JP2008136356A - Combine harvester - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem wherein conventionally, when a mechanism for driving a reaping conveyer and a reaping and threshing transfer chain by the transmission of a two-line system not via reaping clutch transmits power, the mechanism has no means for making the operator and auxiliary operator confirm that the reaping conveyer is in a driving state, and is lacking in safety and lacks safety in that a feed chain, for delivering conveyed grain culms, is being driven. <P>SOLUTION: The combine harvester has a constitution, where the reaping conveyer (3) and the reaping and threshing transfer chain (7) are driven by the two-line system of a synchro transmission mechanism (8) for synchronizing the traveling speed, and a constant-speed transmission mechanism (11) for transmission from a threshing clutch (9) via a transfer chain clutch (10), and the transfer chain clutch (10) will be engaged, only when a reaping clutch (6) is in engaged state and when the feed chain is being driven. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a combine.

  Conventionally, in this type of combine, the drive speed of the cutting pre-treatment device (cutting conveyance device) provided at the front of the traveling vehicle body can be freely moved up and down to synchronize with the transmission speed that keeps the driving speed constant and the vehicle speed. A configuration equipped with a two-line transmission device composed of a path is known.

For example, as disclosed in Japanese Patent Laid-Open No. 2005-230022 published before the filing of the present application and presented as Patent Document 1 by the present applicant, as disclosed in FIGS. A configuration is described in which the flow path is switched between a state in which the pruning clutch 48 is operated by depressing the operation pedal 73 and the cutting pre-treatment device is maintained at a constant transmission speed and a vehicle speed is synchronized.
JP-A-2005-230022

  The harvesting and conveying device and the harvesting / threshing takeover chain in the conventional combine (in the case of Patent Document 1 described above, there is no member corresponding to the “reaching / threshing takeover chain” of the present application) are synchronized with the vehicle speed from the traveling mission side. When driving using two transmission mechanisms: a mechanism that transmits at a speed and a mechanism that transmits at a constant speed from the threshing transmission side, the transported culm is handed over to the threshing device while ensuring work safety. There is a problem that a rational configuration is not provided.

  That is, when the cutting and conveying device transmits the rotational power at a constant speed via the threshing clutch and the takeover chain clutch, the cutting and conveying device can transmit without passing through the cutting clutch. There is. Normally, in order to ensure the safety of the combine work, when the mowing general feeding device is driven, the mowing clutch should be engaged even if it is driven by power not via the mowing clutch. The state of operating to the position is necessary to make the operator recognize that the cutting side is being driven, thereby ensuring work safety.

  Further, when the cutting / removing chain is driven, it is a necessary condition that the succeeding feed chain is driven so that the succeeding action of the cereal can be performed in order to inherit the transported culm.

  Therefore, according to the invention of the present application, when transmitting the cutting general feeding device and the cutting / removing chain, the two conditions that the cutting clutch is always engaged and the feed chain is driven are satisfied. As a configuration that enables the first operation of the takeover chain clutch when it is being performed, it is intended to provide a technical configuration that can ensure the safety of the work and, at the same time, ensure the succession of the transfer cereal.

In order to solve the above problems, the present invention takes the following technical means.
That is, the invention described in claim 1 is directed to a combine that comprises a cutting and conveying device (3) on the front side of a threshing device (2) mounted on a traveling vehicle body (1). Synchronized transmission mechanism (8) synchronized with the traveling speed transmitted from the traveling mission (5) to the harvesting conveying device (3) and the harvesting / threshing takeover chain (7) via the harvesting clutch (6), Two systems of transmission mechanisms, a constant speed transmission mechanism (11), which is transmitted from the threshing clutch (9) to the harvesting / threshing handover chain (7) and the harvesting conveying device (3) via the takeover chain clutch (10). (8, 11) is configured to transmit the feed chain (12) of the threshing device (2) that inherits the transported culm from the cutting and threshing succession chain (7) via the feed chain clutch (13). , The harvesting kura The combine is characterized in that the takeover chain clutch (10) can be connected only when the hook (6) is turned on and the feed chain clutch (13) is also turned on. When the constant speed transmission mechanism (11) is used to transmit the cutting and conveying device (3) and the cutting and threshing takeover chain (7) without passing through the clutch (6), the cutting clutch (6) is engaged. The takeover chain clutch (10) can be connected only when it is operated and the feed chain clutch (13) is also turned on, and the cutting and conveying device (3) is in the transmission state (the cutting clutch (6) is entered and operated), and the operator recognizes that the safety of work is ensured.

