CN104160824B - A kind of transmission system of cutting crossing current multiple-roll combine - Google Patents

Abstract

The present invention relates to a kind of transmission system of cutting crossing current multiple-roll combine.Whole transmission system, by the power distributional effects of jackshaft, is divided into three parts by this transmission system.Part I is the power distribution system of delivery chute, cut flow roller, the first horizontal axial drum, the second horizontal axial drum and broken careless cylinder; The power distribution system of stirring cage is discharged in remaining stirring cage that Part II is blower fan, level defeated grain stirring cage, level are mixed, vibratory sieve, horizontal unloading stirring cage, seed elevator stirring cage, assorted remaining elevator stirring cage and unloading; Part III is the power distribution system of ceding of Taiwan stirring cage, cutter and straw shift wheel.By the transmission system " modularization " by whole combine, and according to position relationship and the kinematic parameter of each workpiece, select suitable drive path and the kind of drive, the power transmission path of complete machine is not only allowed to arrange more reasonable, and allow the transmission of complete machine become simple and reliable, be easy to safeguard.

Description

A kind of transmission system of cutting crossing current multiple-roll combine

Technical field

The present invention relates to a kind of transmission system of combine, particularly relate to a kind of caterpillar band self-propelled transmission system of cutting crossing current multiple-roll combine.

Background technology

Present combine is very general in the application of China, and along with the progress of science and technology and development, the technology of combine is also day by day ripe.But 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, also been proposed new requirement to combine, requires that combined harvester is under the prerequisite ensureing superperformance, to efficient, high-power, large feed quantity future development, to boost productivity.The transverse-axis-flow that current China market exists or cut stream and transverse-axis-flow combine installed threshing separator, all single cylinder or two cylinders, the process capacity of these two kinds of installed threshing separators is all limited, particularly when the paddy rice that results stalk leafiness is luxuriant, easily to block, large feed quantity can not be met, gather in the crops requirement efficiently.The number increasing threshing cylinder not only can increase feed quantity, also can improve the effect that threshing is separated simultaneously, thus boost productivity.But the quantity of cylinder is also not easily too much, if the consumption of power too much not only can be increased, the transmission of complete machine is also made to become complicated, so the machine adopts the threshing unpack format of a cut flow roller and two horizontal axial drum combinations.But the main working parts of complete machine not only comprises installed threshing separator, also comprise the ceding of Taiwan, delivery chute, stalk smashing apparatus, cleaning plant and seed gathering unit etc., how to consider that the drive path of these main working parts and the kind of drive seem particularly important from the angle of complete machine.Engine is the core of complete machine workpiece power, how the power of engine is reasonably allocated on each workpiece, it is the key point of whole Design of Transmission System, type traditional is at present all the mode of the unilateral transmission taked now, the transmission of this form, transmission distance, need to increase transition transmission could realize, this makes drive path become more complicated and changeable, is also virtually adding manufacturing cost, and 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.On the other hand, the transmission of China's combine adopts the kind of drive of Chain conveyer or V belt translation mostly, and Chain conveyer and V belt translation respectively have feature, chaindriven feature has the gearratio determined, transmission accuracy is high, and rotating speed is high, and transfer of torque is larger than V belt translation, life-span is long, but not easily adjusts after chain wear and easily come off.The feature of V belt translation is that rotational noise is low, and transmission range is large, has overload protective function, but the tensile force needed is large, and flexible slip and skidding, make transmission efficiency decline, and can not ensure gearratio accurately.So we not only will consider the position relationship of each workpiece when design transmission system, also to consider kinematic parameter and the job requirements of each workpiece, and select to adopt Chain conveyer or V belt translation with this.

Summary of the invention

The object of the invention is to propose a kind of transmission system of cutting crossing current multiple-roll combine on a kind of basis of cutting crossing current multiple-roll combine that can meet the requirement of large feed quantity results, the transmission system of combine " modularization ", and according to position relationship and the kinematic parameter of each workpiece, select suitable drive path and the kind of drive, avoid workpiece monolateral stressed, make the drive path of complete machine reasonable, simple and reliable, be easy to safeguard.

