JP4363490B2 - Combine - Google Patents

Description

  The present invention relates to a combine having a reaping machine for harvesting cereals and a threshing machine for taking over and transporting the harvested cereals.

  The harvesting work of napped cereals with a combine is carried out in the cereal planting field, but the main shift lever is moved to a predetermined position depending on the dry / wet conditions of the cereal field, the cereal pattern, and the lying state. Then, the traveling vehicle speed of the traveling device is set, the planting field is traveled, and provided at the front part of the traveling chassis, the reaper is driven to rotate at a constant rotational speed regardless of the traveling vehicle speed. The napped grains are cut and the harvested grains are transferred to the rear upper part by the harvester. The feed chain of the threshing machine placed on the upper side of the traveling chassis is driven to rotate at a constant rotational speed regardless of the traveling vehicle speed, and the cereals transferred to the rear upper part by the reaping machine are combined with this feed chain To be taken over, and held between these feed chains and holding rods, and then threshed while being held in the threshing machine, and the threshed grains are supplied into the grain storage tank and temporarily stored. .

  During the aforementioned harvesting operation, even when the lodging state changes and the traveling vehicle speed is changed by operating the main shift lever, the rotation speed of the feed chain of the reaper and the threshing machine is rotated at a constant rotation speed, Grain harvesting and threshing are performed.

And, by operating a switch in the cab, the driving of the cutting pretreatment device and the feed chain is non-synchronized with respect to the combine vehicle speed. This non-synchronous control is configured to switch to a predetermined constant speed. (For example, see Patent Document 1).
Japanese Patent Laid-Open No. 9-275749

  Regardless of the traveling vehicle speed of the traveling device, the reaper that harvests cereals and the feed chain of the threshing machine are driven at a constant rotation speed, so that the traveling vehicle speed is particularly fastest or lowest. In some cases, the takeover of cereals from the reaper to the threshing machine feed chain may be poor, or the load fluctuation may increase, but this invention is intended to solve these problems. To do.

  Since non-synchronized control is a constant speed, when switching to non-synchronized control when the vehicle speed is low, the pre-cutting processing device is too fast, causing degranulation and transport disturbance.

In order to solve the above problems, the present invention takes the following technical means.
That is, the first hydraulic continuously variable transmission (9) for driving the reaper (3) for cutting and transferring the cereal and the feed chain (5) of the threshing machine (4) for taking over and transferring the chopped cereal is used. (3) Attach the side, the power of the thresher unit (4) of the blower fan first HST through the fan shaft (23a) of the belt (26a) (23) (9) for driving a configuration for transmitting the traveling device Attach second HST that drives (7) (22) to the transmission case (8), the travel device (7) linked to reaper the traveling speed of the (3) When the feed chain (5) is driven by the first hydraulic continuously variable transmission (9) , the main transmission lever (10a) and the first hydraulic continuously variable transmission (9) The 1st trunnion shaft (34) is connected with the first wire (34b), and the main transmission lever (1 a) a second hydraulic stepless transmission a second trunnion axis (22) (33) between a connected by a second wire (33b), the main shift lever (10a) the reaper and manipulating (3 ) and the feed chain (5) a configuration in which the first hydraulic second HST continuously variable transmission (9) and the running device drive for driving and (22) of Ru is shifting at the same time, the main shift lever provided operation means (11) to (10a), operating the the manipulation means (11) Then, the main shift lever of the first HST regardless operation position of (10a) (9) the 1 is controlled trunnion shaft (34), reaper (3) and the rotational speed of the feed chain (5) is traveling unit (7) a predetermined increased rotation speed or set in three stages for the same travel speed of with Ru is changed to one of the reduced rotation speed, the traveling speed 0 even reaper (3) and the feed chain (5) is obtained by the combined, characterized in that it has a structure to be driven at a predetermined rotational speed.

