backhaul plate power input sprocket,
Bevel gear box I is turned to described in the right-hand member connection of described cut flow roller, the described bevel gear box I that turns to turns to bevel gear box II described in described second final drive shaft connection, and on described second final drive shaft, fixed conveyor gear described in fixed conveyor gear is connected by the chain drive wheel of chain with described tilting total stream roller input;
The described output shaft stationary power of bevel gear box II that turns to exports single groove belt pulley, and the grass-smashing reamer power transmission shaft power that described Power output list groove belt pulley connects the setting of described grass-smashing reamer power transmission shaft right-hand member inputs single groove belt pulley;
The left end of described cut flow roller also fixes cut flow roller Power output two-groove belt pulley, and described cut flow roller Power output two-groove belt pulley connects the power input shaft of described defeated mowing-apparatus.
Further, the chain of described connection tailing auger power output sprocket, vibratory sieve power input sprocket and upper shake backhaul plate power input sprocket and described tailing auger power output sprocket and vibratory sieve power input sprocket inscribe, with described upper shake backhaul plate power input sprocket, and vibratory sieve power input sprocket is identical with the number of teeth of upper shake backhaul plate power input sprocket.
Further, described mowing-apparatus comprises: delivery chute, ceding of Taiwan power transmission shaft, cutting table auger, cutter and straw shift wheel, described delivery chute comprises power input shaft, the left end of described power input shaft fixes delivery chute power input two-groove belt pulley, described delivery chute power input two-groove belt pulley connects described cut flow roller Power output two-groove belt pulley, the right-hand member of described power input shaft fixes delivery chute power output sprocket, described delivery chute power output sprocket connects the ceding of Taiwan power transmission shaft power input sprocket that described ceding of Taiwan power transmission shaft left end is arranged, described ceding of Taiwan power transmission shaft right-hand member arranges ceding of Taiwan power transmission shaft power output sprocket, described ceding of Taiwan power transmission shaft power output sprocket connects the cutting table auger power input sprocket that described cutting table auger right-hand member is arranged, the right-hand member of described cutting table auger is also fixed with cutting table auger Power output list groove belt pulley, the straw shift wheel power that described cutting table auger Power output list groove belt pulley connects described straw shift wheel right-hand member fixing inputs single groove belt pulley.
Further, belt stretcher I is fixed between described cut flow roller Power output two-groove belt pulley and delivery chute power input two-groove belt pulley, fixed chain wheels tensioning apparatus I between described Power output duplex chain wheel and cut flow roller power input double-row chain sprocket, belt stretcher II is fixed between described blower fan power input two-groove belt pulley and defeated grain screw feeder power input two-groove belt pulley, fixed chain wheels tensioning apparatus II between described defeated grain screw feeder power output sprocket and tailing auger power input sprocket, fixed chain wheels tensioning apparatus III between described tailing auger power output sprocket and vibratory sieve power input sprocket.
Further, described engine left end is also provided with engine power and exports four groove belt pulleys, and described engine power exports four groove belt pulleys and inputs four groove belt pulleys with the gearbox dynamic on described gearbox and be connected; Described gearbox is connected with the driving wheel on the crawler belt of both sides respectively by power drive semiaxis.
Further, also comprise transition axis and unloading screw conveyor, the right-hand member delivery outlet of described engine is provided with engine power and exports single groove belt pulley, described engine power exports single groove belt pulley and inputs single groove belt pulley with the transition axis power of described transition axis right-hand member and be connected, and the transition axis power output sprocket of described transition axis left end is connected with the unloading screw conveyor power input sprocket of described unloading screw conveyor left end.
The beneficial effects of the utility model are: on the stressed larger parts such as cut flow roller, power input shaft, engine and gearbox, adopt two-side transmission, increase the reliability of transmission, reduce transmission power consumption penalty, improve the efficiency of crop of complete machine.
Turning to bevel gear box I by increasing, turning to bevel gear box II and the second final drive shaft, change the monolateral drive mechanism that tradition is complicated, adopt cut flow roller two-side transmission mode, the simple stationarity simultaneously improving complete machine transmission is become making drive mechanism, reduce vibration, reduce noise, effectively can improve the reliability of work.
By reducing transition transmission device, cancelling Chain conveyer and the belt transmission of long distance, adopting short distance Chain conveyer belt transmission, thus reduce the power consumption penalty in the transmission of long distance, improve the operating efficiency of complete machine.
Make vibratory sieve turn to contrary with upper shake backhaul plate by tensioning apparatus, thus reach the effect that vibratory sieve and upper shake backhaul plate play front and back crisscross motion, facilitate the even laminating of material, thus improve the cleaning efficiency of complete machine and the clean rate of seed.
