JP3680353B2 - Transmission device for work equipment traveling device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission device for a traveling device of a work machine.
[0002]
[Prior art]
Japanese Laid-Open Patent Publication No. 6-270112 discloses a conventionally known input shaft to which engine rotation is transmitted, a variable pump to which rotation of the input shaft is input, and a variable pump that operates and outputs rotation. Between the input shaft and the shaft that is rotated by the variable motor when the maximum output rotational speed is output by the hydraulic continuously variable transmission. A configuration is described in which a mechanical transmission path is provided for gear transmission that can travel faster than the maximum speed of the hydraulic continuously variable transmission without using a transmission.
[0003]
[Problems to be solved by the invention]
In the known example, since the rotation transmitted by the hydraulic continuously variable transmission has a loss (horsepower loss), a mechanical transmission path is provided separately from this transmission path to avoid transmission loss and improve transmission efficiency. However, there is a problem that switching from transmission of the hydraulic continuously variable transmission to gear transmission is limited to the maximum output rotational speed of the hydraulic continuously variable transmission.
That is, if the gear transmission is made possible at times other than the maximum output rotation speed by the hydraulic continuously variable transmission, the transmission efficiency can be further improved.
In addition, if switching between transmission and gear transmission by the hydraulic continuously variable transmission is simply performed at any time, it may be performed even if the rotation region is different, and there is a problem that switching shock is large.
[0004]
OBJECT OF THE INVENTION
Enables switching between HST transmission and gear transmission at any travel speed, improves transmission efficiency, and makes effective use of engine output.
[0005]
[Means for Solving the Problems]
In the present invention, the rotation of the input shaft (2) to which the rotation of the engine is transmitted is steplessly shifted by the hydraulic continuously variable transmission (4) and transmitted to the left and right wheel shafts (17). Separately, a mechanical transmission path (X) from the input shaft (2) to the left and right wheel shafts (17) is provided, and the HST transmission and the mechanical transmission path (X) by the hydraulic continuously variable transmission (4) are provided. The mechanical transmission path (X) is provided with a mechanical transmission (Y) that can be mechanically shifted in multiple stages, and the hydraulic continuously variable transmission (4). Rotational speed at which the rotational speed output from the output shaft (2) to the wheel shaft (17) is transmitted to the wheel shaft (17) in any of the plurality of stages set by the mechanical transmission (Y). when consistent with the number of regions, configured to run by gear transmission In both cases, when there is any tilting operation before or after the HST lever (35) for performing the shifting operation of the hydraulic continuously variable transmission (4) during traveling by the gear transmission, the gear transmission changes to the HST transmission. The input shaft (2) is also used as an input shaft for inputting rotation to the hydraulic continuously variable transmission (4), and the input shaft (2) has the mechanical transmission path (X ), The mechanical transmission input clutch (20) for turning on and off the rotation transmitted to the mechanical transmission gear, the mechanical output gear (21) for rotational output to the mechanical transmission path (X), and the rotation input to the hydraulic continuously variable transmission (4). And an HST transmission input clutch (27) for turning on and off the shaft, and a shaft (7) on which the rotation from the engine is shifted and output by the hydraulic continuously variable transmission (4) is output to the hydraulic continuously variable transmission (4 )from An HST transmission output clutch (28) for turning on and off the force rotation and a plurality of gears (25) of the mechanical transmission (Y) for mechanically changing the rotation from the mechanical transmission input clutch (20) are provided. This is a transmission device for a traveling device of a working machine.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to the drawings. Reference numeral 1 denotes a transmission case that transmits engine rotation to a traveling device of a work machine such as a combine. In the present embodiment, an example of a combine will be described. An input shaft 2 is provided at the top of the mission case 1. Reference numeral 3 denotes an input pulley to which rotation from the engine is transmitted. A hydraulic continuously variable transmission (such as a hydrostatic transmission (HST)) 4 is provided on the side of the transmission case 1. The input shaft 2 inputs the rotation to the variable pump 5 of the hydraulic continuously variable transmission 4, and the variable pump 5 sends oil to the variable motor 6 to transmit the rotation. The variable motor 6 outputs rotation to the first intermediate shaft 7 provided in the mission case 1. An output gear 8 is fixed to the first intermediate shaft 7, and an intermediate gear 10 fixed to the second intermediate shaft 9 is always meshed with the output gear 8.