According to the present invention, the drive speed of the reaper ( 3 ) and the feed chain ( 5 ) can be increased or decreased in three stages by the operation of the operating means ( 11 ) regardless of the speed change operation position of the main speed change lever ( 10a ) . It becomes easy to cope with the state of cereals. In particular, when the fall of the cereal is severe, it is possible to increase the driving speeds of the reaper ( 3 ) and the feed chain ( 5 ) to quickly raise the cereal and harvest it. Further, at this time, since the traveling speed does not increase, an increase in load can be prevented.

Further, by providing operating means (11) to the main shift lever to set the running speed (10a), which is convenient can operate it is easily in the operating means (11). Even when the traveling vehicle speed is 0, the reaper (3) and the feed chain (5) can be driven at a predetermined rotational speed by operating the operating means (11).

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
At the front part of the traveling chassis 2 of the combine 1, there is provided a reaper 3 for harvesting and transferring cereals to the upper rear part, and above the traveling chassis 2, a feed chain 5 that takes over the supply of the harvested cereals. And the threshing machine 4 which provided the clamping rod 6 is mounted. The feed chain 5 and the clamping rod 6 are configured to thresh during the threshing movement in the threshing machine 4. Further, a hydraulic continuously variable transmission 9 is provided on the upper side of the traveling transmission case 8 which is equipped with a transmission mechanism 8a for rotationally driving the traveling crawler 7a of the traveling device 7 provided below the traveling chassis 2. 7 is configured to drive the reaper 3 and the feed chain 5 and the like of the threshing machine 4 with the hydraulic continuously variable transmission 9 in conjunction with the traveling vehicle speed 7 and operating means provided in the operating device 10. 11 is configured to increase or decrease the rotational speed of the reaper 3 and the feed chain 5 of the threshing machine 4 with respect to the same traveling speed. The transmission device 12 of the combine 1 mainly including the reaper 3, the feed chain 5 of the threshing machine 4, the hydraulic continuously variable transmission 9 and the like will be mainly illustrated and described.

  A traveling device 7 having a pair of left and right traveling crawlers 7a traveling on the soil surface as shown in FIG. 6 is disposed below the traveling chassis 2 of the combine 1, and a threshing is disposed above the traveling chassis 2. In this configuration, the machine 4 is placed. The brushed cereals are cut by the reaper 3 at the front part of the traveling chassis 2, and the chopped cereals are transferred to the rear upper part by the reaper 3, and are taken over by the feed chain 5 of the threshing machine 4 and the holding slag 6. Then, the threshing is carried out while nipping and transferring the inside of the threshing machine 4. The threshed and selected grain is temporarily stored in a grain storage tank 13 disposed on the right side of the threshing machine 4.

  As shown in FIG. 6, a narrow guide 14 a that separates the napped grains from the front end position, each weed body 14 b, and each pulling device 14 c that raises the napped grains are raised at the front part of the traveling chassis 2. Each rake device 15a of the culm scraping and transporting device 15 for scrambling the culm, a cutting blade device 14d for harvesting the scraped culm, and a threshing machine 4 The reamer 3 is provided with a root and tip transfer device 16a, 16b, etc. of the cereal scraping transfer device 15 to be delivered to the feed chain 5 and the holding rod 6. The reaper 3 is configured to move up and down with respect to the soil surface by a telescopic cylinder 17 that is hydraulically driven.

  A support pipe rod 18b in the left-right direction is provided at the upper end portion of the support rod 18a inclined from the front lower part to the rear upper part of the reaper 3, and the support device 18c provided on the upper side surface of the traveling chassis 2 is provided with this support pipe rod 18b. The reaper 3 is configured to rotate up and down with the support pipe rod 18b as the center of rotation by the operation of the telescopic cylinder 17.

  In the culm transfer path formed by the culm scraping transfer device 15 of the reaper 3, the presence or absence of supply of cereal to the threshing machine 4 is performed by acting on the culm that is harvested and transferred. It is the structure which provided the grain candy sensor 3b to detect.