Accompanying drawing explanation
Fig. 1 is a kind of overall arrangement transmission schematic diagram cutting vertical stream twin-roll all feeding-in combine.
Fig. 2 is that one cuts transmission schematic diagram on the left of vertical stream twin-roll all feeding-in combine.
Fig. 3 is material cutting transmitting power transmission system schematic diagram.
Fig. 4 is material threshing separation and crushed stalk power drive system schematic diagram.
Fig. 5 is steering box internal connection configurations figure.
Fig. 6 deviates from mixture to clean and grain transportation power drive system schematic diagram.
Fig. 7 is chassis walking power drive system schematic diagram.
In figure: 1, straw shift wheel, 101, straw shift wheel power inputs single groove belt pulley, and 2, cutter, 3, cutting table auger, 301, cutting table auger power input sprocket, 302, cutting table auger Power output list groove belt pulley, 4, ceding of Taiwan power transmission shaft, 401, ceding of Taiwan power transmission shaft power input sprocket, 402, ceding of Taiwan power transmission shaft power output sprocket, 5, delivery chute, 501, delivery chute power input two-groove belt pulley, 502, delivery chute power output sprocket, 6, gearbox, 601, gearbox dynamic inputs four groove belt pulleys, and 602, power drive semiaxis, 603, driving wheel, 7, engine, 701, engine power exports five groove belt pulleys, and 702, engine power exports four groove belt pulleys, and 703, engine power exports single groove belt pulley, and 8, transition axis, 801, transition axis power inputs single groove belt pulley, and 802, transition axis power output sprocket, 9, first final drive shaft, 901, Power output duplex chain wheel, 902, power inputs five groove belt pulleys, and 903, Power output two-groove belt pulley, 10, cut flow roller, 1001, cut flow roller power input double-row chain sprocket, 1002, cut flow roller Power output two-groove belt pulley, 11, turn to bevel gear box I, 1101, bevel-gear sett, 12, second final drive shaft, 1201, second final drive shaft power output sprocket, 13, tilting longitudinal axial flow roller, 1301, tilting longitudinal axial flow roller power input sprocket, 14, turn to bevel gear box II, 1401, Power output list groove belt pulley, 1402, power input bevel gear, 1403, Power output bevel gear, 15, grass-smashing reamer power transmission shaft, 1501, grass-smashing reamer power transmission shaft power inputs single groove belt pulley, and 16, blower fan, 1601, blower fan power input two-groove belt pulley 17, defeated grain screw feeder, 1701, defeated grain screw feeder power input two-groove belt pulley, 1702, defeated grain screw feeder power output sprocket, 18, tailing auger, 1801, tailing auger power input sprocket, 1802, tailing auger power output sprocket, 19, vibratory sieve, 1901, vibratory sieve power input sprocket, 20, upper shake backhaul plate, 2001, upper shake backhaul plate power input sprocket, 21, unloading screw conveyor, 2101, unloading screw conveyor power input sprocket, 22, crawler belt, 23, belt stretcher I, 24, sprocket tension device I, 25, belt stretcher II, 26, sprocket tension device II, 27, sprocket tension device III, 28, adpting flange, 29, travelling gear, 30, power input shaft.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.
As shown in Figure 1, a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine, power is delivered on the first final drive shaft 9 and gearbox 6 by engine 7 respectively, by the first final drive shaft 9 and gearbox 6, power distributed respectively again, comprise material cutting transmitting power transmission system, material threshing separation and crushed stalk power drive system, deviate from mixture and clean and grain transportation power drive system, chassis walking power drive system.
Described material cutting transmitting power transmission system is by straw shift wheel 1, cutter 2, cutting table auger 3, ceding of Taiwan power transmission shaft 4 and delivery chute 5 form, material threshing separation and crushed stalk power drive system are by cut flow roller 1, turn to bevel gear box I 11, second final drive shaft 12, tilting longitudinal axial flow roller 13, bevel gear box II 14 and grass-smashing reamer power transmission shaft 15 is turned to form, deviate from mixture clean and grain transportation power drive system by blower fan 16, defeated grain screw feeder 17, tailing auger 18, vibratory sieve 19, upper shake backhaul plate 20 and unloading screw conveyor 21 form, chassis walking power drive system is by gearbox 6, jack shaft 602 and crawler belt 22 form.