The invention provides a kind of transmission system of cutting crossing current multiple-roll combine, comprise engine, jackshaft, the first transmission system, the second transmission system and the 3rd transmission system, described engine comprises engine upper belt-wheel I, and the belt wheel on the jackshaft that described engine upper belt-wheel I and described jackshaft right-hand member are arranged is connected;

Described first transmission system comprises the first horizontal axial drum, cut flow roller, delivery chute, second horizontal axial drum and broken careless cylinder, the left end of described jackshaft arranges the chain wheel I on jackshaft, chain wheel I on the first horizontal axial drum that chain wheel I on described jackshaft and described first horizontal axial drum left end are arranged is connected by duplex chain wheel, the left end of described first horizontal axial drum also arranges the chain wheel II on the first horizontal axial drum, sprocket wheel in the cut flow roller that chain wheel II on described first horizontal axial drum and described cut flow roller left end are arranged is connected, the right-hand member of described cut flow roller arranges the belt wheel in cut flow roller, belt wheel on the delivery chute that belt wheel in described cut flow roller and described delivery chute right-hand member are arranged is connected, the right-hand member of described first horizontal axial drum arranges the sprocket wheel III on the first horizontal axial drum, chain wheel I on the second horizontal axial drum that sprocket wheel III on described first horizontal axial drum and described second horizontal axial drum right-hand member are arranged is connected, the left end of described second horizontal axial drum arranges the chain wheel II on the second horizontal axial drum, sprocket wheel on the broken careless cylinder that chain wheel II on described second horizontal axial drum and described broken careless cylinder left end are arranged is connected by duplex chain wheel.

Further, described second transmission system comprises blower fan, the defeated grain screw feeder of level, horizontal tailing auger, transition tensioning apparatus, vibratory sieve, unloading transition apparatus, horizontal unloading screw conveyor, seed elevator screw feeder, screw feeder is discharged in assorted remaining elevator screw feeder and unloading, the left end of described jackshaft also arranges the chain wheel II on jackshaft and the sprocket wheel on jackshaft III, sprocket wheel III on described jackshaft connects the sprocket wheel on the blower fan of described blower fan left end setting, described level defeated grain screw feeder left end arranges the chain wheel I on the defeated grain screw feeder of level, described transition tensioning apparatus left end arranges the sprocket wheel on transition tensioning apparatus, described horizontal tailing auger left end arranges the chain wheel I on horizontal tailing auger, sprocket wheel III on described jackshaft, chain wheel I on the defeated grain screw feeder of level, sprocket wheel on transition tensioning apparatus is connected by chain with the chain wheel I on horizontal tailing auger, the right-hand member of described level defeated grain screw feeder arranges the chain wheel II on the defeated grain screw feeder of level, sprocket wheel on the seed elevator screw feeder that chain wheel II on described level defeated grain screw feeder and the bevel gear input port place of described seed elevator screw feeder are arranged is connected, the right-hand member of described horizontal tailing auger arranges the chain wheel II on horizontal tailing auger, sprocket wheel on the assorted remaining elevator screw feeder that chain wheel II on described horizontal tailing auger and the bevel gear input port place of described assorted remaining elevator screw feeder are arranged is connected, described engine comprises engine upper belt-wheel II, belt wheel on the unloading transition apparatus that described engine upper belt-wheel II and described unloading transition apparatus left end are arranged is connected, described unloading transition apparatus right-hand member arranges the sprocket wheel on unloading transition apparatus, chain wheel I on the horizontal unloading screw conveyor that sprocket wheel on described unloading transition apparatus and the bevel gear input port of described horizontal unloading screw conveyor go out to arrange is connected, the lower end of described horizontal unloading screw conveyor arranges the chain wheel II on horizontal unloading screw conveyor, the sprocket wheel that the unloading that the bevel gear input port place that screw feeder is discharged in chain wheel II on described horizontal unloading screw conveyor and described unloading is arranged is discharged on screw feeder is connected.