  On the front side of the grain storage tank 13, as shown in FIG. 6, there are an operating device 10 for starting and stopping the combine 1 and adjusting each part, and a cockpit 19 on which an operator who performs these operations is boarded. The engine 20 is mounted on the upper side surface of the traveling chassis 2 below the cockpit 19, and the grain storage tank 13 is disposed in the rear part. It is the structure which formed the body 1a of the combine 1 with these traveling devices 7, the reaper 3, the threshing machine 4, the engine 20, and the like.

  In the transmission path of the transmission mechanism 8a in the traveling mission case 8 mounted on the front end of the traveling chassis 2, a potentiometer type vehicle speed sensor 8b for detecting the traveling vehicle speed is provided based on the output. It is a configuration.

  As shown in FIG. 1, a traveling axle 8 c that protrudes to the left and right outer sides is provided at the final stage of the transmission mechanism 8 a of the transmission case 8 of the transmission 12 of the combine 1 and is supported by the transmission case 8. A traveling sprocket 21a is pivotally supported at the tip of the traveling axle 8c, and a traveling crawler 7a is spanned between the traveling sprocket 21a and the rear sprocket 21b. The combine 1 travels by the rotational drive of the travel crawler 7a.

  A traveling hydraulic continuously variable transmission (second hydraulic continuously variable transmission) 22 is provided on the upper side of the transmission case 8 as shown in FIG. Is a structure in which a hydraulic shaft 22a is pivotally supported, and a pulley 22b is pivotally supported on the hydraulic shaft 22a. This pulley 22b and a pulley 20b that is supported by an engine shaft 20a provided in the engine 20 are configured to span a belt 24a, and the rotational power of the engine 20 is input to the hydraulic continuously variable transmission 22. It is a structure to be. The rotational power input to the hydraulic continuously variable transmission 22 is shifted by the hydraulic continuously variable transmission 22 and rotationally drives the transmission mechanism 8a built in the transmission case 8 to shift the traveling vehicle speed. It is.

  The engine shaft 20a of the engine 20 is provided with a pulley 20c as shown in FIG. In addition, a pulley 23b is pivotally supported at the right shaft end of the fan shaft 23a of the blower fan 23 that raises the sorting wind of the threshing machine 4. The pulley 23b and the pulley 20c of the engine 20 have a configuration in which a belt 24b is stretched. The belt 24b is provided with a threshing tension device 25a that "turns on" and "turns off" the rotational power of the engine 20, and "turns on" and "turns off" the rotational drive of the blower fan 23 of the threshing machine 4. .

  As shown in FIG. 1, a hydraulic continuously variable transmission (first hydraulic type) that rotates and drives the reaper 3 and the feed chain 5 of the threshing machine 4 at the left outer side of the support pipe rod 18a of the reaper 3 is provided. A continuously variable transmission) 9 is provided. The hydraulic continuously variable transmission 9 has a structure in which a pulley 9b is pivotally supported on a hydraulic shaft 9a.

  A pulley 23c is pivotally supported at the left shaft end of the fan shaft 23a of the blower fan 23, and a belt 26a is stretched over the pulley 23c and the pulley 9b of the hydraulic continuously variable transmission 9. It is. The belt 26a is provided with a tension device 25b that "turns on" and "turns off" the rotational power of the blower fan 23, and "turns on" and "turns off" the rotational power of the hydraulic continuously variable transmission 9. .

  The support pipe rod 18b of the reaper 3 and the hydraulic continuously variable transmission 9 are provided with a mowing upper transmission shaft 27 as shown in FIG. 1, and the right shaft end of the reaping upper transmission shaft 27 is provided. The transmission gear 27a that is pivotally supported on the portion and the transmission gear 28a that is pivotally supported on the upper end portion of the cutting upper and lower transmission shaft 28 that is pivotally supported on the support rod 18a are engaged with each other. is there. Further, a transmission gear 28b is pivotally provided at the lower end portion of the cutting vertical transmission shaft 28, and the cutting gear is provided by being pivotally supported on the transmission gear 28b and a cutting frame 29 provided at the lower end portion of the support rod 18a. The transmission gear 29b provided to be pivotally supported on the lower transmission shaft 29a has a meshed configuration.

