JP5347533B2 - Combine grain raising device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device capable of bringing raising devices upward lightly and easily, and opening them up by setting the rotary fulcrum position of the raising device low downward to make them lightweight. <P>SOLUTION: This combined harvester is constituted by arranging a sideways-facing upper part transverse transmitting shaft (22) upward of a plurality of raising devices (8) for raising standing cereal culms, jointly moving the upper end of a lengthwise vertical transmitting shaft (24) with an upper transverse transmitting shaft (22), also jointly moving a sideways-facing lower transverse transmitting shaft (25) with the lower end of the vertical transmitting shaft (24) by extending the vertical transmitting shaft (24) in a lower direction and transmitting from the lower transverse transmitting shaft (25) to the raising devices (8), and supporting at least one raising device (8) among the plurality of the raising devices (8) as capable of freely changing its position to a working position of descending turn and a non-working position of ascending turn by making the lower transverse transmission shaft (25) as a turning fulcrum. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a combine grain raising apparatus for harvesting and threshing while raising a raised grain cake.

  Conventionally, for example, as shown in Patent Document 1, a reaping device is lifted upward when a reaping device, a scraping conveyance device, or the like is inspected, or when a trouble due to clogging of the cereal is solved, Some of them are designed to make maintenance work easier by opening the front of the scraping and conveying device.

JP 11-235116 A

  Such a conventional pulling device has a structure in which the horizontal transmission shaft located in the upper part of the pulling device is lifted upward with the horizontal transmission shaft as a rotation fulcrum. Including the vertical transmission shaft, the vertical transmission case that covers it, and the transmission support mechanism such as the bevel gear case, the overall weight is very heavy and the upward lifting operation is not easy, and the locking and fixing means after lifting is also complicated. There was a problem.

  It is an object of the present invention to provide a device that can be reduced in weight by setting the pivoting fulcrum position of the pulling device to be lower and can be lifted and lifted lightly and easily upward.

In order to solve the above problems, the present invention has taken the following technical means.
That is, the first aspect of the present invention, six upper horizontal transmission shaft upward transversely of Pick-equipment of causing napped culms (22) is arranged, vertically to the upper horizontal transmission shaft (22) in conjunction with the upper end of the four vertical transmission shaft, and excluding the two longitudinal transmission shaft located outermost in the lateral direction of the four vertical transmission shaft by extending the said longitudinal transmission shaft downwards 2 one of the vertical transmission shaft (24) lower horizontal transmission shaft to the lower end sideways (25) were respectively linked, from each of the two lower horizontal transmission shaft (25), of the Pick equipment before Symbol six the first Pick device 2 groups located outermost in the lateral direction (8L, 8R) and the second cause of four except for a configuration in which transmission to the device (8), the second cause of the four and device (8), the two lower horizontal transmission shaft (25) as a rotation fulcrum, and a non-working position elevated pivoted working position lowered rotated S independently and freely repositioned support, second Pick device of the four cases of (8), constructed from the rear case (8b) and the case before, which is divided into front and rear (8a), the rear case (8b) is configured to rotate up and down integrally with a bevel gear box (29) that can be rotated about the lower lateral transmission shaft (25) as an axis, and is provided at the lower part of the four second pulling devices (8). The lock device provided includes a lock pin (31) provided on the rear case (8b) side, and a lock claw provided rotatably on the support stay (30) side protruding from the weed support frame (15). 32), and by releasing the locked state of the lock claw (32) with respect to the lock pin (31), the four second pulling devices (8) are lifted upward and inverted backwards. A pulling-up lateral transmission case which houses the upper lateral transmission shaft (22) The grain稈引cause device combine being characterized in that the upper part rest over supporting structure 21).