Further, described 3rd transmission system comprises bridge shaft, ceding of Taiwan axle I, ceding of Taiwan axle II, cutter, cutting table auger, straw shift wheel jack shaft and straw shift wheel, described jackshaft is arranged the sprocket wheel IV on jackshaft, sprocket wheel IV on described jackshaft connects the sprocket wheel on the bridge shaft of described bridge shaft left end setting, the right-hand member of described bridge shaft arranges the belt wheel on bridge shaft, belt wheel on described bridge shaft connects the belt wheel on the ceding of Taiwan axle I of described ceding of Taiwan axle I left end setting, described ceding of Taiwan axle I right-hand member arranges the sprocket wheel on ceding of Taiwan axle I, chain wheel I on the ceding of Taiwan axle II that sprocket wheel on described ceding of Taiwan axle I and described ceding of Taiwan axle II left end are arranged is connected, described ceding of Taiwan axle II right-hand member arranges the chain wheel II on ceding of Taiwan axle II, chain wheel II on described ceding of Taiwan axle II is connected with the sprocket wheel on the cutting table auger of described cutting table auger right-hand member, described cutting table auger right-hand member also arranges the belt wheel on cutting table auger, belt wheel on the straw shift wheel jack shaft that belt wheel on described cutting table auger and described straw shift wheel jack shaft left end are arranged is connected, described straw shift wheel jack shaft right-hand member arranges the sprocket wheel on straw shift wheel jack shaft, sprocket wheel on the straw shift wheel that sprocket wheel on described straw shift wheel jack shaft and described straw shift wheel right-hand member are arranged is connected, the right-hand member of described ceding of Taiwan axle II also arranges pendulum loop device, described cutter is connected with described ceding of Taiwan axle II by pendulum loop device.

In such scheme, the stepped arrangement successively of described cut flow roller, the first horizontal axial drum and the second horizontal axial drum, and the straight line at the place, bottom of described cut flow roller, the first horizontal axial drum and the second horizontal axial drum and horizontal angle theta are 3 ° ~ 10 °.

In such scheme, described second horizontal axial drum is shorter than the first horizontal axial drum by 20% ~ 30%, arranges broken careless cylinder at described second horizontal axial drum end.

The invention has the beneficial effects as follows: by jackshaft power distributional effects, the power of engine is divided into three parts, a part passes to each workpiece of the ceding of Taiwan power, a part passes to each workpiece of installed threshing separator power, and another part passes to each workpiece of cleaning plant power.By the transmission system of combine " modularization ", and according to the position relationship of each workpiece and kinematic parameter, select suitable drive path and the kind of drive, to make the drive path of complete machine reasonable, simple and reliable, be easy to safeguard.

The stressed larger driver parts such as cut flow roller, the first horizontal axial drum, the second horizontal axial drum, horizontal tailing auger and horizontal unloading screw conveyor adopt two-side transmission, increases the reliability of transmission, reduce transmission power consumption penalty, improve the efficiency of crop of complete machine.

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.

Due to attached wall effect, must be thrown into next rolling with certain angle that raises up by the cereal that cut flow roller is dished out, so by cut flow roller, the first horizontal axial drum and the second horizontal axial drum successively stepped arrangement, be conducive to cereal feeding smooth and easy, avoid blocking.

Stalk smashing apparatus is arranged on vehicle by middle position, avoids not thrown the standing crop of machine both sides from stalk smashing apparatus grass out, and easily realize full width and evenly shed, be convenient to follow-up also field process.

Accompanying drawing explanation

Fig. 1 is transmission system sketch of the present invention.

Fig. 2 is Part I transmission system sketch in the present invention.