  The rotational power input from the blower fan 23 of the threshing machine 4 to the hydraulic continuously variable transmission 9 is shifted by the hydraulic continuously variable transmission 9, and the rotational rotational power is transmitted to the transmission gear 27 a of the cutting top transmission shaft 27. Through the transmission gears 28a and 28b of the cutting upper and lower transmission shaft 28, the transmission gear 29b of the lowering transmission shaft 29a of the cutting frame 29 is driven to rotate at a variable speed, and each part of the reaper 3 is driven to rotate at a different speed. is there.

  A pulley 27b is pivotally supported at the left outer end of the cutting-up transmission shaft 27 of the support pipe rod 18b and the hydraulic continuously variable transmission 9. Further, a feed gear case 30 is provided on the left outer side of the threshing machine 4, and a pulley 30b is provided on a case transmission shaft 30a of the feed gear case 30 so that the pulley 30b and a cutting upper transmission shaft are provided. The belt 27b is stretched around the 27 pulley 27b.

  The case transmission shaft 30a of the feed gear case 30 has a structure in which a transmission gear 30c is pivotally mounted, and the feed gear case 30 is provided with a chain transmission shaft 31a pivotally supported. A transmission gear 31b is pivotally provided at the right shaft end, and a chain sprocket 5a is pivotally provided at the left outer end. The transmission gear 31b of the chain transmission shaft 31a and the transmission gear 30c of the case transmission shaft 30a are engaged with each other. Moreover, the chain sprocket 5a and the sprocket 5b at the transfer end portion are configured to span the feed chain 5.

  The rotational power input from the blower fan 23 of the threshing machine 4 to the hydraulic continuously variable transmission 9 is shifted by the hydraulic continuously variable transmission 9, and the variable rotational rotational power is transmitted from the cutting upper transmission shaft 27 to the belt 26b, Through the transmission gear 30c of the case transmission shaft 30a and the transmission gear 31b of the chain transmission shaft 31a, the chain sprocket 5a is driven to rotate at a variable speed and the feed chain 5 is driven to rotate at a variable speed.

Each part of the reaper 3 and the feed chain 5 are configured to be rotationally driven at the same time by the hydraulic continuously variable transmission 9.
As shown in FIG. 1, the operating device 10 is rotatably provided with a main transmission lever 10a for setting and operating the traveling vehicle speed of the traveling device 7. A support rod 32 is fixed to the lower end portion of the main transmission lever 10a. The base side of the support rod 32 and the tip end portion of the travel adjustment rod 33a that is fixedly provided to the trunnion shaft (second trunnion shaft) 33 that is controlled to perform variable speed rotation by the hydraulic continuously variable transmission 22 are: It is the structure connected with the wire (2nd wire) 33b etc.

  The front end side of the support rod 32 and the trimming adjustment rod 34a fixedly provided on the trunnion shaft (first trunnion shaft) 34 that is controlled by the hydraulic continuously variable transmission 9 are a wire (first wire). ) 34b or the like. Further, a gear 34c is provided on the outer portion of the trimming adjustment rod 34a, and the gear 34c and the gear 35a provided on the stepping motor 35 are in mesh with each other.

  When the main transmission lever 10a is operated to a predetermined position, the trunnion shaft 33 of the hydraulic continuously variable transmission 22 is controlled to rotate through the support rod 32, the wire 33b, and the travel adjustment rod 33a. The vehicle speed is controlled to be increased or decreased by the hydraulic continuously variable transmission 22. In conjunction with the shift control of the traveling vehicle speed of the traveling device 7, the trunnion shaft 34 of the hydraulic continuously variable transmission 9 is rotationally controlled via the support rod 32, the wire 34b, and the cutting adjustment rod 34a. The number of rotations of the reaper 3 and the feed chain 5 of the threshing machine 4 is configured to perform variable speed rotation drive control to increase rotation speed or decrease speed rotation by the hydraulic continuously variable transmission 9.