  In the invention described in claim 1, when the takeover chain clutch (10) can be engaged and operated, since the feed chain (12) is always driven, the inheritance of the conveyed cereal is guaranteed, and the work can be performed with peace of mind. You can continue.

  In the invention according to claim 2, the two-line transmission mechanism (8, 11) is equipped with a one-way clutch (14) in one or both of the transmission mechanisms. The power transmission mechanism (8, 11) of the system is configured to transmit the harvesting / threshing takeover chain (7) and the harvesting conveyance device (3) by the rotational power on the high speed side of one of the transmission mechanisms (8, 11). The combine according to claim 1, wherein either one of the two transmission mechanisms (8, 11) is cut off and transmitted from only the other, or both transmission mechanisms are transmitted simultaneously. The cutting and threshing takeover chain (7) and the cutting and conveying device (3) can be transmitted by the rotational power on the high speed side.

  First, the invention described in claim 1 transmits the cutting and conveying device (3) and the cutting and threshing takeover chain (7) using the constant speed transmission mechanism (11) without going through the cutting clutch (6). Even in this case, since the operator does not transmit unless the cutting clutch (6) is turned on, the operator knows that the cutting conveying device (3) is in a transmission state (the cutting clutch (6) is turned on). Is recognized and has the feature of being able to work safely.

  In the invention described in claim 1, when the takeover chain clutch (10) can be engaged and operated, since the feed chain (12) is always driven, the inheritance of the conveyed cereal is guaranteed, and the work can be performed with peace of mind. There are excellent features that can continue.

  The invention described in claim 2 is a case where one of the two transmission mechanisms (8, 11) is cut and transmitted from only the other, or a case where transmission is performed simultaneously from both transmission mechanisms (8, 11). However, the one-way clutch (14) incorporated in the transmission path functions, and the cutting and threshing takeover chain (7) and the cutting and conveying device (3) are transmitted by the rotational power of either one of the high speed sides, so that the low speed side Since it rotates idly, there is no mechanical lock and it can be transmitted safely. Therefore, a combine adopting this type of mechanism can drive the reaping and conveying device (3) at the required constant speed with the power transmitted from the constant speed transmission mechanism (11) side during low-speed traveling immediately after the start of work. There is an advantage that it is possible to cause a sufficient effect of raising the grain husk and taking the husk, and after that, when the vehicle speed is gradually increased and exceeds a certain speed, the transmission is smoothly switched to the transmission from the synchro transmission mechanism (8) side. There is a feature that can work in synchronization with the running speed (working efficiency).

Embodiments of the present invention will be specifically described below with reference to the drawings.
First, as shown in FIG. 2, the combine is mounted with the threshing device 2 on the left side of the traveling vehicle body 1 with the cereal supply port 15 positioned on the front side, and the cutting and conveying device 3 is provided on the front side to cut the entire surface. The configuration is as follows. The combine is configured such that a driver's cockpit 16 is provided on the right side on the right side, and a Glen tank 17 is disposed adjacent to the right side of the threshing device 2 at a rear position thereof. The grain tank 17 is connected when the first grain that has been threshed and selected is supplied and stored from the threshing apparatus 2 by the first cereal cylinder and the grain reaches a full tank. The discharge auger 18 can be discharged out of the machine.

  Next, as shown in FIG. 3 and FIG. 4, the cutting and conveying device 3 supports the base portion in a pivoted state on the upper part of the support machine base (cutting suspension base) 20 of the traveling vehicle body 1, and faces the lower front part. The cutting frame 21 extended from the front side, the grain raising device 23 tilted up and down, the cutting device 24 at the lower position, the take-up wheel 25 on the upper side, and the stock transporter 26 The front head general feeding device 27, the rear head general feeding device 28, the handling depth adjusting device 29, and the supply general feeding device 30 are each mounted so as to be capable of transmission, and a series of cutting and conveying can be performed.