When performing maintenance work such as a reaping device or a scraping and conveying device, the lower fixing means of the pulling device (8) in a predetermined working posture is released, and the pulling device (8) is moved to the lower lateral transmission shaft ( By rotating the shaft center of 25) to the upper non-working position with the rotation fulcrum as the rotation fulcrum, the front of the reaping device, the scraping and conveying device, etc. is greatly opened.
The invention according to claim 2 is equipped with a threshing device (3) having a dust removal treatment cylinder (36) at the rear part of the traveling vehicle body (1) and wound around the outer periphery of the dust removal treatment cylinder (36). Among the feed spirals, the pitch of the feed spiral wound around the latter half of the dust removal treatment cylinder (36) is set larger than the pitch of the feed spiral wound around the front half of the dust removal treatment cylinder (36). In the combine provided with a dust discharge shooter (39) for guiding the dust discharge product discharged from the terminal end of the dust discharge processing cylinder (36) to a discharge wall cutter (38) for cutting the waste wall cutter, A cutting horizontal frame (18) having a horizontal transmission shaft (25) is provided at the front end of a vertical cutting frame (17) moving up and down with the cutting input shaft (13) as a fulcrum. ) Vertical frame (see below) And combine cereal稈引cause apparatus according to claim 1, further comprising a Pick-supporting frame (23) is connected to the base 7).

According to the first aspect of the present invention, the pulling device (8) can be lifted up lightly and easily by lowering and lowering the rotational fulcrum position of the pulling device (8) downward than the conventional one. Although the front of the reaping device and the take-up and transporting device can be greatly opened, even the fixing means after lifting can be held by a simple locking means such as a hook.
That is, by releasing the locked state of the lock claw (32) with respect to the lock pin (31), of the six pulling devices (8), two pulling devices (8L) located on the outermost side in the left-right direction , 8R), the four raising devices (8) can be lifted upward and reversed backward, and then raised and supported on the upper side of the lateral transmission case (21).
According to the second aspect of the invention, in addition to the effect of the first aspect of the invention, the support frame is formed by raising the left and right middle part of the lateral transmission case (21) and the base part of the vertical cutting frame (17). It can be connected and held at (23).

Combine side view Combine front view Side view of the main part of the cutting part Combine front view Side view of the main part of the cutting part Front view showing the transmission mechanism of the pulling device Side view of locking device Rear view of the main part Front view of the main part of the combine Top view of the main part Cross-sectional side view of the main part of the threshing part Front sectional view of main part of threshing part Control block circuit diagram Side sectional view of the main part of the Glen tank S1-S1 sectional view of FIG.

An embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a side view of a combine. This traveling vehicle body 1 includes a pair of left and right traveling crawlers 2 and 2, and a cutting portion 4 is installed at the front portion of a threshing device 3 mounted on the rear portion. The side portion of the mowing unit 4 is provided with a driving cabin 5 that houses a driver's seat, an operation box, and the like, and further, a rear side of the driving cabin is provided with a Glen tank 6 that temporarily stores threshing grains.

  The reaping part 4 is a weed body 7, 7 that splits the raised cereals left and right, a 6-row cereal raising device 8 that causes the cereals after weeding, and the cereals that have been raised. The clipper-type harvesting device 9 for harvesting, the scraping and transporting device 10 for scrambling and transporting the harvested culm, the lifting and transporting of the culm after transporting and transporting to the threshing feed chain 12 of the rear threshing device 3 The chopped grain feeder 11 and the like, and the chopping input shaft 13 as a fulcrum can be moved up and down, and the chopped vertical frame 17 is provided along the front-rear direction, and the tip of the chopped vertical frame is aligned in the horizontal direction. It is equipped with the cutting horizontal frame 18 provided. The harvesting vertical frame 17 is configured to be lifted and lowered by the lift cylinder 14, and a trimming vertical transmission shaft is provided in the frame 17, and is configured to be interlocked to drive the harvesting lateral transmission shaft in the harvesting horizontal frame 18. .

  The pulling device 8 includes a pulling vertical transmission pipe 19 whose upper portion is erected from the cutting horizontal frame 18, a pulling horizontal transmission case 21 horizontally mounted on each pulling device upper portion, and an intermediate portion of the pulling and horizontal transmission case 21. The lower support is supported by the weeding support frame 15 of the weeding body 7 and is supported by the raising support frame 23 that extends rearward and is connected to and held by the base of the cutting vertical frame 17. Each pulling device 8 includes an upper horizontal transmission shaft 22 that is raised and installed in the horizontal transmission case 21, first bevel gear mechanisms G1 and G2, a vertical transmission shaft 24 that extends downward from the upper horizontal transmission shaft 22, The second bevel gear mechanisms G3 and G4, the lower horizontal transmission shaft 25 extending in the horizontal direction from the vertical transmission shaft 24, and the third bevel gear mechanisms G5 and G6 are rotationally driven.

