JP3786134B2 - Combine - Google Patents

Description

  The present invention relates to a combine.

Conventionally, a combine is provided with a single corn straw supply and transport device (one feed chain) that holds the cutting stock side of the harvested cereal and feeds it with the tip side inserted into the threshing device. ing.
And the starting end part of this cereal supply and conveyance apparatus is arrange | positioned facing the termination | terminus part vicinity of the stock former conveyance apparatus provided in the cutting part side.

In addition, the cereal supply and transport device for the threshing device, the front supply and transfer chain that receives the harvested cereal from the stock transportation device provided on the cutting unit side, and the cereal supply and the chain that receives the chopped cereal from the front supply and transfer chain The front supply transport chain is arranged so as to overlap the start end portion of the main supply transport chain in a side view with the start end portion facing the end portion of the stock transport device. There is something. (For example, refer to Patent Document 1.)
Japanese Utility Model Publication No. 2-142126

  When the amount of harvested cereals to be transferred to the cereal supply / conveyance device is increased due to the enlargement of the reaping part, such as for 5-row reaping and for 6-row reaping, the cereal takeover posture is disturbed at the start end of the cereal supply / conveyance device, There is a problem that the cereals easily fall off and the mowing and threshing work cannot be performed smoothly.

  Moreover, if the cereal supply / conveyance device is fixed to the outer surface of the threshing device, the threshing chamber of the threshing device cannot be maintained.

In order to solve the above-described problems, the present invention takes the following technical means.
That is, a support base (15) is attached to the transmission case (44) that transmits power to the traveling device (2), and the base of the support pipe (13) on the cutting part (4) side is provided above the support base (15). A fixed horizontal cylinder (14) is pivotally attached, arranged on the front side of the threshing chamber (31) of the threshing device (3), and the harvested cereal from the rear stock transportation device (17) on the reaping part (4) side. and that receive the culms front feed conveying chain (80), when receiving the culms reaper from front side supply conveyor chain (80) provided with main supply transport chain for transporting the machine body backward (32), the front supply conveyance chain (80) is arranged inside the start end of the main supply transfer chain (32), and the start end of the front supply transfer chain (80) is located below the end of the transfer chain (19) of the rear stock transport apparatus (17). The front supply transport chain (8 The gear case (56) for driving the front supply and transfer chain (80) is disposed inside the guide plate, and the gear case (56) is fixed to the front plate of the threshing device (3) via the stay (42). The leading end of (85) faces near the end of the rear stock transporting device (17) and the end of the guide guide (85) faces above the starting end of the front supply and transport chain (80). In addition, the guide guide (85) is movable between an operating position located above the start end of the front supply transport chain (80) and a retracted position away from the position above the start end of the front supply transport chain (80). A support frame that is configured and urged so as to be positioned above the start end of the front supply and transfer chain (80), the lower part being fixed to the machine frame (1) and the upper part being fixed to the front plate of the threshing device (3). Set (39) With mounting the chain guide rails for guiding the front supply conveyor chain (80) (77) to the support frame (39) Te, starting end side of the main feed conveyor chain (32) the longitudinal direction of the guide rail (35) wherein the lower gear (36) and guide rails (35) vertical columns provided in the guide rail (35) by turning over between the gear (37) provided on the terminal end side (38) provided in the A support frame (39) fixed on the threshing device (3) side is pivotally attached, and a side cover (40) arranged outside the main supply transport chain (32) is attached to the guide rail (35) side. The side cover (40) and the guide rail (35) are configured so as to be integrally rotated outwardly, and the conveying speed A of the cereal conveying apparatus (30) having the main supply conveying chain (32). And the front supply transfer chain (80 The transfer speed B of the takeover transfer apparatus (76) having the above and the transfer speed C of the rear stock transfer apparatus (17) are set in a relationship of A <B <C, and the working speed of the cutting unit (4) The transfer speed of the front supply transfer chain (80) is changed in proportion to the travel speed of the travel device (2), and the work of the cutting unit (4) with respect to the travel speed of the travel device (2). In providing the cutting part transmission (52) for independently shifting the speed, the cutting part transmission (52) is provided between the transmission case (44) and the hydraulic continuously variable main transmission (45). Further, the present invention is a combine characterized by comprising a drive split pulley (63) on the side of the gear box (50), a passive split pulley (64), and a belt (62) .