Fig. 3 is Part II transmission system sketch in the present invention.

Fig. 4 is Part III transmission system sketch in the present invention.

Fig. 5 is transmission schematic diagram on the left of the present invention.

Fig. 6 is header part transmission schematic top plan view of the present invention.

In figure 1, engine, 101, engine upper belt-wheel I, 102, engine upper belt-wheel II, 2, jackshaft, 201, belt wheel on jackshaft, 202, chain wheel I on jackshaft, 203, chain wheel II on jackshaft, 204, sprocket wheel III, 205 on jackshaft, sprocket wheel IV, 3 on jackshaft, first horizontal axial drum, 301, chain wheel I on first horizontal axial drum, 302, chain wheel II on first horizontal axial drum, 303, sprocket wheel III, 4 on first horizontal axial drum, cut flow roller, 401, sprocket wheel in cut flow roller, 402, belt wheel in cut flow roller, 5, delivery chute, 501, belt wheel on delivery chute, 6, second horizontal axial drum, 601, chain wheel I on second horizontal axial drum, 602, chain wheel II on second horizontal axial drum, 7, broken careless cylinder, 701, sprocket wheel on broken careless cylinder, 8, blower fan, 801, sprocket wheel on blower fan, 9, the defeated grain screw feeder of level, 901, chain wheel I on the defeated grain screw feeder of level, 902, chain wheel II on the defeated grain screw feeder of level, 10, horizontal tailing auger, 1001, chain wheel I on horizontal tailing auger, 1002, chain wheel II on horizontal tailing auger, 11, transition tensioning apparatus, 1101, sprocket wheel on transition tensioning apparatus, 1102, belt wheel on transition tensioning apparatus, 12, vibratory sieve, 1201, belt wheel on vibratory sieve, 13, unloading transition apparatus, 1301, belt wheel on unloading transition apparatus, 1302, sprocket wheel on unloading transition apparatus, 14, horizontal unloading screw conveyor, 1401, chain wheel I on horizontal unloading screw conveyor, 1402, chain wheel II on horizontal unloading screw conveyor, 15, seed elevator screw feeder, 1501, sprocket wheel on seed elevator screw feeder, 16, assorted remaining elevator screw feeder, 1601, sprocket wheel on assorted remaining elevator screw feeder, 17, screw feeder is discharged in unloading, and 1701, the sprocket wheel on screw feeder is discharged in unloading, and 18, bridge shaft, 1801, sprocket wheel on bridge shaft, 1802, belt wheel on bridge shaft, 19, ceding of Taiwan axle I, 1901, belt wheel on ceding of Taiwan axle I, 1902, sprocket wheel on ceding of Taiwan axle I, 20, ceding of Taiwan axle II, 2001, chain wheel I on ceding of Taiwan axle II, 2002, chain wheel II on ceding of Taiwan axle II, 2003, pendulum loop device, 21, cutter, 22, cutting table auger, 2201, sprocket wheel on cutting table auger, 2202, belt wheel on cutting table auger, 23, straw shift wheel jack shaft, 2301, belt wheel on straw shift wheel jack shaft, 2302, sprocket wheel on straw shift wheel jack shaft, 24, straw shift wheel, 2401, sprocket wheel on straw shift wheel, 25, power input shaft.

Specific embodiment

Below in conjunction with accompanying drawing and specific embodiment, the present invention is further illustrated, but protection scope of the present invention is not limited to this.

As shown in Figure 1, transmission system of cutting crossing current multiple-roll combine of the present invention, by the power distributional effects of jackshaft 2, is divided into three parts the transmission system of whole combine.