  As shown in FIG. 1 to FIG. 3, the cutting / threshing takeover chain 7 is rotatably supported by a transmission case 31 connected to the cutting and general feeding device 3. The cereals inherited from 30 are inherited and supplied to the conveyance start end of the feed chain 12 of the threshing device 2.

  As shown in FIG. 4, the cutting frame 21 is formed by extending an upper frame 21a having a base portion pivotally supported on a support machine base 20 obliquely downward, and joining an upper end portion of the lower frame 21b to a lower end portion thereof. The cylinder mounting member 33 is pressed against the lower surfaces of the upper and lower frames 21a and 21b and integrally connected by screw tightening. Then, as can be seen from the drawing, the cylinder mounting member 33 connects the tip end (piston side) of the cutting upper and lower cylinders 34 having the base (cylinder side) pivotally connected to the chassis side at the lower position of the support machine base 20. The cutting frame 21 can be freely rotated up and down by a hydraulic mechanism. In addition, the cutting frame 21 is internally mounted with a cutting transmission shaft 36 (see a broken portion in FIG. 7) that is connected vertically from a lateral transmission shaft 35 at the center of rotation of the base portion, and the above-described cutting is performed. It is set as the structure which can transmit each apparatus which comprises the general sending apparatus 3. FIG.

The above-described support structure of this type of cutting frame is disclosed in Japanese Patent Application Laid-Open No. 2003-180125 and the like, and a similar structure is known.
The cylinder mounting member 33 in the above-described embodiment is a member that connects the ends of the hydraulic cutting upper and lower cylinders 34 to the upper and lower intermediate portions, and also serves as a member that connects the upper and lower frames 21a and 21b. However, it has a simple and rational configuration and can be manufactured at low cost.

  Next, the synchro transmission mechanism 8, the constant speed transmission mechanism 11, the feed chain clutch device 13 of the feed chain 12, and the feed chain transmission device 37, which are the main parts of the present application, will be described mainly with reference to FIG.

  First, as shown in FIG. 1, the engine 4 is configured such that the output is branched and transmitted to the traveling mission device 5 side via the HST 38 and to the threshing intermediate transmission box 39 side via the threshing clutch device 9. Yes.

  The synchro transmission mechanism 8 is configured such that the rotational power input from the HST 38 to the traveling mission device 5 is transmitted to the cutting and conveying device 3 via the one-way clutch 14 and the cutting clutch 6. In this case, the synchro transmission mechanism 8 is configured such that the traveling speed shifted in accordance with the continuously variable transmission operation by the HST 38 is directly transmitted via the traveling mission 5. The one-way clutch 14 is configured to interrupt transmission to the cutting and general feeding device 3 when the HST 38 is switched to reverse rotation (when the combine is moved backward).

  The cutting and threshing takeover chain 7 is configured to be transmitted from a transmission case 31 transmitted by belt transmission from the transmission shaft 35 of the general cutting device 3, and transmitted from a synchro transmission mechanism 8 that synchronizes with the traveling speed. It has become.

  On the other hand, as shown in FIG. 1, the constant speed transmission mechanism 11 is always substantially constant from the threshing clutch 9 via the threshing intermediate transmission box 39 and further via the takeover chain clutch 10 and the one-way clutch 14. The speed is transmitted to the transmission case 31. The constant speed transmission mechanism 11 configured as described above is configured to be distributed and transmitted to the mowing / removal chain 7 and the mowing general feeding device 3 through the transmission case 31.

  The two transmission mechanisms configured in this way, that is, the synchro transmission mechanism 8 and the constant speed transmission mechanism 11 are each equipped with a one-way clutch 14 when rotational power is transmitted simultaneously from both transmission paths. Therefore, the harvesting / threshing takeover chain 7 and the harvesting conveyance device 3 are transmitted by the rotational power on either one of the high speed sides.