Then, the left and right outermost Pick device (first Pick device) 8L, 4 groups Pick device (second inking unit) 8 ... is the excluding 8R, working in a position lowered below the horizontal transmission shaft 25 as a fulcrum The bearing is held in such a way that the posture can be changed and fixed freely between the posture and the non-working posture in the raised position. Each of the four pulling devices is configured to move up and down independently, and when lifted upward, it can be supported by simple means such as a locking hook or a stand, and it can be moved backward. It can also be supported by being reversed and raised and dripping on the lateral transmission case 21.

  The raising case of the raising device 8 includes a front case 8 a and a rear case 8 b that can be divided into front and rear, and only an upper portion of the front case 8 a is fixed to a vertical transmission case 26 that covers the vertical transmission shaft 24. The hinge 28 is refracted near the axial center of the lower lateral transmission shaft 25. The rear case 8 b is configured to move up and down integrally with a bevel gear box 29 that can be rotated about a lower horizontal transmission shaft 25 that is pivotally supported by the lower horizontal transmission case 27. In addition, a lock device that can be attached to and detached from the support stay 30 protruding from the weed support frame 15 with one touch is provided below each of the four raising devices 8. The lock device includes a lock pin 31 provided on the rear case 8b side of the raising device and a lock claw 32 provided on the support stay 30 side and rotatable about the axis Q1. When the locked state of the lock claw 32 is released, the raising device can be lifted upward, and the weeding body 7 supported and fixed to the back side of the rear case 8b via the weed support rod 7a is raised. And can be lifted together.

Next, the embodiment shown in FIGS. 9 and 10 will be described.
The transmission paths (cases) for driving the pulling (devices) 8L1 and 8L2 and the pulling (devices) 8R1 and 8R2 are extended from the upper pulling side transmission case 21 toward the lower pulling 8L1 and 8R1. A first longitudinal transmission path LD1, RD1, a first lateral transmission path LD2, RD2 extending inward from each other, and a second longitudinal transmission path LD3, RD3 extending further downward from this, The second lateral transmission paths LD4 and RD4 extend outwardly from this, and are configured to be interlocked so as to drive each of the pulling devices 8L1, 8L2 and 8R1, 8R2 through these transmission paths. Yes. The transmission paths LD1 (RD1), LD2 (RD2), LD3 (RD3), and LD4 (RD4) are configured to be rotatable about the vertical axis Q2 of the first vertical transmission paths LD1 and RD1. Then, the lifting 8L1 and 8L2 can be opened to the left while taking forward from the state of FIG. 9 (see FIG. 10), and the raising 8R1 and 8R2 can be opened to the right as shown in FIG. Can be opened. In addition, in the thing of the structure which has arrange | positioned the upper tip conveyance apparatus 34 in the back part of pulling-up apparatus 8L2, 8R2, this can also be opened together. Moreover, if it attaches to the raising apparatus side which can open a weed body, it can open simultaneously.

  As shown in FIG. 11, it is configured to guide the dust disposal product discharged from the terminal end of the dust disposal cylinder 36 to the waste straw cutter 38 that cuts the waste straw through the dust shooter 39, The dust removal processed product is taken into the cutter unit and cut to improve the diffusion performance of the cutting brace. Further, in the feed spiral 37 wound around the outer periphery of the dust removal processing cylinder, the latter pitch P2 is made larger than the first half pitch P1 (P1 <P2), thereby promoting the feeding to the cutter unit and processing performance. To increase.