That is, by arranging the front supply conveyance chain 80 inside the start end portion of the main supply conveyance chain 32, the harvested cereal meal is supplied from the stock transportation device on the reaping unit side by the takeover conveyance action of the front supply conveyance chain 80. When handed over to the conveyance chain 32, the takeover posture of the cereal is less likely to be disturbed, and the cereal is less likely to fall off.
In addition, by arranging the gear case 56 that drives the front supply conveyance chain 80 inside the front supply conveyance chain 80, the stock side of the cereal grains conveyed by the front supply conveyance chain 80 is less likely to interfere with the gear case 56. The cereals are transported smoothly.
In addition, since the gear case 56 that drives the front supply conveyance chain 80 is fixed to the front plate of the threshing device 3 via the stay 42, the front supply conveyance chain 80, the rear stock transport apparatus 17, and the main supply conveyance chain 32. The positional relationship with can be fixed, and the operation is reliable.
Further, the guide guide 85 is configured to be movable between an operation position located above the start end portion of the front supply conveyance chain 80 and a retracted position separated from the upper position of the front supply conveyance chain 80 and the start end of the front supply conveyance chain 80. By providing the urging so as to be positioned above the unit, not only the culm is guided by the guide guide 85 but also maintenance can be easily performed.

Further, the main supply conveyance chain 32 is hung between a gear 36 provided on the start end side of the guide rail 35 in the front-rear direction and a gear 37 provided on the end side, so that the guide rail 35 is threshing device 3. The side cover 40 and the guide rail 35 are attached to the support rail 39 fixed to the side so as to be rotatable, and the side cover 40 disposed outside the main supply and transfer chain 32 is attached to the guide rail 35 side. And 35 can be integrally rotated outward.
Further, by setting the transport speed A of the corn straw transport device 30, the transport speed B of the takeover transport device 76, and the transport speed C of the rear stock transport device 17 to a relationship of A <B <C, the supply of corn straw As it is conveyed toward the device 30, the amount of cereals increases and becomes thicker, and the conveying speed gradually decreases, so that the conveying posture becomes good.
Then, when the traveling device 2 is stopped, the cutting unit 4 and the front supply conveyance chain 80 are stopped, the start is synchronized, the takeover is good, and the grain posture is also good.
In addition, when the grain culm in the field is in a lying state, if the working speed of the cutting unit 4 is slow relative to the traveling speed, the lodging cereal may not be pulled up sufficiently, but the cutting unit transmission 52 is not used. If the rotation transmitted to the cutting unit 4 is increased by shifting the gear step, the work can be performed reliably.

According to the present invention, by arranging the front supply conveyance chain 80 inside the start end portion of the main supply conveyance chain 32, the harvested grain culm is transferred to the harvesting unit side by the takeover conveyance action of the front supply conveyance chain 80. Chopping and threshing work even in a combine equipped with a large reaping part with a large amount of chopped cereals, and the cedar takeover posture is less likely to be disturbed. Can be performed smoothly.
In addition, by arranging the gear case 56 that drives the front supply conveyance chain 80 inside the front supply conveyance chain 80, the stock side of the cereal grains conveyed by the front supply conveyance chain 80 is less likely to interfere with the gear case 56. In addition, the grain mash is transported smoothly, and the harvesting and threshing work can be performed smoothly even in a combine equipped with a large reaping section with a large amount of harvested corn.
Further, since the gear case 56 that drives the front supply conveyance chain 80 is fixed to the front plate of the threshing device 3 via the stay 42, the front supply conveyance chain 80, the rear stock transport apparatus 17, and the main supply conveyance chain 32. The positional relationship between and can be fixed, and the operation can be ensured.
Further, the guide guide 85 is configured to be movable between an operation position located above the start end of the front supply transport chain 80 and a retracted position away from above the start end of the front supply transport chain 80 and By providing an urging force so as to be positioned above the starting end portion, not only the culm can be guided by the guide guide 85 but also maintenance can be easily performed.