  This configuration is also effective immediately after the start of the combine work, and even when the traveling speed is low for the first fixed distance, the grain raising device 23, the reaping device 24, the take-up wheel body 25, etc. are sufficient. Since a certain high speed is necessary to perform such a function, the rotational power from the high speed side (constant speed transmission mechanism 11) is set in a state where it is transmitted from both the synchro transmission mechanism 8 and the constant speed transmission mechanism 11. You can work efficiently while driving.

  The feed chain 12 of the threshing apparatus 2 is configured to supply the tip side to the threshing apparatus 2 and carry out the threshing action while inheriting and transporting the transported culm from the harvesting / threshing takeover chain 7. A feed chain clutch 13 and a feed chain transmission 37 are provided. In this case, the feed chain 12 is configured to be branched from the transmission system from the threshing intermediate transmission box 39 to the dust exhaust fan 42 and transmitted. In the case of the embodiment, the feed chain transmission device 37 is configured to be capable of two-stage speed change of high speed and low speed by a gear, and the intermediate position between the high and low switching is a neutral position, that is, the feed chain clutch. 13 is constituted.

  More specifically, the feed chain clutch 13 is configured such that, in the feed chain transmission device 37, the intermediate position for switching between the high speed stage and the low speed stage is the clutch disengaged position.

  The takeover chain clutch 10 can be operated on the condition that the cutting clutch 6 is engaged and the feed chain clutch 13 is also engaged. It can be connected. As shown in FIG. 2, the takeover chain clutch 10 is configured to be intermittently operated by stepping on the clutch pedal 44 provided on the front floor 43 of the driver's cockpit 16, but if the above two conditions are not satisfied, the clutch Is not connectable (the clutch pedal 44 is not connected even when the pedal is depressed).

  In the embodiment configured as described above, when transmitting through the constant speed transmission mechanism 11, even if the transmission path is between the cutting and conveying device 3 and the cutting and threshing takeover chain 7 without passing through the cutting clutch 6. Since the operator cannot be transmitted unless the cutting clutch 6 is turned on, the operator always turns on the cutting clutch 6 when the cutting and conveying apparatus 3 is in the transmission state. It recognizes and can work safely.

  As another condition, when the takeover chain clutch 10 can be engaged and operated by depressing the clutch pedal 44, since the feed chain 12 is always driven, the inheritance of the transported cereal from the cutting / threshing takeover chain 7 is guaranteed. This makes it possible to continue working with peace of mind.

  As one embodiment, the constant speed transmission mechanism 11 depresses the clutch pedal 44 to enter and operate the takeover chain clutch 10 to control the speed at which the mowing / threshing takeover chain 7 is transmitted. A configuration is possible in which the speed is set in accordance with the general feed speed on the low-speed side.

  Thus, when the constant speed transmission mechanism 11 sets the cutting and threshing takeover chain 7 in accordance with the low speed side shift position of the feed chain 12, the transmission load is small and the correct posture is obtained without disturbing the conveying posture of the cereal. While maintaining, the threshing efficiency can be improved, and the response to the fallen cereals when the vehicle speed is low can be improved.

Hereinafter, other embodiments will be described.
In the embodiment shown in FIG. 5, the waste chain 45 is configured to take a series of transmission paths from the same chain shaft 46 as the feed chain 12. That is, the waste chain 45 is configured to transmit the two chains of the stock base side and the tip side through the transmission belt 47, the gear box 48, the transmission belt 49 and the waste transmission shaft 50 from the feed chain shaft 46. It is said. For example, as disclosed in Japanese Patent Application Laid-Open No. 5-49335, the conventional configuration employs a configuration in which the rotational power transmitted from the engine is transmitted through a branch path, and the waste chain is connected to the feed chain side. There is no structure to transmit from.

  Therefore, since the exhaust chain 45 of the embodiment is connected to the feed chain 12 through a series of transmission paths, the rotational speed is changed in synchronization, and transmission and stop are simultaneously performed. There is a feature that the inheritance of the waste from the sea is performed very smoothly.

  The constant speed transmission mechanism 11 depresses the clutch pedal 44 when the cutting clutch 6 is engaged and the feed chain clutch 13 is also engaged, as already described as the main configuration in the embodiment. Since the takeover chain clutch 10 can be connected, the cutting and threshing takeover chain 7 can be transmitted at a constant speed.

