JP4409314B2 - Combine - Google Patents

Description

The present invention relates to a combine provided with a preprocessing transmission case for shifting engine power and transmitting it to a preprocessing unit .

A combine equipped with a preprocessing transmission case that shifts engine power and transmits it to a preprocessing unit and a threshing food chain is known. This type of combine can synchronize the stalk-and-feed speed of the pretreatment unit and the threshing feed chain, so that the culm can be successfully transferred from the pretreatment unit to the threshing feed chain (for example, Patent Documents). 1).
JP 2002-305942 A

However, in the conventional combine configured as described above, the transmission path from the engine to the pre-processing transmission case and the transmission path from the engine to the threshing unit are configured independently, so the transmission structure inside the fuselage There is a problem that becomes complicated.
Moreover, in the conventional combine, since the hydraulic oil tank is configured independently and disposed in the front space of the threshing section, it is difficult not only to secure the necessary tank capacity but also to increase the cost. Was.

The present invention has been created in view of the above circumstances and has been created for the purpose of solving these problems. The invention of claim 1 is a pre-processing unit that cuts off the stems and a threshing of the cut stems. A threshing feed chain conveyed along the section, a pre-processing transmission case for shifting the engine power input from the input shaft and transmitting it to the pre-processing section, an HST pump and an HST motor driven by the discharge oil of the HST pump In the combine provided with the preprocessing continuously variable transmission provided, the preprocessing transmission case includes the input shaft, an HST input shaft that transmits power to the HST pump, and an HST that transmits power output from the HST motor. Output shaft, feed chain output shaft that outputs power to threshing feed chain, and pre-processing output shaft that outputs power to pre-processing unit Together disposed on Jo, projecting the input shaft to the right side from the right side bottom of the pretreatment transmission case, projecting the preprocessing output shaft on the right side from the right side upper portion of the pretreatment transmission case, A threshing section drive shaft extending from the lower left side surface of the pretreatment transmission case to the left side is projected, and connected to the feed chain output shaft from the upper left side surface of the pretreatment transmission case to the left side. The threshing feed chain drive shaft that protrudes from the right side surface of the preprocessing transmission case, and the output pulley and the input pulley that are provided on the preprocessing output shaft and the input shaft respectively on the right side of the preprocessing transmission case. The output pulley provided on the threshing drive shaft that protrudes from the lower left side of the pretreatment transmission case is connected to the pretreatment input pulley and the engine pulley that are arranged vertically on the front side. The threshing feed chain drive shaft projecting above and below the left side surface of the preprocessing transmission case is coupled to a sorting chamber pulley that transmits power to the arranged threshing unit sorting chamber. The HST input shaft and the HST output shaft are provided between the threshing portion drive shaft and the hydraulic continuously variable transmission is disposed between the threshing feed chain drive shaft and the threshing portion drive shaft. It is a combine characterized by. In this way, since power can be supplied to the threshing unit using the pretreatment transmission case, the transmission path to the pretreatment transmission case and the transmission path to the threshing portion are configured separately. The transmission structure inside the fuselage can be simplified compared to Thereby, not only the cost of the combine can be reduced, but also the maintainability can be improved. In addition , the threshing feed chain drive shaft and the threshing portion drive shaft are separated from each other, and interference between both drive systems can be avoided. In addition, by disposing the hydraulic continuously variable transmission between the two drive shafts, it is possible to increase the disposition efficiency and avoid an increase in the size of the preprocessing transmission case.
The pretreatment transmission case is also used as a hydraulic oil tank. In this case, it is possible not only to easily secure the tank capacity but also to reduce the cost by reducing the number of parts as compared with the case where a hydraulic oil tank is provided separately. Further, there is an advantage that the supply of hydraulic oil to the hydraulic continuously variable transmission and the processing of return oil can be simplified.