Further, the main supply conveyance chain 32 is hung between a gear 36 provided on the start end side of the guide rail 35 in the front-rear direction and a gear 37 provided on the end side, so that the guide rail 35 is threshing device 3. The side cover 40 and the guide rail 35 are attached to the support rail 39 fixed to the side so as to be rotatable, and the side cover 40 disposed outside the main supply and transfer chain 32 is attached to the guide rail 35 side. The threshing chamber 31 of the threshing apparatus 3 can be maintained.
Then, by setting the transport speed A of the corn straw transport device 30, the transport speed B of the takeover transport device 76, and the transport speed C of the rear stock transport device 17 to the relationship of A <B <C, As the amount of cereals increases and becomes thicker as it is conveyed toward the device 30, the conveying speed gradually decreases, so that the conveying posture of the cereals can be improved.
Further, by continuously shifting the harvesting part transmission 52, the rotation transmitted to the harvesting part 4 is raised so that the harvesting operation of the fallen cereal can be made easy, and the rear stockholder correspondingly corresponds to this. The transport speed of the transport device 17 and the front supply transport chain 80 can be changed to ensure transport.

  An embodiment of the present invention will be described with reference to the drawings. Reference numeral 1 represents a combiner body frame, 2 a traveling device provided below the body frame 1, 3 a threshing device provided above the body frame 1, and 4 an aircraft frame 1. , 5 is the weeding body of the cutting unit 4, 6 is a pulling device, 7 is a scraping device, 8 is a cutting blade, 9 is a front side stock transport device, 10 is a front side tip transport device, 11 Is a rear focusing device, and 12 is a cutting part frame. The mowing unit 4 fixes the lower part of the support pipe 13 to the mowing part frame 12, and a horizontal cylinder 14 fixed to the base part of the support pipe 13 is rotatably attached to the upper part of the support base 15 provided on the machine body side. Each of the horizontal cylinder 14 and the support pipe 13 incorporates a transmission shaft or the like for transmitting power to the mowing unit 4. 16 is a cutting upper and lower cylinder, 17 is a rear stock transport device (stock transport device) that transports the cereals harvested by the cutting unit 4 toward the rear threshing device 3, and 18 is a rear head transport device. These are known configurations, and the rear stock transporting device 17 includes a transport chain 19 and a gutter 20 provided in the vicinity of the transport chain 19 so as to face each other. Although not shown in the drawings, the transport chain 19 is hung around a guide rail and a plurality of guide rollers rotating on a vertical axis provided on the frame to which the guide rail is attached, and the base of the frame is placed on the upper portion of the support pipe 13. By attaching it to the horizontal cylinder 14 so as to be rotatable, the threshing device 3 is arranged so that the starting end of the transfer chain 19 facing the takeover point at the end of each of the front side stock transfer device 9 and the front tip transfer device 10 moves up and down. It is configured so that the handling depth supplied to the can be adjusted. 21 is a handle depth adjusting device, and 22 is a saddle length detection switch.

  The rear-side tip transport device 18 winds a chain with a transport lug 23 attached thereto so as to be able to move up and down, and rotates the base of the case 24 toward the horizontal cylinder 14 on the upper side of the support pipe 13. Mount freely. Reference numeral 25 denotes an attachment arm, 26 denotes an attachment member, and 27 denotes a guide guide for the rear tip conveying device 18. 30 is a cereal supply device for supplying cereal to the threshing chamber 31 of the threshing device 3, and includes a supply conveyance chain (main supply conveyance chain) 32 and a ridge 33. The eaves 33 are attached to the side edge of the upper cover 34 of the threshing device 3, and when the upper cover 34 is opened upward, it moves upward. The supply and transport chain 32 is hung between a passive gear 36 provided at the start end portion of the guide rail 35 in the front-rear direction and a drive gear 37 provided at the end portion, and is provided vertically on the start end side of the guide rail 35. A lower portion of the column 38 is rotatably attached to the support frame 39. That is, the cereal supply device 30 is configured such that the end portion rotates laterally around the vertical column 38. The lower part of the support frame 39 is fixed to the body frame 1, and the upper side is bent and fixed to the front plate of the threshing device 3. Reference numeral 40 denotes a side cover, and the side cover 40 is attached to the guide rail 35 side, and the side cover 40 and the guide rail 35 are configured to integrally rotate outward.