  Therefore, the combine according to the embodiment can continue to transmit the cutting and general feeding device 3 and the cutting / threshing takeover chain 7 even when the traveling vehicle body 1 is stopped or traveling backward, and no cutting operation is performed. However, it is possible to thresh while conveying cereals that are stagnant in the middle of the cutting and general feeding device 3.

  As described above, the combine according to the embodiment can generally send threshing and threshing even when stopped or traveling backward, so that the work efficiency can be improved, and the post-processing is performed without the stagnation of the conveying cereal. There is a feature that can be accurately.

  Next, there are a transmission case 31 that supports the mowing and detaching chain 7 arranged in the already-described transmission mechanism (see FIG. 1), and a threshing intermediate transmission box 39 on the upper side of the transmission. An embodiment relating to the support structure will be described.

  First, as shown in FIG. 6, the transmission case 31 and the threshing intermediate transmission box 39 are disposed between the threshing device 2 and the support machine base 20 positioned on the front side thereof, and become a main transmission relay device. ing. As shown in the drawing, the threshing intermediate transmission box 39 is connected and supported at its rear upper part to the front machine frame 52 of the threshing apparatus 2 via the mounting plate 53, and its front intermediate part is supported on the front support machine frame 54. The connection plate 55 is connected and supported. The support machine frame 54 is configured such that the lower part on the front side is connected and fixed to the support machine base 20 by the mounting plate 56. The transmission case 31 is attached to and supported by the support machine frame 54, as can be seen from FIG.

  The support machine base 20 is a member that freely supports the base of the cutting frame 21 of the cutting and general feeding device 3 as described above, and has a structure in which a cutting open support metal 57 is provided on the left side. Yes.

  Thus, the threshing intermediate transmission box 39 serving as the main relay mechanism for the threshing side transmission and the transmission case 31 that supports and transmits the harvesting / threshing takeover chain 7 are the cutting and feeding device 3 on the front side of the threshing device 2. It arrange | positions between these support machine stand 20, and it is set as the structure supported firmly. And the attachment structure of this Example is set as the structure attached rationally using the supporting member of the other apparatus of the circumference using a narrow space.

  The embodiment of FIG. 7 shows two systems of transmission mechanisms 8 and 11 in which the threshing intermediate transmission box 39 and the transmission case 31 described above are arranged in the route. The transmission case 31 that is input to the transmission shaft 35 that is pivotally mounted on the base of the cutting frame 21 via the transmission and transmits the power synchronized with the traveling speed, and the transmission case 31 from the engine 4 via the threshing intermediate transmission box 39. 2 shows a constant speed transmission mechanism 11 input to.

  In the case of the embodiment, as can be seen from FIG. 7, tension clutches are provided corresponding to the respective transmission belts, the synchro transmission mechanism 8 is stopped, and the constant speed transmission mechanism 11 cuts the chopping and threshing takeover chain 7. It is also possible to handle the pillow while driving, and since it has a configuration in which the tension clutch can be turned on and off independently, there is an advantage that the work can be conveniently performed.

Next, an embodiment of a power clutch in which both the mowing and threshing clutches 6 and 9 are operated by the clutch control motor 64 will be described.
First, as shown in FIG. 8, various control levers are arranged in order from the front on the left side of the driver's cockpit (see FIG. 2) 16, HST lever 58, auxiliary transmission lever 59, throttle lever 60, mowing / declutching. The levers 61 are provided in an array, and each lever can be switched. In this case, the mowing / declutch lever 61 is provided with a position sensor 63 for detecting the rotation operation position (operation angle) of the lever at the base, and the on / off operation position of the mowing clutch 6 and the threshing clutch 9. The clutch control motor 64 can be controlled by detecting and distinguishing the on / off operation position.

  8 and 9, the clutch control motor 64 drives the operation link mechanism 67 from the speed reducer 65 via the operation pinion 66 while being controlled in the forward / reverse direction, and performs an operation (not shown). The reaping clutch 6 and the threshing clutch 9 can be turned on and off via a wire.