  Combine threshing selection control 12 and 13, a first sensor for detecting the flow rate of the first thing from the first cerealing device 44 is provided with a sheave sensor 43 for detecting the opening degree of the sheave 42 of the swing sorting shelf 41. 45 and 2 for detecting the second flow rate from the second reduction device 50 for reducing the second processed material into the second processing chamber 49 having the second processing cylinder 48 or the second processing chamber 49 having the second processing cylinder 46. No. sensor 51 is provided, the opening of the sheave 42 is detected by the sheave sensor 43, the No. 1 flow rate and No. 2 flow rate are detected by the No. 1 sensor 45, and the No. 2 sensor 51, and signals from each sensor are input to the controller 52. In addition, the rotational speed indicated by the rotary rotation sensor 54 of the hot spring 53 recorded in the controller is compared with the first flow rate or the second flow rate and the total ratio to change the sheave opening. . According to this, since the distribution rate to No. 2 is calculated, it is possible to prevent the objects to be circulated and control the distribution rate to be an appropriate distribution rate. In the conventional system, the control is based only on the No. 2 flow rate, and since the distribution rate of the object to be sorted cannot be directly grasped, the circulation becomes excessive or insufficient and the efficiency is poor. Since an appropriate sheave opening can always be obtained according to the distribution ratio of the objects to be sorted on the shelf, the sorting performance can be improved. Moreover, since the circulation of the grain to No. 2 is prevented and the flow rate at the sorting section is not excessive, the sorting efficiency is improved and the work efficiency is improved.

  Also, combine threshing selection control2. , The rotation speed of the red pepper is detected by the sensor 54, the first flow rate and the second flow rate are detected by the first sensor 45, the second sensor 51, and the signal from each sensor is input to the controller 52 and recorded in the controller. In addition, the rotation speed of the red pepper 53 is changed by comparing the indicated value of the rotational speed of the red pepper 53 with the first flow rate or the second flow rate and the total ratio, so that the sorting on the swing sorting shelf is performed. An appropriate sorting wind speed can always be obtained according to the distribution ratio of the goods, and the sorting performance can be improved.

  2. Combine threshing selection control , The rotation speed of the red pepper is detected by the sensor 54, the first flow rate and the second flow rate are detected by the first sensor 45, the second sensor 51, and the signal from each sensor is input to the controller 52 and recorded in the controller. It is possible to configure so that the rotation speed of the red pepper is changed by comparing the calculated indication value of the red pepper speed and the total of the first flow rate and the second flow rate. The total amount of objects to be sorted received by the sorting unit is the sum of the first and second flow rates, and is controlled based on this. In the conventional system, the control is based on only the second flow rate, and this makes it impossible to properly grasp the total amount of the objects to be sorted. According to the above configuration, since a predetermined sorting wind speed can be always obtained according to the change in the flow rate of the sorting object on the swing sorting shelf, the sorting performance can be improved.

  3. Combine threshing selection control The rotational speed of the second fan, which is provided separately from the tang and can be changed, is detected by the rotation sensor 55, and the first flow rate and the second flow rate are detected by the first sensor 45 and the second sensor 51. The signals from the sensors are input to the controller 52, and the rotation speed indicated by the red pepper rotation sensor 54 of the red pepper 53 recorded in the controller is compared with the first flow rate or the second flow rate and the total ratio. The rotational speed of the second fan can also be controlled. According to this, it is possible to always obtain an appropriate sorting wind speed in accordance with the distribution ratio of the objects to be sorted on the swing sorting shelf, and it is possible to improve the sorting performance.

  4. Combine threshing selection control , The rotation speed of the second fan whose rotation speed can be changed is detected by the rotation sensor 55, the first flow rate and the second flow rate are detected by the first sensor 45, the second sensor 51, and the signal from each sensor is sent to the controller 52. The second fan indicated value recorded in the controller and the sum of the first flow rate and the second flow rate may be compared and calculated to control the rotation speed of the second fan. The total amount of objects to be accepted by the sorting unit is the sum of the flow rates of No. 1 and No. 2, and is controlled based on this, but if the second fan speed is high when the amount of sorting is small, No. 3 If the loss increases and the amount of objects to be sorted is large, if the amount of foreign matter dropped to No. 2 is large, the amount circulated on the swing sorting shelf increases and the efficiency decreases. According to the above configuration, since an appropriate sorting wind speed can be always obtained according to the variation of the flow rate to be sorted on the swing sorting shelf, the sorting performance is improved and the third loss can be reduced when the flow rate is low. When the flow rate is high, the efficiency can be increased.