[0007]
The intermediate gear 10 always meshes with a center gear 12 fixed to the side clutch shaft 11. A left and right clutch 13 is provided on the side clutch shaft 11. The left and right clutch 13 is provided with clutch pawls on both the left and right sides of the center gear 12, respectively, and is provided with a clutch pawl on a side clutch gear 14 that is slidably provided on the left and right sides of the center gear 12. Each of the 14 clutch pawls is configured to be detachably engaged.
Left and right fixed drums 15 are provided in the left and right transmission cases 1 of the side clutch shaft 11, and left and right brakes 16 are provided between the left and right fixed drums 15 and the left and right side clutch gears 14, respectively. The left and right brakes 16 are configured such that a rotating disk that rotates together with the side clutch gear 14 is slidably contacted with a fixed disk provided in the left and right fixed drum 15. Wheel gears 18 provided on the left and right wheel shafts 17 mesh with the left and right side clutch gears 14.
[0008]
Thus, the rotation of the input shaft 2 is steplessly shifted by the hydraulic continuously variable transmission 4 and transmitted to the left and right wheel shafts 17, but the rotation transmitted by the hydraulic continuously variable transmission 4 has a loss (horsepower). In addition to this transmission path, a mechanical transmission path X extending from the input shaft 2 to the left and right wheel shafts 17 is provided, and transmission from the hydraulic continuously variable transmission 4 (hereinafter referred to as HST transmission). ) And mechanical transmission (hereinafter referred to as gear transmission) to transmit the rotation.
That is, as shown in FIG. 4, at the start of running, when running with HST transmission for alignment, etc., when gear cutting is performed when the cutting operation is stable, the horsepower loss is eliminated and the load of the threshing chamber can be accommodated. When turning, a delicate operation is required, so HST transmission can be considered, and it is ideal to switch the transmission path according to the work state.
The mechanical transmission path X is provided with a mechanical transmission input clutch 20 on the input shaft 2, and transmits the rotation to the mechanical output gear 21 loosely fitted to the input shaft 2 via the mechanical transmission input clutch 20. The mechanical transmission input clutch 20 is configured so that a disk provided in a drum 22 provided on the input shaft 2 and a mechanical output gear 21 loosely fitted on the input shaft 2 and a disk rotating integrally with the input shaft 2 are slidably contacted. Constitute.
The mechanical output gear 21 is always meshed with an intermediate gear 23 provided on the first intermediate shaft 7, and a plurality of switching gears 25 that are rotated by the rotation of the intermediate gear 23 are provided on the first intermediate shaft 7 so as to be freely slidable. A group of gears 26 that are selectively meshed by sliding the switching gear 25 by a shifter (not shown) is provided on the second intermediate shaft 9, and the rotation is transmitted from the intermediate gear 10 to the center gear 12.
[0009]
Thus, the switching gear 25 and the gear 26 constitute a mechanical transmission Y.
That is, although the appropriate traveling speed differs depending on the work state, only a predetermined (fixed) rotational speed according to the set gear ratio can be transmitted in the gear transmission, so the mechanical transmission device Y is connected to the mechanical transmission path X. It is configured so that gear transmission can be performed at a plurality of predetermined speeds, and switching to gear transmission is possible at various set speeds (speed ranges) as shown in FIG. In the mechanical transmission device Y of the embodiment of FIG. 1, a two-stage shift is performed, but the present invention is not limited to this, and when the switching gear 25 and the gear 26 are increased, a multi-stage shift is performed.
A clutch for turning on and off the rotation transmission in accordance with the switching between the HST transmission and the gear transmission is provided. The input shaft 2 is provided with an HST transmission input clutch 27 for transferring the rotation to the variable motor 6, and when the rotation is transmitted to the mechanical output gear 21, the input to the hydraulic continuously variable transmission 4 is stopped, Prevent the loss of horsepower. The first intermediate shaft 7 is also provided with an HST transmission output clutch 28 to prevent the generation of horsepower loss when the hydraulic continuously variable transmission 4 is not used.
[0010]
Therefore, the switching between the HST transmission and the gear transmission can be selected between an automatic mode automatically controlled by the control unit 29 according to preset conditions and a gear transmission and an HST transmission at the operator's intention in a desired traveling state. A manual mode is provided, and this control mode is switched by the control mode switch 30. A transmission selection switch 31 is provided that can select between gear transmission and HST transmission when the manual mode is selected by the control mode switch 30.