  Next, embodiments of the present invention will be described with reference to the drawings. In the drawing, 1 is a combine, and the combine 1 includes a pre-processing unit 2 for cutting stem stalks, a threshing unit 3 for threshing grains from the cutting stalks and sorting the grains, and already sorted A grain tank 4 for storing grains, a post-processing unit 5 for processing threshed waste, an operation unit 6 provided with various operation tools, and a crawler type traveling unit 7 are configured. Yes.

  The pre-processing unit 2 includes a divider 8 for weeding the uncut stem culm, an elevating device (not shown) for causing the weed stalk culm, and a cutting blade device for cutting the stock position of the stalk culm ( (Not shown) and a pretreatment conveying device 9 that conveys the mowing stalk toward the threshing unit 3, and is movable up and down by a pretreatment support unit 10 erected on the front part of the body of the combine 1. It is supported.

  The pre-processing support unit 10 is a pair of left and right supporting a pre-processing support frame 12 having a front view-like shape standing on the left front end portion of the body frame 11 and a pre-processing support shaft 13 rotatably supported on the upper part. And a boss 14. The preprocessing support shaft 13 which is the rotation center of the preprocessing unit 2 is a hollow cylindrical shaft, and the preprocessing transmission cylinder 15 is integrally connected thereto. That is, when power is input from the preprocessing input pulley 16 provided at the right end of the preprocessing support shaft 13, the power is supplied to the preprocessing section 2 via the transmission mechanism built in the preprocessing support shaft 13 and the preprocessing transmission cylinder 15. Power is transmitted.

  The threshing unit 3 includes a handling chamber (not shown) in which the handling cylinder 17 is installed, a processing chamber (not shown) in which the processing cylinder 18 is installed, a sorting room for sorting threshed grains, and a handling room. The threshing feed chain 19 that conveys the stalks along the shed and the waste conveying device 20 that conveys the threshed waste toward the post-processing unit 5 are configured as a unit, and on the body frame 11 in the body assembly process Installed. The upper front part (front part of the handling room) of the threshing part 3 is covered with the front side plate 21, and the lower front part (front part of the sorting room) of the threshing part 3 is retracted backward (setback) from the front side plate 21. ).

  The sorting chamber is provided with a pressure fan 22 for raising the sorting wind, a swing sorting body 23 for swinging and sorting the grains, and a suction fan 24 for raising the dust exhaust. The power of the threshing unit 3 is input to the compressed air fan rotation shaft 25 and is transmitted from here to each unit of the threshing unit 3. That is, a pulley 27 for transmitting power to the swing sorter 23, the suction fan 24, and the cutter 26 is provided at the left end of the compressed air fan rotating shaft 25, and the right end of the compressed air fan rotating shaft 25 is handled at the right end. A pulley 28 for transmitting power to the cylinder 17, the processing cylinder 18 and the waste transporting device 20 is provided.

  The threshing feed chain 19 is fed along the left side surface of the threshing unit 3 so as to supply the tip side of the stem culm taken over from the pretreatment unit 2 into the handling chamber and to deliver the threshing that has been threshed to the scouring and conveying device 20. Arranged. The threshing feed chain 19 is suspended by a plurality of driven sprockets 29 and a single drive sprocket 30, and performs a conveying operation according to the rotation of the drive sprocket 30.

An engine 31 that generates power for the preprocessing unit 2, the threshing unit 3, the traveling unit 7, and the threshing feed chain 19 is mounted below the operation unit 6. The power of the traveling unit 7 is input from the engine pulley 32 to the traveling continuously variable transmission (HST) 34 via the transmission belt 33 and further transmitted to the traveling unit 7 via the transmission case 35. The power of the pretreatment unit 2, the threshing unit 3 and the threshing feed chain 19 is transmitted from the engine pulley 32 through the transmission belt 36, the input pulley 37 and the input shaft 38 to the right side surface of the pretreatment transmission case (hydraulic oil tank) 39 . It is input to the lower part and is transmitted in a distributed manner from here to the preprocessing unit 2, the threshing unit 3 and the threshing feed chain 19. Reference numeral 40 denotes a belt tension type work machine clutch. As apparent from FIGS. 3 and 7, the engine pulley 32 is positioned in front of the right side of the preprocessing transmission case 39 and is provided below the preprocessing input pulley 16 described above.