As Fig. 2, shown in Fig. 3, the kind of drive of material cutting transmitting power transmission system is: power inputs five groove belt pulleys 902 by Power output five groove belt pulley 701 power connected on the first final drive shaft 9 on engine (7) and is delivered on the first final drive shaft 9, the power input double-row chain sprocket 1001 connected on the left of cut flow roller 10 by the Power output duplex chain wheel 901 of the first final drive shaft 9 upper left side is again delivered to cut flow roller 10, chain is by sprocket tension device I 24 tensioning, two-groove belt pulley 501 is inputted by transmission of power to delivery chute 5 again by the power connected on delivery chute on the left of in the of 5 of the Power output two-groove belt pulley 1002 on the left of cut flow roller 10, belt is by belt stretcher I 23 tensioning, the power input sprocket 401 being connected ceding of Taiwan power transmission shaft 4 upper left side by the power output sprocket 502 on the right side of delivery chute 5 by transmission of power on ceding of Taiwan power transmission shaft 4, ceding of Taiwan power transmission shaft 4 passes through handle connecting rod by transmission of power to cutter 2, power input sprocket 301 on the right side of cutting table auger 3 is connected by transmission of power to cutting table auger (3) again by the power output sprocket 402 on right side on ceding of Taiwan power transmission shaft 4, finally input single groove belt pulley 101 by transmission of power on straw shift wheel 1 by Power output list groove belt pulley 302 power connected on the right side of straw shift wheel 1 on cutting table auger (3) right side.
As Fig. 2, shown in Fig. 4 and Fig. 5, the kind of drive of material threshing separation and crushed stalk power drive system is: power inputs five groove belt pulleys 902 by Power output five groove belt pulley 701 power connected on the first final drive shaft 9 on engine 7 and is delivered on the first final drive shaft 9, the power input double-row chain sprocket 1001 connected on the left of cut flow roller 10 by the Power output duplex chain wheel 901 of the first final drive shaft 9 upper left side is again delivered to cut flow roller 10, chain is by sprocket tension device I 24 tensioning, again by turning to bevel gear box I 11 to carry out constant speed to turn to transmission of power on the second final drive shaft 12 on the right side of cut flow roller 10, the power input sprocket 1301 being connected tilting longitudinal axial flow roller 13 afterbody by the power output sprocket 1201 on the second final drive shaft 12 by transmission of power on tilting longitudinal axial flow roller 13, by being connected to the second final drive shaft 12 turns to bevel gear box II 14 to carry out acceleration to turn to simultaneously, last by turning to Power output list groove belt pulley 1401 power connected on the right side of grass-smashing reamer power transmission shaft 15 on bevel gear box II 14 to input single groove belt pulley 1501 by transmission of power on grass-smashing reamer power transmission shaft 15, and turning to bevel gear box I 11 power intake to be connected on cut flow roller axle 1003, clutch end is connected on the second final drive shaft 12, and turning to the number of teeth of the bevel-gear sett 1101 of bevel gear box I 11 identical, is that constant speed turns to transmission, bevel gear box II 14 power intake is turned to be connected on the power output sprocket 1201 on the second final drive shaft 12 by adpting flange 28, turn to the number of teeth of the bevel-gear sett of bevel gear box II 14 not identical, power input bevel gear 1402 number of teeth is greater than Power output bevel gear 1403 number of teeth, is that speedup turns to transmission.
As Fig. 2, shown in Fig. 6, deviate from mixture to clean and the kind of drive of grain transportation power drive system is: power inputs five groove belt pulleys 902 by Power output five groove belt pulley 701 power connected on the first final drive shaft 9 on the left of engine 7 and is delivered on the first final drive shaft 9, input single groove belt pulley 801 by transmission of power on transition axis 8 by Power output list groove belt pulley 703 power connected on the right side of transition axis 8 on the right side of engine 7 simultaneously, unloading screw conveyor power input sprocket 2101 is connected by transmission of power on unloading screw conveyor 21 by the power output sprocket 802 on the left of transition axis 8, two-groove belt pulley 1701 is inputted by transmission of power on blower fan 16 and defeated grain screw feeder 17 by the power inputted on the left of two-groove belt pulley 1601 and defeated grain screw feeder 17 of the power on the left of Power output two-groove belt pulley 903 connecting fan 16 of the first final drive shaft 9 upper left side at left side power, belt is by belt stretcher II 25 tensioning, power input sprocket 1801 on the left of tailing auger 18 is connected by transmission of power on tailing auger 18 by the power output sprocket 1702 on the left of defeated grain screw feeder 17, chain is by sprocket tension device II 26 tensioning, the power input sprocket 1901 on the left of vibratory sieve 19 and the power input sprocket 2001 on the left of upper shake backhaul plate 20 is connected by transmission of power on vibratory sieve 19 and upper shake backhaul plate 20 finally by the power output sprocket 1802 on the left of tailing auger 18, chain is by sprocket tension device III 27 tensioning, make vibratory sieve 19 contrary with upper shake backhaul plate 20 rotation direction.