  And as shown in (A), (B), and (C) in FIG. 9, both the clutch devices 6 and 9 are operated by the change of the operation link mechanism 67, and (A) sets the threshing clutch 9 as the entering position, (B) is the cutting position of the reaping clutch 6 and the threshing clutch 9, and the position of (C) is configured so that both the clutches 6 and 9 are in the on position.

  Thus, since the operating device of the reaping clutch 6 and the threshing clutch 9 is disposed by bringing the potentiometer 63 installed at the base position of the cutting / declutching lever 61 and the clutch control motor 64 close to each other, the wiring between the two It has the feature that the electrical trouble can be greatly reduced and the inspection can be easily performed.

In the case of the embodiment, by arranging the operation levers 58, 59, 60, 61 in a concentrated manner, there is an advantage that the assembly adjustment is easy as well as the inspection.
Next, an embodiment of the mounting configuration of the pitching cylinder 70 will be described.

  Conventionally, a combine pitching control device has been widely put into practical use. As a general configuration, an upper portion of a pitching cylinder 71 is pivotally connected to a mounting frame 70 provided on a traveling frame 69, and a lower portion thereof is connected via a pitching arm 72. Then, the front part is pivotally connected to the rear part of the track frame 73 pivotally fixed at the upper and lower fixed positions, and the rear part of the crawler is moved up and down while the rear part of the track frame 73 is controlled up and down as the pitching cylinder 71 expands and contracts. Thus, it is a device that controls and adjusts the forward / backward inclination of the traveling vehicle body.

  First, as shown in FIG. 10, the traveling frame 69 has a structure in which several vertical and horizontal frames 69a and 69b are connected to form a frame, but in the case of the embodiment, a main frame arranged in the front-rear direction at the central portion. The threshing mounting frame 75 is arranged on the left side in a substantially parallel state with a certain distance from 74, and the frame is integrally formed. 10 and 11, the mounting frame 70 is formed as a box shape having a substantially triangular shape in side view so that the base of the pitching cylinder 71 can be pivotally supported on the upper portion, and is formed in the front-rear direction. The connecting portion (welding allowance) is interposed between the main frame 74 and the threshing mounting frame 75 and joined, and is welded and attached relatively long in the front-rear direction.

  As shown in FIG. 11, the pitching arm 72 is rotatably supported by a support 76 whose rear portion is fixed to the traveling frame 69 side, the upper arm 72a is connected to the piston tip of the pitching cylinder 71, and the lower portion The arm 72b is connected to the track frame 73. Then, the track frame 73 is pivoted up and down by the pitching arm 72 with the front pivot point P as the pivot center, and the rear part of the traveling device composed of a wheel and a crawler is moved up and down as a unit. The front-rear posture is controlled to be almost horizontal.

  Usually, in the process of the pitching action of the combine, the pitching cylinder 71 detects the inclination of the vehicle body in the front-rear direction by a level sensor, and controls to raise the rear part of the vehicle body with a control signal output from the controller based on the detection information. In this case, the pitching arm 72 is rotated while the cylinder 71 is extended, and the action of pushing down the front part of the lower arm 72b around the rear fulcrum attached to the support 76 and pushing down the rear part of the track frame 73 to the ground side is started. The

  Then, the mounting frame 70 receives a load that works upward because the traveling device integrated with the track frame 73 pushed down by the pitching cylinder 71 that tries to extend downward receives resistance from the ground.

  In this way, the mounting frame 70 receives a push-up load directed upward in relation to the extension of the pitching cylinder 71 during the pitching operation (when the rear portion of the vehicle body is controlled and adjusted upward), but one side of the base is the main frame. 74, because a long welding allowance is formed on the other side of the threshing mounting frame 75 on the other side so as to be firmly fixed and connected to each other, so that a strong mounting structure is formed, and against the pushing load generated as described above. There is a feature that can withstand sufficiently.

Next, an example of the configuration of the engine room 78 and the cooler room 79 disposed on the intake side will be described.
The conventional apparatus does not have a configuration in which the cooler room is made independent of the engine room, as described in, for example, Japanese Patent Application Laid-Open No. 2005-127155 (see FIG. 21). As a result, the cooling efficiency of radiators is extremely poor.