As an example of the control condition, after detecting by the cutting clutch sensor 32 that the cutting clutch that turns on and off the rotation transmission to the cutting unit is turned on, the HST transmission is set within the set time, and then set during the set time. When driving at the vehicle speed and there is no change in the vehicle speed, the transmission is switched from HST transmission to gear transmission (FIG. 6). At the start of running, it is necessary to repeat slow speed running and forward / backward travel for adjustment, etc., so that operability is improved by running with HST transmission, and when chopping work is stable, threshing device It is an efficient work by allocating rotational energy.
Further, the reaping presence / absence detection unit 33 is provided in the reaping part, and when the cereal presence / absence detection unit 33 is not detected, the operability is given priority and the cereal presence / absence detection unit 33 detects the cereal. When gear transmission is used, the efficiency is prioritized by avoiding the horsepower loss of the hydraulic continuously variable transmission 4 with respect to the threshing load (FIG. 7). In addition, when the cutting clutch sensor 32 detects onset, gear transmission and HST transmission can be arbitrarily selected. However, when the cutting clutch sensor 32 detects disconnection, HST transmission is selected to improve operability. Let That is to say, the work other than the mowing work is mainly movement, and the HST transmission is sufficient for the movement, and the HST transmission can finely adjust the speed, thereby improving the operability and preventing the erroneous operation. .
[0011]
In addition, a vehicle speed sensor (rotational speed detection device) 34 for detecting the airframe traveling speed is provided, and the vehicle speed sensor 34 is configured to be able to detect back (reverse), and when back (reverse), only HST transmission is performed. To do. That is, there is no back in the gear transmission, and if the gear transmission is made in the back state, the gear moves forward and goes against the operator's intention. Further, when the HST lever 35 is operated to reverse, the gear transmission is released. In FIG. 8, reference numeral 36 denotes a guide groove that guides the tilting of the HST lever 35 provided in the operation unit 37, and 38 denotes a lever position detection unit (potentiometer) that detects the position of the HST lever 35.
Further, the section L set from the neutral position of the HST lever 35 is a zone where switching to gear transmission is not possible. Therefore, switching to gear transmission is not performed in the low speed range below the set speed. That is, since the threshing load is small at low speed traveling, the influence of horsepower loss is small, the vehicle can be driven by HST transmission, and the speed that can be switched to the gear transmission in the low speed range by the mechanical transmission Y is When the speed is low, the gap between the HST transmission speed and the gear transmission speed is large, and if switching to gear transmission, the shock of switching increases, so by controlling switching to gear transmission, running stability Is secured. Note that the section L of the zone incapable of switching to the gear transmission may be set in the control unit 29 in advance, and this setting value is determined by comparing the data of the lever position detection unit 38. However, the back (reverse) section may be a non-switchable zone.
[0012]
If the HST lever 35 at this time is tilted forward or backward during traveling by gear transmission, the gear transmission is switched to HST transmission. In other words, since gear transmission is inherently a constant speed travel, at this time, when the operator wants to change the HST lever 35, it is when the speed is to be changed. Is detected by the lever position detection unit 38, thereby switching to HST transmission. Therefore, not only the operability is improved, but also rapid deceleration or sudden stop by the operation of the HST lever 35 is possible, and the responsiveness of the emergency operation is improved.
Further, the power steering for performing the turning operation is provided in the operation unit. However, when the power steering is continuously operated for a set time or longer, the gear transmission is switched to the HST transmission (FIG. 9). That is, during the turning operation by the power steering, since the operation speed is delicate, the HST transmission is applied. Also, when the power steering operation is not longer than the set time, the HST transmission is switched to the gear transmission. That is, assuming that there is no turning operation by power steering, gear transmission is used.
Further, when the brake pressure of the left and right brakes 16 is lower than the set value, the transmission is switched to the gear transmission, and when it is higher, the transmission is switched to the HST transmission.