  The preprocessing transmission case 39 is disposed in front of the threshing unit 3 and inputs engine power from an input shaft 38 protruding from the right side surface, and this power is not transmitted by a preprocessing continuously variable transmission (HST) 41. It is configured so as to be step-shifted and supplied to the pretreatment unit 2 and the threshing feed chain 19. Thereby, the stalk conveyance speed of the pretreatment part 2 and the threshing feed chain 19 is synchronized, and conveyance disorder in the takeover part is prevented. The preprocessing continuously variable transmission 41 includes an HST pump (swash plate type variable displacement hydraulic pump) 42 and an HST motor (fixed displacement hydraulic motor) 43 that is driven by oil discharged from the HST pump 42. The engine power can be changed steplessly according to the operation of the swash plate of the HST pump 42. In the present embodiment, a swash plate control motor 44 is connected to the swash plate of the HST pump 42, and the swash plate operation is performed via the swash plate control motor 44.

In addition to the input shaft 38, the preprocessing transmission case 39 includes an HST input shaft 45 that transmits power to the HST pump 42, an HST output shaft 46 that transmits power output from the HST motor 43, and the threshing feed chain 19. A feed chain output shaft 47 that outputs power, a preprocessing output shaft 48 that outputs power to the preprocessing unit 2, a plurality of transmission shafts 49 to 51 that relay power transmission between the shafts, and the like are provided . As apparent from FIG. 2, these axes are arranged in parallel in the left-right direction .

A threshing feed chain drive shaft 52 is connected to the feed chain output shaft 47. The threshing feed chain drive shaft 52 extends outward from the left side surface of the preprocessing transmission case 39, and the tip reaches the position of the threshing feed chain 19. The above-described drive sprocket 30 is provided at the tip of the threshing feed chain drive shaft 52, and the threshing feed chain 19 is conveyed and driven by suspending the threshing feed chain 19 here. On the other hand, the pre-processing output shaft 48 protrudes from the right side surface of the pre-processing transmission case 39, and the above-described pre-processing arranged from the right side of the pre-processing transmission case 39 via the output pulley 53 and the transmission belt 54 from here. Power is transmitted to the input pulley 16. Reference numeral 55 denotes a belt tension type mowing clutch.

Further, in the pretreatment transmission case 39, the input shaft 38 protruding leftward from the lower part of the right side surface is extended from the lower part of the left side surface of the pretreatment transmission case 39 to the left outer side to form a threshing portion drive shaft 56. The threshing section power is supplied from the front end portion to the pulley 27 of the above-described compressed air fan rotating shaft 25 disposed on the left rear side of the preprocessing transmission case 39 via the output pulley 57 and the transmission belt 58. If comprised in this way, it will become possible to input the threshing part motive power from the left side part of the threshing part 3 using the pre-processing transmission case 39. This simplifies the transmission structure at the center of the fuselage compared to the conventional one that inputs the power of the threshing portion from the right side surface (the center of the machine) of the threshing part 3, thereby reducing the cost of the combine 1 and improving the maintainability. Can be planned.

  In the present embodiment, when extending the threshing portion drive shaft 56 from the left side surface of the pretreatment transmission case 39, a cylindrical cover 59 that covers the threshing portion drive shaft 56 is integrally formed on the left side surface of the pretreatment transmission case 39. It protrudes to. The cover 59 is supported at the front end by the body frame 11 and rotatably supports the base end and the front end of the threshing portion drive shaft 56 via a pair of bearings 60. The cantilever support is eliminated, and the threshing section power can be stably supplied.