  As shown in FIG. 14 and FIG. 15, the grain in the Glen tank 6 is carried out of the tank by the transport spiral 57, and the delivered grain is taken over in an elbow shape in the lifted spiral cylinder 58 on one side of the tank. In the structure that can be handed over via the metal 59, by extending the inner wall of the takeover metal 59 outwardly from the opening 61 of the spiral roof 60, the resistance of the takeover portion from the inside of the tank during transfer to the takeover metal is reduced. It is configured to eliminate clogging of grains in the transfer passage of the takeover part. Conventionally, since there is a wall as indicated by a virtual line (A) in FIG. 14 between the spiral roof and the takeover metal in the tank side plate portion, this becomes a conveyance resistance of the grain and becomes a cause of clogging. In this example, by adopting the above-described configuration, the grain conveyance resistance is eliminated, and it is smoothly transferred and transferred.

1 traveling body
3 Threshing device
8 4 lifting devices excluding left and right outermost lifting devices (second lifting device)
8a front case
Case after 8b
8L, 8R left and right outermost pulling device (first pulling device)
13 Cutting input shaft
15 minute grass support frame
17 Cutting vertical frame
18 mowing horizontal frame
21 Triggered lateral transmission case 22 Upper lateral transmission shaft
23 Lifting support frame 24 Vertical transmission shaft 25 Lower horizontal transmission shaft
29 bevel gearbox
30 support stays
31 lock pin
32 lock claws
36 dust disposal cylinder
38 waste wall cutter
39 dust shooter

Claims (2)

Above the Pick-equipment of six causing napped culms arranged sideways of the upper horizontal transmission shaft (22), the upper end portion of the four longitudinal transmission shaft of the vertical to the upper horizontal transmission shaft (22) interlocking is, the lower end of the vertical transmission shaft by extending downward the four vertical transmission shaft two longitudinal transmission shaft, excluding the two longitudinal transmission shaft located outermost in the lateral direction of (24) lateral lower horizontal transmission shaft (25) is respectively linked to, from each of the two lower horizontal transmission shaft (25), of Pick equipment before Symbol six, located outermost in the lateral direction The four second pulling devices (8) excluding the two first pulling devices (8L, 8R) are configured to transmit to the four second pulling devices (8) . lower horizontal transmission shaft (25) as a rotation fulcrum, the position changes freely supporting and independently to the non-working position elevated pivoted working position lowered rotated The case of the four second raising devices (8) is composed of a front case (8a) and a rear case (8b) which are divided into front and rear, and the rear case (8b) has a lower lateral transmission shaft (25). ) As an axis, and is configured to rotate up and down integrally with a bevel gear box (29) that can rotate, and the locking device provided at the lower part of the four second raising devices (8) includes the rear case (8b). ) Side lock pin (31) and a support stay (30) projecting from the weed support frame (15), and a lock claw (32) rotatably provided, 31) By releasing the lock state of the lock claw (32) with respect to 31), the four second raising devices (8) are lifted upward and reversed backward, and the upper lateral transmission shaft (22) is internally provided. To hang up and support the upper part of the horizontal transmission case (21) Grain稈引raised apparatus combine, characterized in that configuration and the. A threshing device (3) having a dust removal processing cylinder (36) is mounted on the rear part of the traveling vehicle body (1), and the dust exhausting of the feed spirals wound around the outer periphery of the dust removal processing cylinder (36). The pitch of the feed spiral wound around the latter half of the processing cylinder (36) is set to be larger than the pitch of the feed spiral wound around the front half of the dust removal treatment cylinder (36). 36) In a combine provided with a dust discharge shooter (39) for guiding the dust discharge product discharged from the end of 36) to a discharge wall cutter (38) for waste wall cutting processing, the lower lateral transmission shaft (25) is provided internally. The cut horizontal frame (18) is provided at the front end of the vertical cutting vertical frame (17) that moves up and down with the cutting input shaft (13) as a fulcrum, and is raised rearward from the intermediate portion in the horizontal direction of the horizontal transmission case (21). Connected to the base of the vertical cutting frame (17) Pick combined cereal 稈引 cause apparatus according to claim 1, further comprising a support frame (23).

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