[0013]
Further, during traveling by gear transmission, the operation of the HST lever 35 is fixed and can be operated after switching to the HST transmission. In this case, the HST lever 35 cannot be operated to the front side (high speed side), but may be shiftable to the rear side. If the HST transmission is moved to a lower speed side than the first position, the HST lever 35 is suddenly decelerated and neutralized. It can be stopped suddenly, improving operability in an emergency. Reference numeral 39 denotes a brake lining that fixes the operation of the HST lever 35, reference numeral 40 denotes a cam mechanism that operates the brake lining 39, and reference numeral 41 denotes a motor that operates the cam mechanism 40.
When the control conditions are as described above and the automatic mode is set, the control unit 29 performs all switching according to the conditions, and the operator only determines the airframe traveling speed and can perform the operation without worrying about switching. I can concentrate. Further, in the manual mode, HST transmission and gear transmission can be selected according to the operator's intention. At this time, the control unit 29 ignores conditions such as the data of the culm presence / absence detection unit 33.
Although not shown in the drawings, a display unit is provided on the operation unit, and the display unit displays the running speed and what level of gear transmission can be switched to facilitate manual operation. Sometimes.
[0014]
FIG. 2 shows an example of the switching control, and the control unit 29 operates the solenoid 43 of the switching valve 42.
Further, the charge pump 44 is provided in a portion where the input shaft 2 is mounted on the transmission case 1 and is operated by the input shaft 2. The charge pump 44 is used for charging the hydraulic continuously variable transmission 4 and each hydraulic clutch. Shared for switching. Since the charge pump 44 is operated by the input shaft 2, the variable pump 5 always rotates when the engine is started. Therefore, the variable pump 5 can be rotated even when the hydraulic continuously variable transmission 4 is stopped. It can also be used as a pump for clutches (HST transmission input clutch 27, HST transmission output clutch 28, etc.).
Further, the drive oil of the hydraulic continuously variable transmission 4 and the lubricating oil of the transmission case 1 are combined, and excess oil of the hydraulic continuously variable transmission 4 passes through the variable motor 6 from the hydraulic continuously variable transmission case 45 main body. Then, a communication port 46 that circulates in the mission case 1 is provided in the upper part of the variable motor 6 and the mission case 1, and a discharge port 47 is provided so that the HST transmission input clutch 27 is discharged to a position for cooling and lubrication. By using the oil reservoir 48 in the lower part of the transmission case 1 and also using oil, the size and cost can be reduced, and the durability is improved by self-lubricating the HST transmission input clutch 27. 49 is a filter, 50 is an oil feeding pipe.
[0015]
The rotation of the engine is transmitted to the input shaft 2 by the input pulley 3, the rotation of the input shaft 2 is transmitted to the second intermediate shaft 9 through HST transmission or gear transmission, and the rotation of the second intermediate shaft 9 is transmitted to the intermediate gear 10. When the clutch pawls provided on the side clutch gear 14 are engaged with the clutch pawls on both the left and right sides of the center gear 12, the left and right clutch 13 is turned on. Thus, the side clutch gear 14 rotates, and the side clutch gear 14 transmits the rotation to the wheel shaft 17 to drive the traveling device to travel.
Thus, when the power steering lever is tilted to either the left or right, one of the left and right side clutch gears 14 is disengaged, for example, the left clutch 13 is disengaged, and the clutch pawl is completely disengaged. The left side clutch gear 14 slides with respect to the side clutch shaft 11 beyond the neutral position, and the rotating disk of the left brake 16 is brought into contact with the fixed disk fixed to the transmission case 1 to brake the rotation of the rotating disk. , The rotation of the left wheel shaft 17 is decelerated through the left side clutch gear 14 to perform a left turn pivot turn (brake turn).
[0016]
Thus, in the HST transmission, the rotation of the input shaft 2 is input to the variable pump 5 of the hydraulic continuously variable transmission 4 via the HST transmission input clutch 27, and the variable pump 5 supplies oil to the variable motor 6. Then, the rotation is transmitted, and the variable motor 6 outputs it to the first intermediate shaft 7 via the HST transmission output clutch 28. In this case, the oil feed amount from the variable pump 5 to the variable motor 6 is manipulated by the HST lever 35 so that the vehicle travels steplessly.
When traveling by gear transmission, the HST transmission input clutch 27 and the HST transmission output clutch 28 are disconnected, the mechanical transmission input clutch 20 is engaged, and the rotation of the input shaft 2 is transmitted to the mechanical output gear 21. Rotation is transmitted to the second intermediate shaft 9 by meshing of the switching gear 25 and the gear 26, and the wheel shaft 17 is rotated to travel.