In this embodiment, the left side surface of the preprocessing transmission case 39 is provided on the left side surface of the preprocessing transmission case 39 when the preprocessing continuously variable transmission 41, the threshing feed chain drive shaft 52, and the threshing portion drive shaft 56 are provided. A threshing feed chain drive shaft 52 protrudes from the upper side toward the left side, and a threshing portion drive shaft 56 projects from the left side lower portion of the pretreatment transmission case 39 toward the left side. An HST input shaft 45 and an HST output shaft 46 are projected from the left side surface of the preprocessing transmission case 39 so as to be positioned between the chain driving shaft 52 and the threshing portion driving shaft 56, and thereby, a preprocessing continuously variable transmission. The device 41 is disposed between the threshing feed chain drive shaft 52 and the threshing portion drive shaft 56 . As a result, the threshing feed chain drive shaft 52 and the threshing portion drive shaft 56 are separated from each other, and interference between both drive systems can be avoided. In addition, by arranging the preprocessing continuously variable transmission 41 between the drive shafts 52 and 56, it is possible to increase the efficiency of these arrangements and avoid an increase in size around the preprocessing transmission case 39.

  Next, the pretreatment transmission case 39 as a hydraulic oil tank will be described. The pretreatment transmission case 39 is also used as a hydraulic oil tank, and hydraulic oil that also serves as lubricating oil is stored therein. This hydraulic oil is supplied to the preprocessing continuously variable transmission 41 and, via the hydraulic pumps P1 and P2 provided in the transmission case 35, the traveling continuously variable transmission 34, the auger turning hydraulic motor 61 and the valve. It is supplied to the assembly 62. The valve assembly 62 is connected with a plurality of steering hydraulic actuators A1 to A5, a pretreatment lifting hydraulic cylinder A6, an auger lifting hydraulic cylinder A7, a pair of machine body horizontal hydraulic cylinders A8 and A9, and the like. It is operated by hydraulic oil stored in the case 39. In this way, when the pretreatment transmission case 39 is also used as a hydraulic oil tank, it is not only easy to secure the tank capacity, but also the number of parts can be reduced and the structure can be simplified as compared with the case where a hydraulic oil tank is provided separately. become. Further, when the preprocessing transmission case 39 is a hydraulic oil tank, the preprocessing continuously variable transmission 41 is integrated, so that it is easy to supply hydraulic oil to the preprocessing continuously variable transmission 41 and process return oil. There is also an advantage.

  Next, the arrangement and shape of the preprocessing transmission case 39 will be described. The pretreatment transmission case 39 has a vertical rectangular parallelepiped shape, and is disposed between the pretreatment support part 10 and the threshing part 3. A front convex portion 39a that protrudes forward is formed at the front lower portion of the pretreatment transmission case 39, and the front convex portion 39a is formed in a space below the pretreatment support portion 10 that is formed in a square shape (inside space). ) According to such a configuration, it is possible to increase the tank capacity of the pretreatment transmission case 39 without widening the space between the pretreatment support part 10 and the threshing part 3, while ensuring the necessary tank capacity. In addition, it is possible to satisfactorily hand over the stems from the pretreatment unit 2 to the threshing unit 3.

  Moreover, in this embodiment, the rear side convex part 39b which protrudes back is formed also in the rear side lower part of the pre-processing transmission case 39, and this rear side convex part 39b is formed before the front upper part of the threshing part 3 is formed. A space below the side plate 21 is inserted. This makes it possible to further increase the tank capacity of the preprocessing transmission case 39 by using the space below the front side plate 21.

  The combine 1 of the present embodiment configured as described includes a pre-processing unit 2 that cuts stems and stems, a threshing feed chain 19 that transports the cut stems and stems along the threshing unit 3, and an engine that is input from an input shaft 38. An input shaft 38 that is provided with a preprocessing transmission case 39 that shifts the power to transmit to the preprocessing unit 2 and the threshing feed chain 19, and projects from one side of the preprocessing transmission case 39. Is extended to the other side from the other side of the pretreatment transmission case 39 to form the threshing portion drive shaft 56, so that power can be supplied to the threshing portion 3 using the pretreatment transmission case 39. Thereby, compared with the conventional thing which comprised the transmission path to the pre-processing transmission case 39 and the transmission path to the threshing part 3 separately, the transmission structure inside the fuselage can be simplified. Thus, it is possible to reduce the cost of the combine 1 and improve the maintainability.