Part I is the power distribution system of the first horizontal axial drum 3, cut flow roller 4, delivery chute 5, second horizontal axial drum 6 and broken careless cylinder 7; Part II is the power distribution system of blower fan 8, level defeated grain screw feeder 9, horizontal tailing auger 10, transition tensioning apparatus 11, vibratory sieve 12, unloading transition apparatus 13, horizontal unloading screw conveyor 14, seed elevator screw feeder 15, assorted remaining elevator screw feeder 16 and unloading discharge screw feeder 17; Part III is the power distribution system of bridge shaft 18, ceding of Taiwan axle I 19, ceding of Taiwan axle II 20, cutter 21, cutting table auger 22, straw shift wheel jack shaft 23 and straw shift wheel 24.

As shown in Figure 2 and Figure 5, the kind of drive of Part I transmission system is: in the left side of engine, and engine 1 passes to power on jackshaft 2 by the V belt translation between the belt wheel I 101 on engine and the belt wheel 201 on jackshaft; In the left side of jackshaft 2, jackshaft 2 is sent to power on the first horizontal axial drum 3 by the Chain conveyer between the chain wheel I 202 on jackshaft and the chain wheel I 301 on the first horizontal axial drum; In the left side of the first horizontal axial drum 3, the first horizontal axial drum 3 passes to power in cut flow roller 4 by the Chain conveyer between the chain wheel II 302 on the first horizontal axial drum and the sprocket wheel 401 in cut flow roller; On the right side of cut flow roller 4, cut flow roller 4 passes to power on delivery chute 5 by the V belt translation between the belt wheel 402 in cut flow roller and the belt wheel 501 on delivery chute; On the right side of the first horizontal axial drum 3, the first horizontal axial drum 3 passes to power on the second horizontal axial drum 6 by the Chain conveyer between the sprocket wheel III 303 on the first horizontal axial drum and the chain wheel I 601 on the second horizontal axial drum; In the left side of the second horizontal axial drum 6, the second horizontal axial drum 6 is passed to power on broken careless cylinder 7 by the Chain conveyer between the sprocket wheel 701 in the chain wheel II 602 on the second horizontal axial drum and broken careless cylinder.

As shown in Figure 3 and Figure 5, the kind of drive of Part II transmission system is: in the left side of jackshaft 2, and jackshaft 2 passes to power on blower fan 8 by the Chain conveyer between the chain wheel II 203 on jackshaft and the sprocket wheel 801 on blower fan; In the left side of jackshaft 2, jackshaft 2 passes to power on level defeated grain screw feeder 9, horizontal tailing auger 10, transition tensioning apparatus 11 by the Chain conveyer between the chain wheel I 901 on the sprocket wheel III 204 on jackshaft and level defeated grain screw feeder, the chain wheel I 1001 on horizontal tailing auger, the sprocket wheel 1101 on transition tensioning apparatus; Transition tensioning apparatus 11 is passed on Gong by the band between the belt wheel 1102 on transition tensioning apparatus and the belt wheel 1201 on vibratory sieve and power is passed on vibratory sieve 12; On the right side of the defeated grain screw feeder 9 of level, level defeated grain screw feeder 9 passes to power on seed elevator screw feeder 15 by the commutation effect of the chain wheel II 902 on the defeated grain screw feeder of level and the sprocket wheel 1501 on seed elevator screw feeder and bevel-gear sett; On the right side of horizontal tailing auger 10, horizontal tailing auger 10 passes to power on assorted remaining elevator screw feeder 16 by the commutation effect of the sprocket wheel 1601 in the chain wheel II 1002 on horizontal tailing auger and assorted remaining elevator screw feeder and bevel-gear sett; On the right side of engine 1, engine 1 passes to power on unloading transition apparatus 13 by the V belt translation between the belt wheel II 102 on engine and the belt wheel 1301 on unloading transition apparatus; Unloading transition apparatus 13 passes to power on horizontal unloading screw conveyor 14 by the commutation effect of the Chain conveyer between the sprocket wheel 1302 on unloading transition apparatus and the chain wheel I 1401 on horizontal unloading screw conveyor and bevel-gear sett; Horizontal unloading screw conveyor 14 is passed to power on unloading discharge screw feeder 17 by the commutation effect of the sprocket wheel 1701 in the chain wheel II 1402 on horizontal tailing auger and unloading discharge screw feeder and bevel-gear sett.Wherein, jackshaft 2 passes to power on level defeated grain screw feeder 9, horizontal tailing auger 10, transition tensioning apparatus 11 by the Chain conveyer between the chain wheel I 901 on the sprocket wheel III 204 on jackshaft and level defeated grain screw feeder, the chain wheel I 1001 on horizontal tailing auger, the sprocket wheel 1101 on transition tensioning apparatus; a Chain conveyer in this transmission also can be a V belt translation; because V belt translation has overload protective function, the effect of protection element part can be played when blocking occurs for level defeated grain screw feeder or horizontal tailing auger time.