Further, the CPU 10c of the control device 10b provided in the operation device 10 is provided by operating the operation means 11 that operates on the speed increasing side and the speed reducing side by the ON-OFF switch method provided on the operation device 10. is input to the rotational speed of the cutting winding machine 3 a feed chain 5 of thresher machine 4, of the predetermined increased rotation speed or decelerating rotational speed set in the three stages for the same travel speed of the travel device 7 to either a change control configurations in CPU10c control device 10b.

  In conjunction with the change control of the traveling vehicle speed by the operation of the main transmission lever 10a of the traveling device 7, the rotational speeds of the reaper 3 for cutting the cereal and the feed chain 5 of the threshing machine 4 for threshing the cereal are: Change rotation control. Further, by operating the operating means 11, the rotational speed of the reaper 3 and the feed chain 5 of the threshing machine 4 with respect to the same traveling vehicle speed is controlled to the increasing rotational speed or the decelerating rotational speed. In conjunction with this, the reaper 3 and the feed chain 5 are rotated at different speeds, so that the cereal transfer from the reaper 3 to the feed chain 5 becomes good, and disturbance of conveyance can be prevented. In addition, for example, when the culling of the cereal is severe with respect to the traveling vehicle speed, the rotational speed of the reaper 3 and the feed chain 5 is increased by the operation of the operation means 11 so that the cereal can be quickly removed. Can be threshed and transferred by cutting and transferred to the threshing machine 4 and transferred through the threshing machine 4 quickly. Further, load fluctuations can be reduced.

  As shown in FIG. 2, the main speed change lever 10a is switched between a speed increasing side for changing the rotational speed of the reaper 3 and the feed chain 5 of the threshing machine 4 to a speed increasing speed or a speed reducing speed, and a speed reducing side. The ON-OFF switch type operation means 11 is provided.

The operation of the operation unit 11, as shown in Figure 3, the three stages to the traveling speed, increasing the rotational speed between the reaper 3 and full Idochen 5-speed, or is configured to decelerate. In a configuration in which the operating means 11 is not operated, the speed is increased from the point A to the point B, or the speed is decreased from the point B to the point A , and further the speed is increased from the point A to the point C, or the speed is decreased from the point C to the point A. is there. Even when the vehicle speed is 0, the reaper 3 and the feed chain 5 are configured to be rotationally driven at a predetermined rotational speed.

Wherein the operating means 11, as shown in Figure 4, by turning OFF after once turned ON to the acceleration side, the stepping motor 35 of the HST 9, once ON operation control to the acceleration side is a configuration you OFF from being. Furthermore, by turning OFF the operating means 11 from the once turned ON to the deceleration side, the stepping motor 35 of the HST 9, the configuration you OFF after being once turned ON control to the deceleration side is there.

  The main transmission lever 10a for setting the traveling vehicle speed of the traveling device 7 is provided with operation means 11 for increasing or decreasing the rotational speed of the reaper 3 and the feed chain 5, thereby changing the traveling vehicle speed. However, the operation means 11 can be easily operated. Also, the operation is convenient. Furthermore, operability can be improved.

  On the rear side of the grain storage tank 13 for discharging the grains stored in the grain storage tank 13 to the outside of the machine, a discharge support cylinder 36 equipped with a vertical transfer spiral 36a is rotatably mounted in a substantially vertical posture. The upper end of the discharge support cylinder 36 is provided with a discharge auger 37 that is extendable and retractable, and is provided with a discharge spiral 37 a that extends the length of the combine 1 in the longitudinal direction of the combine 1. It is the structure arrange | positioned in the front-back direction so that rotation and turning right and left are possible.