As shown in Figure 7, the chassis walking power drive system kind of drive is: power inputs four groove belt pulleys 601 by transmission of power to (6) on gearbox by Power output four groove belt pulley 702 power connected on gearbox 6 on the left of engine 7, then is driven the driving wheel 603 of connecting band track 22 by the power drive semiaxis 602 on gearbox 6.
Power drive system of cutting vertical stream twin-roll all feeding-in combine of the present utility model, by to the configuration of each workpiece of whole machine and the analysis of relative position, take engine as the core of complete machine workpiece power, by the power distributional effects of the first final drive shaft, the power of engine is divided into four major parts, a part transmission of power on underpan walking device, a part passes to power on each workpiece of the ceding of Taiwan, a part passes to threshing power and is separated on reducing mechanism, and another part passes to power on cleaning plant; And according to the configuration of each workpiece and relative position relation and kinematic parameter, bevel gear box and a final drive shaft is turned to by two, be two-side transmission by transmission arrangments, to make the drive path of complete machine more reasonable, simple and reliable, reduce the loss of transmission power consumption simultaneously, improve the efficiency of crop of complete machine.
Claims (6)
1. cut the power drive system of vertical stream twin-roll all feeding-in combine for one kind, it is characterized in that, comprise mowing-apparatus, gearbox (6), engine (7), jackshaft (9), cut flow roller (10), turn to bevel gear box I (11), second final drive shaft (12), blower fan (16), tilting longitudinal axial flow roller (13), grass-smashing reamer power transmission shaft (15), defeated grain screw feeder (17), tailing auger (18), vibratory sieve (19), upper shake backhaul plate (20) and unloading screw conveyor (21), described engine (7) left end delivery outlet is provided with engine power and exports five groove belt pulleys (701), described engine power export five groove belt pulleys (701) by belt connect described jackshaft (9) right-hand member arrange power input five groove belt pulleys (902), the left end of described jackshaft (9) is provided with Power output duplex chain wheel (901) and Power output two-groove belt pulley (903), described Power output duplex chain wheel (901) connects the cut flow roller power input double-row chain sprocket (1001) that described cut flow roller (10) left end is arranged, described blower fan (16) left end arranges blower fan power input two-groove belt pulley (1601), described defeated grain screw feeder (17) left end arranges defeated grain screw feeder power input two-groove belt pulley (1701), described Power output two-groove belt pulley (903), blower fan power input two-groove belt pulley (1601) is connected by belt with defeated grain screw feeder power input two-groove belt pulley (1701), the left end of described defeated grain screw feeder (17) also arranges defeated grain screw feeder power output sprocket (1702), the left end of described tailing auger (18) arranges tailing auger power input sprocket (1801) and tailing auger power output sprocket (1802), described defeated grain screw feeder power output sprocket (1702) connects described tailing auger power input sprocket (1801), described vibratory sieve (19) left end arranges vibratory sieve power input sprocket (1901), described upper shake backhaul plate (20) left end arranges shake backhaul plate power input sprocket (2001), described tailing auger power output sprocket (1802), vibratory sieve power input sprocket (1901) is connected by chain with upper shake backhaul plate power input sprocket (2001),
Bevel gear box I (11) is turned to described in the right-hand member connection of described cut flow roller (10), the described bevel gear box I (11) that turns to turns to bevel gear box II (14) described in described second final drive shaft (12) connection, and upper fixed conveyor gear (29) described fixed conveyor gear (29) of described second final drive shaft (12) is connected by the chain drive wheel of chain with described tilting total stream roller (13) input;
The described output shaft stationary power of bevel gear box II (14) that turns to exports single groove belt pulley (1401), and the grass-smashing reamer power transmission shaft power that described Power output list groove belt pulley (1401) connects the setting of described grass-smashing reamer power transmission shaft (15) right-hand member inputs single groove belt pulley (1501);
The left end of described cut flow roller (10) also fixes cut flow roller Power output two-groove belt pulley (1002), and described cut flow roller Power output two-groove belt pulley (1002) connects the power input shaft (30) of described mowing-apparatus.
2. a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine according to claim 1, it is characterized in that, described connection tailing auger power output sprocket (1802), the chain of vibratory sieve power input sprocket (1901) and upper shake backhaul plate power input sprocket (2001) and described tailing auger power output sprocket (1802) and vibratory sieve power input sprocket (1901) inscribe, with described upper shake backhaul plate power input sprocket (2001), and vibratory sieve power input sprocket (1901) is identical with the number of teeth of upper shake backhaul plate power input sprocket (2001).