In this case, since the mechanical transmission Y is provided in the gear transmission path, the gear transmission can transmit various set speeds, so that it is possible to travel by the gear transmission even at a traveling speed corresponding to each work state. Thus, it is possible to eliminate the horsepower loss and distribute the limited energy of the engine to perform efficient work.
[0017]
Therefore, the switching between the HST transmission and the gear transmission is made into an automatic mode in which automatic control is performed according to preset conditions, and a manual mode in which the gear transmission and the HST transmission can be selected at the operator's intention in a desired traveling state. Since it can be switched by the control mode changeover switch 30, in the automatic mode, the HST transmission and the gear transmission are automatically switched, and the transmission path switching according to the shift by the mechanical transmission Y in the gear transmission path is automatically controlled. It is possible to concentrate on the operation without worrying about the shifting operation and the switching operation of the mechanical transmission Y. In addition, depending on the work, the manual mode is selected and the speed change operation and switching operation of the mechanical transmission device Y are performed, so that traveling according to the operator's intention can be performed, the operability can be improved, and the work can be performed easily.
In this case, the above-described various control conditions are not applied only to either the automatic mode or the manual mode, but are configured to be performed by the control unit 29 based on various data in a comprehensive manner. Even so, the control unit 29 performs control in consideration of whether or not the speed change operation and switching of the mechanical transmission device Y is appropriate, the timing of switching, etc. The control by the signal from the detection unit 33 is canceled to stabilize the running comprehensively. In this respect, even in the manual mode, the partial automatic control by the control unit 29 is performed. The control content is not limited depending on the difference in expression.
[0018]
【effect】
In the present invention, the rotation of the input shaft (2) to which the rotation of the engine is transmitted is steplessly shifted by the hydraulic continuously variable transmission (4) and transmitted to the left and right wheel shafts (17). Separately, a mechanical transmission path (X) from the input shaft (2) to the left and right wheel shafts (17) is provided, and the HST transmission and the mechanical transmission path (X) by the hydraulic continuously variable transmission (4) are provided. The mechanical transmission path (X) is provided with a mechanical transmission (Y) that can be mechanically shifted in multiple stages, and the hydraulic continuously variable transmission (4). Rotational speed at which the rotational speed output from the output shaft (2) to the wheel shaft (17) is transmitted to the wheel shaft (17) in any of the plurality of stages set by the mechanical transmission (Y). when consistent with the number of regions, configured to run by gear transmission In both cases, when there is any tilting operation before or after the HST lever (35) for performing the shifting operation of the hydraulic continuously variable transmission (4) during traveling by the gear transmission, the gear transmission changes to the HST transmission. The input shaft (2) is also used as an input shaft for inputting rotation to the hydraulic continuously variable transmission (4), and the input shaft (2) has the mechanical transmission path (X ), The mechanical transmission input clutch (20) for turning on and off the rotation transmitted to the mechanical transmission gear, the mechanical output gear (21) for rotational output to the mechanical transmission path (X), and the rotation input to the hydraulic continuously variable transmission (4). And an HST transmission input clutch (27) for turning on and off the shaft, and a shaft (7) on which the rotation from the engine is shifted by the hydraulic continuously variable transmission (4) and output. )from An HST transmission output clutch (28) for turning on and off the force rotation and a plurality of gears (25) of the mechanical transmission (Y) for mechanically changing the rotation from the mechanical transmission input clutch (20) are provided. since it is obtained by the transmission of the working machine driving apparatus, of course when the maximum output speed by the hydraulic stepless transmission, when any traveling speed of the others (previously set) In addition, it is possible to switch to gear transmission by changing the rotation speed in gear transmission by mechanical transmission device Y in mechanical transmission path X, further improving transmission efficiency and effective engine output It can be used and contributes to energy saving.
In addition, when the rotational speed of the hydraulic continuously variable transmission 4 coincides with the rotational speed region of any of a plurality of stages set by the mechanical transmission Y, it is configured to travel by gear transmission. Prevents the transmission path from switching when the rotation area is extremely different, prevents the switching shock from increasing, improves running stability, and prevents erroneous operation with incorrect switching timing. , Improve operability.
