JP5682425B2 - Transplanter - Google Patents

Description

The present invention relates to a transplanter for seedlings, seed pods and the like, and belongs to the technical field of agricultural machinery.

  Conventionally, an operator manually supplies seed pods and seedlings prepared on a mounting table of a transplanting machine one by one to a plurality of supply cups that are rotated and conveyed in a loop according to the traveling of the transplanting machine. A vegetable seedling transplanter that is automatically planted in a farm is known. In this transplanter, a supply cup for an operator to supply seedlings one by one by hand is in a loop shape, and a seedling supplied from the supply part is temporarily held in a loop shape. A planting device having a planting tool to be planted in a field is provided. Then, an operator walking along with the traveling of the aircraft grabs the seedlings on the seedling placement table one by one and puts them in each supply cup that rotates in accordance with the traveling of the aircraft.

  At the bottom of each supply cup, one open / close lid that is movable in the vertical direction is provided, and each supply lid reaches the upper part of the planting tool as the supply cup is transferred. Sometimes it is opened and the seedling in the supply cup is fed to the lower planting tool. When the tip of the planting tool reaches the lowermost end, it enters the field to a predetermined depth and opens, and the seedling held inside falls to the field and is planted.

  The planting device includes a bowl-shaped planting tool that receives a seedling from an opening formed in an upper portion thereof and can be opened and closed to the left and right, and a lifting arm that connects the planting tool to a rear end to drive the planting tool up and down And a sub-link that moves up and down in parallel with the lower part of the elevating arm and is connected to the planting tool and maintains its posture.

  The front end of the lifting arm is connected to the lower end of a swinging arm that swings back and forth and moves back and forth, and a crank arm that is driven to rotate is connected to the connecting point of the middle part of the lifting arm. ing. Further, a sub crank arm that rotates in parallel with the rotation of the crank arm and supports the front end of the sub link is provided.

In the planting device, the planting tool opens and closes to the left and right in conjunction with the lifting operation by the lifting arm that is swung up and down by the rotation of the crank arm to plant seedlings.
When the crank arm of the planting device rotates, the front end of the lifting arm is swung up and down while moving back and forth by the swing arm, and the planting tool operates to draw a long elliptical trajectory up and down The seedling can be stably planted by reducing the planting hole that the planting tool drills in the field.

  This transplanter is configured to transmit from the prime mover to the rear wheel, which is a traveling propulsion body, through the main transmission case, and to transmit from the main transmission case to the planting device and the supply unit through the planting transmission case, The planting transmission case is disposed on the rear side of the main transmission case, and an airframe cover is provided to cover the prime mover and the upper portion of the main transmission case. And a planting apparatus is comprised by a planting tool and the raising / lowering link mechanism which raises / lowers this planting tool, and has arrange | positioned the raising / lowering link mechanism in the right-and-left one side (left side) of a planting transmission case (for example, patent) Reference 1 to Patent Document 3).

  Moreover, the planting transmission case has a shape extending obliquely rearward and upward from the front lower side, and accommodates a plurality of right and left transmission shafts. The plurality of transmission shafts are sequentially arranged from the front lower side to the oblique rear upper side substantially along the shape of the planting transmission case (see, for example, Patent Document 1 and Patent Document 2).

  And in the planting transmission case, it is the structure which transmits between arbitrary transmission shafts via an endless body. Also, between the different transmission shafts, it is configured to transmit via the drive side gear and the driven side gear that mesh with each other, and multiple drive side gears are provided with different pitch circle diameters, corresponding to multiple drive side gears Thus, a selection mechanism for selecting a drive-side gear to be transmitted among a plurality of drive-side gears is configured by a mechanism including a plurality of driven-side gears and a slide key for selecting the driven-side gear that rotates integrally with the transmission shaft. . On the final transmission shaft in the planting transmission case, a planting clutch for turning on and off the transmission to the planting device is provided. The planting clutch is a one-rotation clutch, and the transmission selected by the selection mechanism The clutch arm, which is a planting clutch operating mechanism that operates according to the above, operates with an intermittent planting mechanism that is in a transmission state every predetermined cycle, and changes between the planted stocks by changing the predetermined cycle with a selection mechanism. Yes. Moreover, it has the structure which transmits to a planting apparatus from the left-right one side (left side) rather than the 4th-axis planting clutch and an endless body (for example, refer patent document 2).

JP 2009-284858 A JP 2010-98957 A JP 2010-193792 A

  Since the planting transmission case has a shape that extends obliquely upward and rearward from the lower part of the aircraft cover to the upper part of the aircraft cover, the rear end of the aircraft cover can only be extended to just before the planting transmission case, There is a limit in covering the structure of the airframe including the prime mover and the main transmission case with the airframe cover.

  The present invention has a structure in which the structure of the body is sufficiently covered by the body cover, simplifies the transmission mechanism and makes the body compact, and ensures the supply of the transplant object to the planting tool by the supply unit. The task is to plan.