  43 is an engine, 44 is a transmission case that transmits power to the traveling device 2 to which the support base 15 is attached, 45 is a hydraulic continuously variable main transmission provided in the transmission case 44, and 46 is provided in the horizontal cylinder 14. This is a cutting part input pulley, and the rotation is transmitted to the cutting part input pulley 46 through a transmission path from the hydraulic continuously variable main transmission 45 that is branched from the transmission path to the transmission case 44 of the traveling apparatus 2. Both the traveling speed and the working speed of the cutting unit 4 are shifted to an optimum speed. 47 is an engine output pulley of the engine 43, 48 is an engine output passive pulley provided in the hydraulic continuously variable main transmission 45, 49 is a belt, 50 is provided between the hydraulic continuously variable main transmission 45 and the transmission case 44. A gear box, 51 is a bearing, 52 is a reaping part transmission described later provided between the gear box 50 and the bearing 51, 53 and 54 are pulleys, 55 is a belt, 56 is a gear case, 57 is a reaping part output pulley, and 58 is A belt 59 is an output pulley that outputs to the threshing device 3.

  The cutting part speed change device 52 includes a belt 62, a drive split pulley 63, and a passive split pulley 64. The drive split pulley 63 and the passive split pulley 64 are effective by adjusting the widths thereof by cam bodies 65 and 66, respectively. The cam bodies 65 and 66 are configured to act oppositely to each other, and each arm 67 is connected to each other by a rod 68, and the rod 68 is connected to a motor 69. It is moved by the rod 70 that moves. 71 is a frame provided at the base of the rod 70, 72 is a screw shaft that is rotated by the motor 69 with which the frame 71 is screwed, and 73 is a detent guide for the frame 71.

The reaping part transmission 52 independently shifts the working speed of the reaping part 4 with respect to the traveling speed of the traveling device 2 and increases the working speed of the reaping part 4 during the harvesting of the fallen cereal.
In addition, not only the working speed of the cutting unit 4 is independently changed by the cutting unit transmission unit 52 but also the cutting unit 4 is changed to the traveling speed of the traveling unit 2 that is shifted by the auxiliary transmission unit in the transmission case 44. It is also possible to adopt a configuration in which these work speeds are made to correspond. The passive split pulley 64 is attached to the bearing 51 through a one-way rotation transmission clutch (one-way clutch) 75, and when the hydraulic continuously variable main transmission 45 transmits reverse rotation, The reverse rotation is not transmitted to the cutting unit 4.

  Thus, a takeover conveying device 76 is provided between the terminal end of the rear stock transporting device 17 and the rear tip conveying device 18 and the starting end of the conveying chain 32 of the cereal supply device 30. The take-up and transfer device 76 has an intermediate portion of the chain guide rail 77 attached to the support frame 39, and a pair of laterally rotating passive gears 78 and 78 attached to the front and rear ends of the chain guide rail 77. The transfer chain (front supply transfer chain) 80 is wound around. 81 is a guide gear provided separately, which also serves as a tension gear. The take-up conveyance chain 80 is engaged with a fixed drive gear 83 on a rotary shaft 82 protruding from the gear case 56. Therefore, the transfer speed of the takeover transfer device 76 is also changed in proportion to the drive speed of the travel device 2 by the hydraulic continuously variable main transmission 45, and is synchronized with the work speed of the cut portion 4 by the reaping portion transmission 52. To change the speed. In addition, since the constant rotation of the engine 43 is always transmitted, the conveyance speed is constant in the grain supply device 30. Accordingly, the start end of the takeover transport chain 80 faces below the end of the transport chain 19 of the rear stock transporter 17, and a guide guide 85 is provided above the takeover transport chain 80. The guide guide 85 has its start end facing the vicinity of the end of the rear stock transport device 17 and the rear tip transport device 18, and the end is desired above the start end of the takeover transport chain 80 and takes over. It is configured to be movable between an action position located above the start end of the transport chain 80 and a retracted position away from above the start end of the takeover transport chain 80, and not only guides the cereal but also facilitates maintenance. I am doing so. Specifically, the guide guide 85 is formed by a shaft member that is parallel (front-rear direction) to the conveying direction of the corn straw, and the start end portion of the guide guide 85 is bent in a direction intersecting with the conveying direction of the corn straw. The bent portion is attached to the terminal portion of the attachment member 26 of the guide guide 27 of the rear tip conveying device 18 so as to be rotatable and slidable in a direction crossing the conveying direction. It is urged by a spring so as to be positioned above the starting end portion of 80.