Further, during traveling by gear transmission, when there is any tilting operation before or after the HST lever 35 for performing the shifting operation of the hydraulic continuously variable transmission 4, the gear transmission is switched to the HST transmission. Therefore, not only the operability is improved, but also sudden deceleration or sudden stop by the operation of the HST lever 35 is possible, and the responsiveness of the emergency operation is improved.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a deployed state of a mission case.
FIG. 2 is a diagram showing an example of control.
FIG. 3 is an explanatory diagram of a running state.
FIG. 4 is an explanatory diagram showing an example of a switching state.
FIG. 5 is an explanatory diagram showing a relationship between gear transmission and HST transmission by the mechanical transmission Y;
FIG. 6 is a flowchart.
FIG. 7 is a flow diagram.
FIG. 8 is a partial perspective view of the HST lever.
FIG. 9 is a flowchart.
FIG. 10 is a flowchart.
FIG. 11 is a partial perspective view of an HST lever.
FIG. 12 is a rear view of the same.
FIG. 13 is a hydraulic circuit diagram of a hydraulic continuously variable transmission.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Mission case, 2 ... Input shaft, 3 ... Input pulley, 4 ... Hydraulic continuously variable transmission, 5 ... Variable pump, 6 ... Variable motor, 7 ... First intermediate shaft, 8 ... Output gear, 9 ... Second intermediate shaft, 10 ... intermediate gear, 11 ... side clutch shaft, 12 ... center gear, 13 ... left and right clutch, 14 ... side clutch gear, 15 ... left and right fixed drum, 16 ... left and right brake, 17 ... wheel shaft, 18 ... Wheel gear, 20 ... mechanical transmission input clutch, 21 ... mechanical output gear, 22 ... drum, 23 ... intermediate gear, 25 ... switching gear, 26 ... gear, 27 ... HST transmission input clutch, 28 ... HST transmission output clutch, DESCRIPTION OF SYMBOLS 29 ... Control part, 30 ... Control mode changeover switch, 31 ... Transmission selection switch, 32 ... Harvesting clutch, 33 ... Grain basket presence detection part, 34 ... Vehicle speed sensor, 35 ... HST lever, 36 ... Plan Inner groove, 37 ... operation part, 38 ... lever position detection part, 39 ... brake lining, 40 ... cam mechanism, 41 ... motor, 42 ... switching valve, 43 ... solenoid, 44 ... charge pump, 45 ... hydraulic continuously variable transmission Device case, 46 ... communication port, 47 ... discharge port, 48 ... oil reservoir, 49 ... filter, 50 ... oil feed pipe.

Claims (1)

The rotation of the input shaft (2) to which the rotation of the engine is transmitted is steplessly shifted by the hydraulic continuously variable transmission (4) and transmitted to the left and right wheel shafts (17). A mechanical transmission path (X) from the input shaft (2) to the left and right wheel shafts (17) is provided, and HST transmission by the hydraulic continuously variable transmission (4) and gear transmission by the mechanical transmission path (X) The mechanical transmission path (X) is provided with a mechanical transmission (Y) capable of performing a mechanical shift in a plurality of stages, and an output shaft ( 4) of the hydraulic continuously variable transmission (4) ( 2) the rotational speed output to the wheel shaft (17) is transmitted to the wheel shaft (17) of any of the plurality of stages set by the mechanical transmission (Y); when matched, as well as configured to run by gear transmission, the When the HST lever (35) for performing the shifting operation of the hydraulic continuously variable transmission (4) is tilted either before or after the traveling by the gear transmission, the gear transmission is switched to the HST transmission. The input shaft (2) is also used as an input shaft for inputting rotation to the hydraulic continuously variable transmission (4), and the input shaft (2) is transmitted to the mechanical transmission path (X). The mechanical transmission input clutch (20) for turning the rotation to be turned on and off, the mechanical output gear (21) for turning to the mechanical transmission path (X), and the rotation to be inputted to the hydraulic continuously variable transmission (4) are turned on and off. The HST transmission input clutch (27) is provided, and the shaft (7) from which the rotation from the engine is shifted by the hydraulic continuously variable transmission (4) is output from the hydraulic continuously variable transmission (4). Output rotation Ri plurality of gears (25) and respectively provided with the work of the mechanical transmission device for mechanically shifting the rotation from the the HST transmission output clutch to cut (28) mechanical transmission input clutch (20) (Y) Transmission device of the traveling device of the machine.

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