  As shown in FIGS. 7 and 8, the reaping machine 3 and the threshing machine 4 of the combine 1 are provided with a support plate 4b on the right outer side of the base 4a of the threshing machine 4, and the left outer side of the base 4a. This is a structure in which a rotatable rotating tool 38 is fixedly provided on the left side portion of the traveling chassis 2.

  A hydraulically driven tilting cylinder 39 is provided between a traveling frame 7 b of the traveling device 7 provided to protrude downward to the traveling chassis 2 and a support plate 4 b of the threshing machine 4. The reaping machine 3 and the threshing machine 4 are configured to be rotationally controlled in an inclined state toward the left outer side with the rotation tool 38 as a rotation center by the extension operation of the tilting cylinder 39.

  The reaping machine 3 and the threshing machine 4 are controlled to rotate and move to the left outer side by the operation of the tilting cylinder 39, so that the engine 20, the transmission case 8, the lower part of the reaper 3 and the traveling device. Maintenance of the vehicle body horizontal link 7 and cylinders (both not shown) can be easily performed.

  As shown in FIGS. 9 to 11, support frames 2 a and 2 a are provided on the upper side of the traveling chassis 2 at the left and right ends of the threshing machine 4, and on the left and right sides of each support frame 2 a, The support plate 2b is fixedly provided.

  Under the base 4a of the threshing machine 4, each wheel 4c is rotatably supported on both the left and right sides and the front and rear sides as shown in FIG. 11, and each wheel 4c is provided between each support plate 2b. The support frame 2a is provided so as to be positioned on the upper side surface. Further, a hydraulically driven front / rear cylinder 40 is provided between the mounting plate 2 c provided on the upper side surface of the traveling chassis 2 and the front portion of the base 4 a of the threshing machine 4. The telescopic operation of the front / rear cylinder 40 causes the wheels 4c of the threshing machine 4 to rotate back and forth on the upper side surfaces of the support frames 2a of the traveling chassis 2, and the threshing machine 4 is configured to be movable back and forth. .

  The threshing machine 4 moves the upper side surface of the traveling chassis 2 in the front-rear direction by the expansion and contraction operation of the front and rear cylinders 40, thereby maintaining the engine 20, the transmission case 8, the vehicle body horizontal ring of the traveling device 7, and the cylinders. Is easy.

  As shown in FIGS. 12 and 13, the support pipe rod 18 b of the reaper 3 is provided with an inner transmission shaft 41 as an internal support shaft, and an inner coupling 41 a is provided at an outer end portion of the inner transmission shaft 41. The pivot shaft 42 is provided integrally with the support pipe rod 18b at the right end of the support pipe rod 18b. The rotation shaft 42 is inserted into the right rotation support metal 43a and is pivotally supported.

  The left outer end of the support pipe rod 18b and the outer support metal 44 are supported by the left support metal 43b. The support pipe rod 18b is rotatably supported on one side of the distal end portion of the left support metal 43b, and the left metal 44 is provided on the other side portion of the distal end portion.

  The left metal 44 is provided with an external transmission shaft 44a as an internal shaft. The rotational power of the engine 20 is input to the outer end of the external transmission shaft 44a, and each part of the reaper 3 is rotationally driven. The input pulley 44b is pivotally supported, and an outer coupling 44c is pivotally supported at the inner end. The outer coupling 44c and the inner coupling 41a are configured to mesh with one touch.

  When the reaper 3 is rotated to the right outer side as shown in FIG. 12, the inner and outer couplings 41a and 44c are disengaged and the pivot shaft of the support pipe rod 18b inserted into the right rotation support metal 43a. As a rotation center of 42, the reaper 3 is configured to be rotated to the right outside.

As a result, when the reaper 3 is rotated outward, it is not necessary to remove the belt 44d spanned to the input pulley 44b, and the reaper 3 can be easily rotated.
The front and rear cylinders 45 for moving the reaper 3 in the front-rear direction are provided as shown in FIG. 14, and below the right rotation support metal 43a and the left support metal 43b of the reaper 3 are shown in FIG. Thus, each wheel 3a is rotatably supported.