3. a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine according to claim 1, it is characterized in that, described mowing-apparatus comprises: delivery chute (5), ceding of Taiwan power transmission shaft (4), cutting table auger (3), cutter (2) and straw shift wheel (1), described delivery chute (5) comprises power input shaft (30), the left end of described power input shaft (30) fixes delivery chute power input two-groove belt pulley (501), described delivery chute power input two-groove belt pulley (501) connects described cut flow roller Power output two-groove belt pulley (1002), the right-hand member of described power input shaft (30) fixes delivery chute power output sprocket (502), described delivery chute power output sprocket (502) connects ceding of Taiwan power transmission shaft power input sprocket (401) that described ceding of Taiwan power transmission shaft (4) left end is arranged, described ceding of Taiwan power transmission shaft (4) right-hand member arranges ceding of Taiwan power transmission shaft power output sprocket (402), described ceding of Taiwan power transmission shaft power output sprocket (402) connects the cutting table auger power input sprocket (301) that described cutting table auger (3) right-hand member is arranged, the right-hand member of described cutting table auger (3) is also fixed with cutting table auger Power output list groove belt pulley (302), the straw shift wheel power that described cutting table auger Power output list groove belt pulley (302) connects described straw shift wheel (1) right-hand member fixing inputs single groove belt pulley (101).
4. a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine according to claim 1, it is characterized in that, belt stretcher I (23) is fixed between described cut flow roller Power output two-groove belt pulley (1002) and delivery chute power input two-groove belt pulley (501), fixed chain wheels tensioning apparatus I (24) between described Power output duplex chain wheel (901) and cut flow roller power input double-row chain sprocket (1001), belt stretcher II (25) is fixed between described blower fan power input two-groove belt pulley (1601) and defeated grain screw feeder power input two-groove belt pulley (1701), fixed chain wheels tensioning apparatus II (26) between described defeated grain screw feeder power output sprocket (1702) and tailing auger power input sprocket (1801), fixed chain wheels tensioning apparatus III (27) between described tailing auger power output sprocket (1802) and vibratory sieve power input sprocket (1901).
5. a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine according to claim 1, it is characterized in that, described engine left end is also provided with engine power and exports four groove belt pulleys (702), and described engine power exports four groove belt pulleys (702) and inputs four groove belt pulleys (601) with the gearbox dynamic on described gearbox and be connected; Described gearbox is connected with the driving wheel (603) on both sides crawler belt (22) respectively by power drive semiaxis (602).
6. a kind of power drive system of cutting vertical stream twin-roll all feeding-in combine according to claim 1, it is characterized in that, also comprise transition axis (8) and unloading screw conveyor (21), the right-hand member delivery outlet of described engine is provided with engine power and exports single groove belt pulley (703), described engine power exports single groove belt pulley (703) and inputs single groove belt pulley (801) with the transition axis power of described transition axis (8) right-hand member and be connected, the transition axis power output sprocket (802) of described transition axis (8) left end is connected with the unloading screw conveyor power input sprocket (2101) of described unloading screw conveyor (21) left end.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104160825A (en) * | 2014-07-29 | 2014-11-26 | 江苏大学 | Power transmission system of tangential longitudinal flow double-roller full-feeding combined harvester |
CN104541740A (en) * | 2015-02-12 | 2015-04-29 | 刘之源 | Automatic mower |
CN104904416A (en) * | 2015-06-25 | 2015-09-16 | 江苏上骐农业装备有限公司 | All-feed combine-harvester tangential vertical flow threshing cylinder power transmission system |
CN106612997A (en) * | 2016-09-21 | 2017-05-10 | 江苏大学 | Power transmission system of longitudinal-flow-cutting, threshing and separation device |
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2014
- 2014-07-29 CN CN201420418557.2U patent/CN204031816U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104160825A (en) * | 2014-07-29 | 2014-11-26 | 江苏大学 | Power transmission system of tangential longitudinal flow double-roller full-feeding combined harvester |
CN104541740A (en) * | 2015-02-12 | 2015-04-29 | 刘之源 | Automatic mower |
CN104904416A (en) * | 2015-06-25 | 2015-09-16 | 江苏上骐农业装备有限公司 | All-feed combine-harvester tangential vertical flow threshing cylinder power transmission system |
CN106612997A (en) * | 2016-09-21 | 2017-05-10 | 江苏大学 | Power transmission system of longitudinal-flow-cutting, threshing and separation device |
CN106612997B (en) * | 2016-09-21 | 2019-08-27 | 江苏大学 | One kind cutting vertical stream installed threshing separator dynamic transfer system |
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