As shown in Figure 4 and Figure 6, the kind of drive of Part III transmission system is: at the middle part of jackshaft 2, and jackshaft 2 passes to power on bridge shaft 18 by the Chain conveyer between the sprocket wheel IV 205 on jackshaft and the sprocket wheel 1801 on bridge shaft; Bridge shaft 18 passes to power on ceding of Taiwan axle I 19 by the V belt translation between the belt wheel 1802 on bridge shaft and the belt wheel 1901 on ceding of Taiwan axle I; On the right side of ceding of Taiwan axle I 19, ceding of Taiwan axle I 19 passes to power on ceding of Taiwan axle II 20 by the Chain conveyer between the sprocket wheel 1902 on ceding of Taiwan axle I and the sprocket wheel 2001 on ceding of Taiwan axle II; The right-hand member of ceding of Taiwan axle II 20 is connected with cutter 21 by swinging-ring mechanism, thus power is passed on cutter 21; On the right side of ceding of Taiwan axle II 20, ceding of Taiwan axle II 20 passes to power on cutting table auger 22 by the Chain conveyer between the sprocket wheel 2002 on ceding of Taiwan axle II and the sprocket wheel 2201 on cutting table auger; On the right side of cutting table auger 22, cutting table auger 22 passes to power on straw shift wheel jack shaft 23 by the V belt translation between the belt wheel 2202 on cutting table auger and the belt wheel 2301 on straw shift wheel jack shaft; Straw shift wheel jack shaft 23 by the Chain conveyer between the sprocket wheel 2302 on straw shift wheel jack shaft and the sprocket wheel 2401 on straw shift wheel on power transmission straw shift wheel 24.

As optimal design, due to wall attachment effect, must be enter next cylinder with certain angle that raises up by the cereal that last cylinder is dished out, so by cut flow roller 4, first horizontal axial drum 3 and the stepped arrangement successively of the second horizontal axial drum 6, and straight line and the horizontal angle theta at the place, bottom of described cut flow roller 4, first horizontal axial drum 3 and the second horizontal axial drum 6 are 3 ° ~ 10 °, can effectively avoid cereal to block, improve shelling efficiency.

As optimal design, described second horizontal axial drum 6 to the first horizontal axial drum 3 is short by 20% ~ 30%, arranges broken careless cylinder 7 at described second horizontal axial drum 6 end.Grass outlet can be made to be arranged near the middle position of vehicle, the grass of finally dishing out is not thrown on the standing crop of machine both sides, and easily the full width of realization is evenly shed, be convenient to follow-up also field and process.

Transmission system of cutting crossing current multiple-roll combine of the present invention in use, arrange according to the position relationship of each workpiece and drive path by concrete tensioning apparatus.This transmission system is by the power distributional effects of jackshaft, the transmission system of combine " modularization ", and according to the position relationship of each workpiece and kinematic parameter, select suitable drive path and the kind of drive, make the drive path of complete machine reasonable, simple and reliable, be easy to safeguard.