  In addition, a threshing feed chain drive shaft 52 protrudes from the upper part of the other side surface of the pretreatment transmission case 39, and a threshing part drive shaft 56 protrudes from the lower part of the other side surface of the pretreatment transmission case 39. Since the continuously variable transmission 41 for shifting the engine power is disposed between the chain drive shaft 52 and the threshing portion drive shaft 56, the threshing feed chain drive shaft 52 and the threshing portion drive shaft 56 are separated from each other, Interference between both drive systems can be avoided. In addition, by arranging the preprocessing continuously variable transmission 41 between the drive shafts 52 and 56, it is possible to increase the arrangement efficiency and avoid an increase in size of the preprocessing transmission case 39.

  Further, since the pretreatment transmission case 39 is also used as a hydraulic oil tank, it is not only easy to secure the tank capacity, but also the cost can be reduced by reducing the number of parts as compared with the case where a hydraulic oil tank is provided separately. . Further, there is an advantage that the supply of hydraulic oil to the preprocessing continuously variable transmission 41 and the processing of return oil can be simplified.

It is a left view which shows the combine of the state which removed covers and threshing feed chains. It is a transmission circuit diagram which shows the transmission structure of a combine. It is the perspective view which looked at the airframe front part of a combine from the right front. It is the perspective view which looked at the body front part of a combine from the left front. It is a disassembled perspective view of a pre-processing transmission case. It is a front view which shows the body front part of a combine. It is a right view which shows the body front part of a combine. It is a left view which shows the body front part of a combine. It is a hydraulic circuit diagram which shows the hydraulic structure of a combine.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Combine 2 Preprocessing part 3 Threshing part 19 Threshing feed chain 25 Pressure wind fan rotating shaft 31 Engine 38 Input shaft 39 Preprocessing transmission case 41 Preprocessing continuously variable transmission 52 Threshing feed chain drive shaft 56 Threshing part drive shaft

Claims (2)

A pre-processing unit that cuts off the stems, a threshing feed chain that conveys the cut stems along the threshing unit, a pre-processing transmission case that shifts engine power input from the input shaft and transmits it to the pre-processing unit , In a combine comprising an HST pump and a pre-processing continuously variable transmission configured to include an HST motor driven by oil discharged from the HST pump , the pre-processing transmission case includes power input to the input shaft and the HST pump. HST input shaft, HST output shaft for power transmission output by HST motor, feed chain output shaft for power output to threshing feed chain, pre-processing output shaft for power output to pre-processing unit Are arranged in parallel in the left-right direction, and the input shaft protrudes from the lower right side of the pre-processing transmission case to the right side, and the right side of the pre-processing transmission case The preprocessing output shaft protrudes from the upper side to the right side, and the threshing portion drive shaft extending from the lower left side surface of the preprocessing transmission case extends to the left side. A threshing feed chain drive shaft connected to the feed chain output shaft is projected from the left side upper part to the left side, and is provided on each of the preprocessing output shaft and the input shaft protruding vertically from the right side surface of the preprocessing transmission case. The output pulley and the input pulley are connected to the pretreatment input pulley and the engine pulley that are arranged vertically on the right front side of the pretreatment transmission case. The output pulley provided on the shaft is linked to the sorting chamber pulley that transmits power to the threshing section sorting chamber arranged on the left rear side of the pretreatment transmission case, and is further connected to the left side surface portion of the pretreatment transmission case. The hydraulic continuously variable transmission is threshed by projecting an HST input shaft and an HST output shaft between the threshing feed chain drive shaft and the threshing portion drive shaft that protrude above and below the left side surface portion. A combine that is disposed between a feed chain drive shaft and the threshing portion drive shaft .   The combine according to claim 1, wherein the pretreatment transmission case is also used as a hydraulic oil tank.

Images