  As already described, the engine room 78 according to the embodiment of the present invention is arranged on the lower side of the driver's cockpit 16 (see FIG. 2), has the engine 4 mounted therein, and transmits the rotating parts. . As shown in FIGS. 12 and 13, the cooler room 79 is configured as a separate room on the left and right by providing one partition plate 80 for partitioning from the engine room 78.

  As shown in the drawing, the partition plate 80 is formed with a two-step protruding bulge on the back side (engine room 78 side), and is mounted on the engine 4 side at the center. A shroud 82 is provided at a position corresponding to the cooling fan 81 that opens circularly along the rotational outer diameter of the cooling fan 81 and covers the outer periphery of the fan 81 in a circular shape along the outer edge. It is configured. The partition plate 80 also serves as an attachment member. On the front side, on the opposite side of the shroud 82, the radiator 83 is disposed on the lower side, the oil cooler 84 is disposed on the upper left position, and the upper right position is disposed. An intercooler 81 is arranged and each is firmly attached by screwing.

As shown in the drawings, the partition plate 80 is configured to be detachably attached to the outer frame (outer peripheral frame) 86 of the engine room 78 with a radiator 83 and each cooler attached thereto by screw tightening. The cooling fan 81 is configured to be able to suck and introduce outside air from the outside and to be sucked into the engine room 78 through the shroud 82 as the engine 4 is driven to rotate. 86 is a dust-proof net. As described above, the cooler room 79 is a separate room independent from the engine room 78 and is partitioned by a single plate. There is a feature that the cooling efficiency of each cooler is greatly improved without inflow of hot air. And since the partition plate 80 is integrally configured with the shroud 82 located on the rotation outer periphery of the cooling fan 81 on the engine room 78 side, there is an advantage that the configuration is simple and the cooling efficiency can be further increased.

  In the case of the embodiment, since the radiator 83, the oil cooler 84, and the intercooler 85 are directly attached to the partition plate 80, there is no gap or the like, the sealing performance is improved, the inflow of hot air is eliminated, and the cooling efficiency In addition to being able to further improve, it is easy to attach and detach as a whole, making it easy to install and remove and features easy maintenance.

Transmission mechanism diagram shown in the diagram Top view of the combine Partially cutaway side view of the mowing general feeding device Side view of mowing suspension Mainly transmission chain diagram Installation side view of transmission Side view of transmission Side view of operating device Action diagram of mowing and detaching operation device Plan view of the mounting frame of the pitching cylinder Side view of the mounting state of the pitching cylinder Side view showing part of cooler room and engine room The front view of a cooler room.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Traveling vehicle body 2 Threshing apparatus 3 Cutting general delivery apparatus 4 Engine 5 Traveling mission 6 Cutting clutch 7 Cutting and threshing takeover chain 8 Synchro transmission mechanism 9 Threshing clutch 10 Takeover chain clutch 11 Constant speed transmission mechanism 12 Feed chain 13 Feed chain clutch 14 One way clutch

Claims (2)

  In a combine constituted by mounting a cutting and conveying device (3) on the front side of the threshing device (2) mounted on the traveling vehicle body (1), the rotational power of the engine (4) is transferred from the traveling mission (5) to the cutting clutch ( 6), the synchronized transmission mechanism (8) synchronized with the traveling speed transmitted to the cutting and conveying device (3) and the cutting and threshing takeover chain (7) via the chopping clutch (9) and the takeover chain clutch (10). ) And a constant speed transmission mechanism (11) that transmits to the cutting and threshing takeover chain (7) and the cutting and conveying device (3). The feed chain (12) of the threshing device (2) that inherits the transported culm from the threshing takeover chain (7) is configured to be transmitted through the feed chain clutch (13), and the reaping clutch (6) is engaged and operated. And said Only if I over de Chen clutch (13) is also input operation, Combine, characterized in that it has a configuration capable of connecting the takeover chain clutch (10).   The two-line transmission mechanism (8, 11) is equipped with a one-way clutch (14) in one or both of the transmission mechanisms, and the two-line transmission mechanism (8, 11). The combine according to claim 1, wherein the harvesting and threshing take-over chain (7) and the harvesting and conveying device (3) are transmitted by rotational power on either one of the high speed sides.

Images