Described embodiment is preferred embodiment of the present invention; but the present invention is not limited to above-mentioned embodiment; when not deviating from flesh and blood of the present invention, any apparent improvement that those skilled in the art can make, replacement or modification all belong to protection scope of the present invention.

Claims (5)

1. cut the transmission system of crossing current multiple-roll combine for one kind, it is characterized in that, comprise engine (1), jackshaft (2), the first transmission system, the second transmission system and the 3rd transmission system, described engine (1) comprises engine upper belt-wheel I (101), and the belt wheel (201) on the jackshaft that described engine upper belt-wheel I (101) and described jackshaft (2) right-hand member are arranged is connected;

Described first transmission system comprises the first horizontal axial drum (3), cut flow roller (4), delivery chute (5), second horizontal axial drum (6) and broken careless cylinder (7), the left end of described jackshaft (2) arranges the chain wheel I (202) on jackshaft, chain wheel I (301) on the first horizontal axial drum that chain wheel I (202) on described jackshaft and described first horizontal axial drum (3) left end are arranged is connected by duplex chain wheel, the left end of described first horizontal axial drum (3) also arranges the chain wheel II (302) on the first horizontal axial drum, sprocket wheel (401) in the cut flow roller that chain wheel II (302) on described first horizontal axial drum and described cut flow roller (4) left end are arranged is connected, the right-hand member of described cut flow roller (4) arranges the belt wheel (402) in cut flow roller, belt wheel (501) on the delivery chute that belt wheel (402) in described cut flow roller and described delivery chute (5) right-hand member are arranged is connected, the right-hand member of described first horizontal axial drum (3) arranges the sprocket wheel III (303) on the first horizontal axial drum, chain wheel I (601) on the second horizontal axial drum that sprocket wheel III (303) on described first horizontal axial drum and described second horizontal axial drum (6) right-hand member are arranged is connected, the left end of described second horizontal axial drum (6) arranges the chain wheel II (602) on the second horizontal axial drum, sprocket wheel (701) on the broken careless cylinder that chain wheel II (602) on described second horizontal axial drum and described broken careless cylinder (7) left end are arranged is connected by duplex chain wheel.

2. a kind of transmission system of cutting crossing current multiple-roll combine according to claim 1, it is characterized in that, described second transmission system comprises blower fan (8), the defeated grain screw feeder (9) of level, horizontal tailing auger (10), transition tensioning apparatus (11), vibratory sieve (12), unloading transition apparatus (13), horizontal unloading screw conveyor (14), seed elevator screw feeder (15), screw feeder (17) is discharged in assorted remaining elevator screw feeder (16) and unloading, the left end of described jackshaft (2) also arranges the chain wheel II (203) on jackshaft and the sprocket wheel III (204) on jackshaft, sprocket wheel III (204) on described jackshaft connects the sprocket wheel (801) on the blower fan of described blower fan (8) left end setting, described level defeated grain screw feeder (9) left end arranges the chain wheel I (901) on the defeated grain screw feeder of level, described transition tensioning apparatus (11) left end arranges the sprocket wheel (1101) on transition tensioning apparatus, described horizontal tailing auger (10) left end arranges the chain wheel I (1001) on horizontal tailing auger, sprocket wheel III (204) on described jackshaft, chain wheel I (901) on the defeated grain screw feeder of level, sprocket wheel (1101) on transition tensioning apparatus is connected by chain with the chain wheel I (1001) on horizontal tailing auger, the right-hand member of described level defeated grain screw feeder (9) arranges the chain wheel II (902) on the defeated grain screw feeder of level, sprocket wheel (1501) on the seed elevator screw feeder that chain wheel II (902) on described level defeated grain screw feeder and the bevel gear input port place of described seed elevator screw feeder (15) are arranged is connected, the right-hand member of described horizontal tailing auger (10) arranges the chain wheel II (1002) on horizontal tailing auger, sprocket wheel (1601) on the assorted remaining elevator screw feeder that chain wheel II (1002) on described horizontal tailing auger and the bevel gear input port place of described assorted remaining elevator screw feeder (16) are arranged is connected, described engine (1) comprises engine upper belt-wheel II (102), belt wheel (1301) on the unloading transition apparatus that described engine upper belt-wheel II (102) and described unloading transition apparatus (13) left end are arranged is connected, described unloading transition apparatus (13) right-hand member arranges the sprocket wheel (1302) on unloading transition apparatus, chain wheel I (1401) on the horizontal unloading screw conveyor that sprocket wheel (1302) on described unloading transition apparatus and the bevel gear input port of described horizontal unloading screw conveyor (14) go out to arrange is connected, the lower end of described horizontal unloading screw conveyor (14) arranges the chain wheel II (1402) on horizontal unloading screw conveyor, the sprocket wheel (1701) that the unloading that the bevel gear input port place that screw feeder (17) is discharged in chain wheel II (1402) on described horizontal unloading screw conveyor and described unloading is arranged is discharged on screw feeder is connected.