  Each wheel 3a is configured such that the upper side surface of each support frame 2a provided on the traveling chassis 2 is rotated back and forth by the expansion and contraction operation of the front and rear cylinders 45 as shown in FIG. It is the structure which moves back and forth. Each support plate 2b is provided on each of the left and right sides of each support frame 2a. Further, as shown in FIGS. 12 and 13, the reaper 3 is configured to be movable to the right outer side.

  Thereby, the said mower 3 eliminates interference with the feed chain 5 of the threshing machine 4 by moving ahead, and it is easy to rotate the mower 3 to the right outer side. Further, by moving forward, even if the opening / closing angle is small, the space becomes large. For this reason, the opening / closing angle can be reduced, and the weight and size of the support member can be reduced.

Combined transmission mechanism diagram Enlarged plan view of the operation unit Relationship diagram between reaper and feed chain and traveling vehicle speed Time chart diagram Block Diagram Overall side view of the left side of the combine It is a figure which shows another Example, An enlarged rear view at the time of rotational movement to the outside of a reaper and a threshing machine It is a figure which shows another Example, An enlarged front view at the time of rotational movement to the outer side of a reaper and a threshing machine It is a figure which shows another Example, and an enlarged plan view at the time of backward movement of a threshing machine It is a figure which shows another Example, The enlarged side view at the time of backward movement of a threshing machine It is a figure which shows another Example, The enlarged rear view of the moving part of the threshing machine lower part It is a figure which shows another Example, and is an enlarged plan view at the time of rotational movement to the side outside of a reaper It is a figure which shows another Example, The enlarged rear view of a rotation moving part to the side outer side of a reaper It is a figure which shows another Example, It is an enlarged plan view at the time of rotational movement to the outer side of a reaper, and forward movement It is a figure showing other embodiments, and an enlarged rear view of the moving part at the lower part of the reaper

Explanation of symbols

DESCRIPTION OF SYMBOLS 3 Harvesting machine 4 Thresher 5 Feed chain 7 Traveling device 9 Hydraulic continuously variable transmission (1st hydraulic continuously variable transmission)
10a Main transmission lever 10b Control device 11 Operating means 22 Hydraulic continuously variable transmission (second hydraulic continuously variable transmission)

Claims (1)

The first hydraulic continuously variable transmission (9) for driving the reaper (3) for cutting and transferring the cereal and the feed chain (5) of the threshing machine (4) for taking over and transferring the chopped cereal is used as the reaper (3 ) Attach the side, transmitting the power of the fan shaft (23a) first HST via a belt (26a) from (9) for driving the blower fan (23) of the thresher unit (4) configuration and then to the travel device (7) Attach the second HST (22) the transmission case to drive the (8), the travel device (7) linked to reaper the traveling speed of (3 ) And the feed chain (5) are driven by the first hydraulic continuously variable transmission (9) , the main transmission lever (10a) and the first trunnion of the first hydraulic continuously variable transmission (9) The main transmission lever (10a) is connected to the shaft (34) by the first wire (34b). Between the second hydraulic stepless transmission (22) a second trunnion axis (33) connected by a second wire (33b), the main shift lever (10a) the reaper and manipulating (3) and feed Chen (5) a structure in which the second hydraulic stepless transmission of the first hydraulic stepless transmission (9) and running device for driving the drive (22) Ru is shifting at the same time, the main shift lever (10a) the provided operation means (11), operating the the manipulation means (11), the main shift lever first trunnion axis of the first HST regardless operation position of (10a) (9) (34) is controlled, reaper (3) and the rotational speed of the feed chain (5), the predetermined increased rotation speed or decelerating rotational speed set in the three stages for the same travel speed of the traveling device (7) with Ru is changed to one of the running vehicle speed is 0 Combine the reaper (3) and the feed chain (5) it is characterized by being configured to be driven at a predetermined rotational speed.

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