  FIG. 12 shows a control mechanism for controlling the working speed of the cutting unit 4, the transport speed of the rear stock transport apparatus 17, the rear tip transport apparatus 18 and the takeover transport apparatus 76, and the travel speed of the travel apparatus 2. , A saddle length detection switch 22 provided in the handling depth adjusting device 21, a vehicle speed sensor 86 provided in the transmission case 44, and a position detection sensor (potentiometer) of the main transmission operating lever 87 of the hydraulic continuously variable main transmission 45. ) 88 and the data collected by the on / off detection switch 90 of the cutting clutch operating lever 89 are used to control the motor 69 of the cutting unit transmission 52.

  Moreover, the conveyance speed A of the grain supply apparatus 30, the conveyance speed B of the takeover conveyance apparatus 76, and the conveyance speed C of the rear side stock conveyance apparatus 17 and the rear side tip conveyance apparatus 18 satisfy A <B <C. Sometimes it is a relationship. That is, the transfer speed B of the take-up transfer apparatus 76 is in the vicinity of the middle between the maximum speed of the transfer speed C of the rear side stock transfer apparatus 17 and the rear side tip transfer apparatus 18 and the transfer speed A (constant speed) of the cereal supply apparatus 30. The maximum speed is set. In the figure, 92 is a handling cylinder, 93 is a handling net, 94 is a waste transporting device, 95 is a waste disposal processing unit having a binding device or a cutter provided at the rear of the threshing device 3, 96 is a Glen tank, and 97 is a locking device. It is.

  Next, the operation will be described. The embodiment of the present invention has the above-described configuration. When the engine 43 is started, this rotation is transmitted to the hydraulic continuously variable main transmission 45, and the hydraulic continuously variable main transmission is operated by operating the operation lever 87 in the driver's seat. The device 45 changes the rotation speed steplessly and transmits it to the transmission case 44 of the traveling device 2 to advance the machine body. On the other hand, it is transmitted from the transmission case 44 to the cutting portion input pulley 46 to operate each portion of the cutting portion 4. The cereals were weeded by the weeding body 5, the cereals that were weeded were raised by the pulling device 6, and the root side was cut by the cutting blade 8 while being scraped by the scraping device 7, and was cut. The root side of the cereal is transported to the takeover point by the front side stock transport device 10 by the front side stock transport device 9, and the stock of the cereal that has been transported to the takeover point is the vertical axis of the rear side stock transport device 17. Rotating gear and rotating conveyor chain 1 And the 挾扼 rod 20 is clamped transported, the tip side is conveyed by the conveying lugs 23 of the guide has been rear tip conveying device 18 by guides 27.

  Then, at the terminal ends of the rear stock transport device 17 and the rear tip transport device 18, the takeover transport chain 80 of the takeover transport device 76 wound around the passive gear 78 rotating on the horizontal axis and above the takeover transport chain 80. Is taken over between the guide guides 85, the take-up conveying device 76 takes over the supply conveying chain 32 of the cereal supply device 30 and supplies it to the threshing chamber 31 of the threshing device 3, threshing by the rotating barrel 92, Sorted and taken out of the machine, the threshed waste is transported to the waste processing unit 95 by the waste transporting device 94 and processed. In the above case, the cereal is in a standing state at the terminal ends of the rear stock transporting device 17 and the rear tip transporting device 18, but it is guided by the guide guide 27 and turned sideways while being turned sideways. Therefore, there is no disturbance in the posture of the cereal conveyance, and the cereal is laid sideways and taken over to the supply conveyance chain 32 of the cereal supply device 30 in the final posture. To. In addition, since the take-up conveyance device 76 is parallel to the supply conveyance chain 32 of the cereal supply device 30 and is located on the inner side, the side view polymerization can be performed, and not only the takeover is ensured, The transport of short grain rice cake is ensured. In addition, the start end of the takeover conveyance chain 80 of the takeover conveyance device 76 faces the lower end of the rear stock transporter 17 and the start end of the supply conveyance chain 32 of the cereal supply device 30 is the takeover conveyance chain. Since it faces under the terminal part of 80, the takeover in each takeover part is performed satisfactorily.