3. a kind of transmission system of cutting crossing current multiple-roll combine according to claim 1, it is characterized in that, described 3rd transmission system comprises bridge shaft (18), ceding of Taiwan axle I (19), ceding of Taiwan axle II (20), cutter (21), cutting table auger (22), straw shift wheel jack shaft (23) and straw shift wheel (24), described jackshaft (2) is arranged the sprocket wheel IV (205) on jackshaft, sprocket wheel IV (205) on described jackshaft connects the sprocket wheel (1801) on the bridge shaft of described bridge shaft (18) left end setting, the right-hand member of described bridge shaft (18) arranges the belt wheel (1802) on bridge shaft, belt wheel (1802) on described bridge shaft connects the belt wheel (1901) on the ceding of Taiwan axle I of described ceding of Taiwan axle I (19) left end setting, described ceding of Taiwan axle I (19) right-hand member arranges the sprocket wheel (1902) on ceding of Taiwan axle I, chain wheel I (2001) on the ceding of Taiwan axle II that sprocket wheel (1902) on described ceding of Taiwan axle I and described ceding of Taiwan axle II (20) left end are arranged is connected, described ceding of Taiwan axle II (20) right-hand member arranges the chain wheel II (2002) on ceding of Taiwan axle II, chain wheel II (2002) on described ceding of Taiwan axle II is connected with the sprocket wheel (2201) on the cutting table auger of described cutting table auger (22) right-hand member, described cutting table auger (22) right-hand member also arranges the belt wheel (2202) on cutting table auger, belt wheel (2301) on the straw shift wheel jack shaft that belt wheel (2202) on described cutting table auger and described straw shift wheel jack shaft (23) left end are arranged is connected, described straw shift wheel jack shaft (23) right-hand member arranges the sprocket wheel (2302) on straw shift wheel jack shaft, sprocket wheel (2401) on the straw shift wheel that sprocket wheel (2302) on described straw shift wheel jack shaft and described straw shift wheel (24) right-hand member are arranged is connected, the right-hand member of described ceding of Taiwan axle II (20) also arranges pendulum loop device (2003), described cutter (21) is connected with described ceding of Taiwan axle II (20) by pendulum loop device (2003).

4. a kind of transmission system of cutting crossing current multiple-roll combine according to claim 1, it is characterized in that, described cut flow roller (4), the first horizontal axial drum (3) and the second horizontal axial drum (6) stepped arrangement successively, and the straight line at the place, bottom of described cut flow roller (4), the first horizontal axial drum (3) and the second horizontal axial drum (6) and horizontal angle theta are 3 ° ~ 10 °.

5. a kind of transmission system of cutting crossing current multiple-roll combine according to claim 1 or 4, it is characterized in that, described second horizontal axial drum (6) is shorter by 20% ~ 30% than the first horizontal axial drum (3), arranges broken careless cylinder (7) at described second horizontal axial drum (6) end.