  Since the drive gear 83 of the take-up conveyance chain 80 is provided on the rotary shaft 82 protruding from the gear case 56 provided on the side portion between the front and rear passive gears 78, the drive gear 83 and the front and rear passive gears 78 respectively. It is possible to accurately arrange the positional relationship of and to operate reliably. Further, since the clutch 41 is provided at the input pulley 54 portion of the gear case 56, when the cutting unit 4 is stopped, the take-up conveying device 76 is also stopped, and the start-up is synchronized so that the take-over is good, and the corn straw carrying posture Will also be good. Further, since the gear case 56 is fixed to the front plate of the threshing device 3 by the stay 42, the positional relationship among the takeover conveyance device 76, the rear side stock conveyance device 17, the rear side tip conveyance device 18 and the cereal supply device 30. Can be fixed, and the operation is reliable.

  Then, when the traveling device 2 is stopped by the hydraulic continuously variable main transmission 45, the cutting unit 4 and the take-over transport device 76 are stopped, so that the work is ensured and the operability is improved, and the sub-shift in the transmission case 44 is improved. When the machine is stopped by the device, the rotation is transmitted from the hydraulic continuously variable main transmission 45 to the harvesting unit 4 and the take-up conveying device 76, so that the threshing device 3 removes cereal grains that are being conveyed by the harvesting unit 4 or the like. Can supply. Thus, the hydraulic continuously variable main transmission 45 transmits the reverse rotation to the transmission case 44, but the passive split pulley 64 of the cutting part transmission 52 is a rotary shaft attached to the bearing 51 via the one-way rotation transmission clutch 75. Since 74 is attached, it is possible to prevent reverse rotation from being transmitted to the cutting unit 4 and the takeover conveyance device 76. At this time, since the rotating shaft 74 is attached to the one-way rotation transmission clutch 75 provided in the bearing 51, maintenance can be easily performed.

  Therefore, when the grain culm in the field is in the lying state, if the working speed of the cutting unit 4 is slow relative to the traveling speed, the lying grain culm may not be able to be pulled up sufficiently, but the cutting unit transmission 52 When the rotation transmitted to the mowing unit 4 is raised by operating the, the work can be performed reliably.

  That is, normally, the traveling device 2 and the cutting unit 4 are shifted in proportion by the hydraulic continuously variable main transmission 45, but the operating speed of the cutting unit 4 and the rear stock transport are independently set by the cutting unit transmission 52. The working speed according to the state of the cereal can be selected by changing the conveying speed of the apparatus 17, the rear tip conveying apparatus 18 and the stock transfer conveying apparatus 76.

  In this case, the transport speed A of the grain supply device 30, the transport speed B of the takeover transport device 76, and the transport speed C of the rear side stock transport device 17 and the rear tip transport device 18 are A <B <C. In this relationship, the speed is reduced by taking over from the rear stock transporter 17 and the rear tip transporter 18 to the takeover transport device 76, decelerated by the takeover from the takeover transport device 76 to the cereal supply device 30, and As the amount of the cereal increases as it is conveyed toward the supply device 30 and becomes thicker, and the conveyance speed gradually decreases, the conveyance posture is improved.

  That is, by operating the cutting part transmission device 52, the rotation transmitted to the cutting part 4 is raised so that the work of the overlaid cereals is made easy, and correspondingly, the rear conveying devices 17, 18 and There exists an effect that it can convey reliably by changing the conveyance speed of the stock takeover conveyance apparatus 76.

  Thus, the cereal supply device 30 lifts the upper cover 34 of the threshing device to move the heel 33 upward to open the upper surface of the supply conveyance chain 32, and then connect the transmission to the drive gear 37. And unlocking the lock device 97 that fixes the end of the guide rail 35 and the machine body side, and then rotating the end of the guide rail 35 outward about the vertical column 38 to Maintenance of the threshing chamber 31 of the threshing device 3 is performed.

Explanatory drawing of this invention. Explanatory drawing of a well-known example. Side view. Plan view. Side view. The side view of a transmission. Side view. FIG. Perspective view. Schematic of a transmission mechanism. Plan view. FIG. Explanatory drawing of another Example. FIG.

Explanation of symbols

1 body frame
2 traveling device 3 threshing device
4 Cutting part
13 Support pipe
14 Horizontal cylinder
15 support base
17 Rear stock transporter
19 Transport chain
30 Grain conveying device 31 Threshing chamber 32 Conveying chain (main supply conveying chain)
35 Guide rail 36 Gear (passive gear)
37 Gear (Drive gear)
38 vertical column 39 support frame 40 side cover
42 stays
44 mission case
45 Hydraulic continuously variable main transmission
50 gearbox
52 Cutting part transmission
56 Gear case
62 Belt
63 Drive split pulley
64 Passive split pulley
76 Succession transfer device
77 Chain guide rail 80 Takeover transfer chain (front supply transfer chain)
85 guide
A Conveying speed of grain feeder
B Transfer speed of takeover transfer device
C Conveying speed of rear stock transporter

Claims (1)

A support base (15) is attached to the transmission case (44) that transmits power to the traveling device (2), and is fixed to the base of the support pipe (13) on the cutting part (4) side above the support base (15). A horizontal cylinder (14) is rotatably attached, arranged on the front side of the threshing chamber (31) of the threshing device (3), and the harvested cereal meal is taken from the rear stock transporting device (17) on the reaping part (4) side a front feed conveying chain (80) that receive, when receiving the culms reaper from front side supply conveyor chain (80) provided with main supply transport chain for transporting the machine body backward (32), said front feed conveying chain (80 ) Is arranged inside the start end of the main supply transfer chain (32), and the start end of the front supply transfer chain (80) is placed below the end of the transfer chain (19) of the rear stock transport apparatus (17). Of the front supply and transfer chain (80) A gear case (56) for driving the front supply and transfer chain (80) is disposed on the side, and the gear case (56) is fixed to the front plate of the threshing device (3) via the stay (42), and a guide guide (85 ) With the end of the guide guide (85) facing above the start of the front supply and transfer chain (80). The guide guide (85) is configured to be movable between an operation position located above the start end portion of the front supply conveyance chain (80) and a retreat position away from the position above the start end portion of the front supply conveyance chain (80). And a support frame (39, which is provided by being biased so as to be positioned above the start end of the front supply / transport chain (80), the lower part being fixed to the machine frame (1) and the upper part being fixed to the front plate of the threshing device (3). ) Wherein with mounting the chain guide rails (77) for guiding the front supply conveyor chain (80) to the lifting frame (39), provided with the main supply conveyor chain (32) to the start end side in the longitudinal direction of the guide rail (35) said threshing apparatus the lower gear (36) and guide rails (35) vertical columns provided in the guide rail (35) by turning over between the gear (37) provided on the terminal end side of (38) (3) A support frame (39) fixed to the side is rotatably attached, and a side cover (40) disposed outside the main supply / transport chain (32) is attached to the guide rail (35), The side cover (40) and the guide rail (35) are configured so as to be integrally pivoted outward, and the conveying speed A of the cereal conveying apparatus (30) having the main supply conveying chain (32) and the above-mentioned Has a front supply transfer chain (80) The transfer speed B of the take-up transfer device (76) and the transfer speed C of the rear stock transport device (17) are set in a relationship of A <B <C, and the working speed and the front supply of the cutting part (4) are set. The conveyor chain (80) is configured to shift the conveyance speed in proportion to the traveling speed of the traveling device (2), and the working speed of the cutting unit (4) is set to the traveling speed of the traveling device (2). In providing the cutting part transmission (52) for independently shifting, the cutting part transmission (52) is provided between the transmission case (44) and the hydraulic continuously variable main transmission (45). A combine comprising a drive split pulley (63) on the box (50) side, a passive split pulley (64), and a belt (62) .

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