In order to solve the above problems, the following technical measures were taken.
That is, the invention according to claim 1 is transmitted from the prime mover (11) to the traveling propulsion body via the main transmission case (12) and from the main transmission case (12) via the planting transmission case (26). In the transplanter configured to transmit to the planting device (19), the planting transmission case (26) is disposed on the rear side of the main transmission case (12), and a recess (123) is formed on the front upper surface. The rear part (124a) of the machine body cover (124) that covers the prime mover (11) and the main transmission case (12) is inserted into the recess (123), and the planting transmission case (26) Includes a left-right first axis (95), a left-right second axis (100) transmitted from the first axis (95), and a left-right direction transmitted from the second axis (100). Third axis (103) and left transmitted from the third axis (103) Drive side that is provided with a fourth shaft (62) in the direction, is transmitted from the first shaft (95) to the second shaft (100) via the first endless body (98), and meshes with the second shaft (100). Transmission to the third shaft (103) via the gear (101) and the driven gear (102), and transmission from the third shaft (103) to the fourth shaft (62) via the second endless body (110) A selection mechanism for providing a plurality of drive side gears (101) with different numbers of teeth and selecting a drive side gear (101) to be transmitted among the plurality of drive side gears (101) is provided as a third shaft (103 ) Is arranged on the rear side, and a planting clutch (112) for turning on and off the transmission to the planting device (19) is provided on the fourth shaft (62) and the planting clutch (112) is operated. The operating mechanism (116) was a transplanter arranged on the rear side from the fourth shaft (62) .

  Moreover, the invention which concerns on Claim 2 comprises a planting apparatus (19) by the planting tool (28) and the raising / lowering link mechanism (29) which raises / lowers this planting tool (28), and an elevator link mechanism ( 29) is arranged on the left and right sides of the planting transmission case (26), and the body cover (124) is provided on the left and right sides of the planting transmission case (26) with the recesses (123) of the planting transmission case (26). 2), an extension portion (124b) extending rearward of the lifting mechanism (29) is formed, and the extension portion (124b) is disposed above the elevating link mechanism (29).

In the invention according to claim 3, the second shaft (100) is disposed rearward and above the first shaft (95), and the third shaft (103) is disposed behind the second shaft (100). The fourth shaft (62) is disposed above the third shaft (103), and a recess is formed between the second shaft (100) and the fourth shaft (62) on the obliquely front upper side of the third shaft (103). The transplanter according to claim 1 or claim 2 in which (123) is formed.

Further, the invention according to claim 4 is provided with a supply unit (31) for supplying transplant objects one by one to the planting device (19), the planting clutch (112) of the fourth shaft (62) and the second Power is transmitted to the planting device (19) from the left and right sides of the endless body (110), and is supplied from the left and right sides of the fourth shaft (62) and the second endless body (110). The transplanter according to any one of claims 1 to 3, wherein the transplanter is configured to transmit to the portion (31) .

According to the first aspect of the present invention, the rear part 124a of the machine body cover 124 can be inserted into the recess 123 of the planting transmission case 26 and positioned rearward, so that the front and rear length of the machine body is shortened to make the machine body compact. In addition to being able to be constructed, the fuselage cover 124 can effectively cover the structure of the fuselage including the front and lower parts of the planting transmission case 26, and can accurately shield the fuselage structure from rain, etc. Improves.
Further, since the selection mechanism 105 is disposed on the rear side from the third shaft 103 and the planting clutch operation mechanism 116 is disposed on the rear side from the fourth shaft 62, the selection mechanism 105 and the planting clutch operation mechanism 116 are the body. The selection mechanism 105 and the planting clutch operation mechanism 116 are arranged away from the cover 124 so that the machine body cover 124 does not interfere with the maintenance, and the maintenance of the selection mechanism 105 and the planting clutch operation mechanism 116 is easy. Become.

  According to the second aspect of the invention, in addition to the effect of the first aspect of the invention, the extension of the body cover 124 can effectively cover the structure of the body including the lifting link mechanism 29, such as rain. Therefore, the structure of the airframe including the lifting link mechanism 29 can be accurately blocked, and the durability of the airframe is improved. In addition, the operator can be prevented from touching the lift link mechanism 29 that operates, and safety is improved.

According to the invention according to claim 3, in addition to the effect of the invention according to claim 1 or 2 , the planting transmission is performed while the fourth shaft 62 is arranged at a high position so as to be suitable for the transmission to the planting device 19. The front lower portion of the case 26 can be positioned directly below the body cover 124, and the concave portion 123 of the planting transmission case 26 can be rationally formed according to the position of the body cover 124, and the planting transmission case can be formed by the body cover 124. The structure of the fuselage including the front and lower portions of the 26 can be effectively covered.

According to the invention according to claim 4, in addition to the effect of the invention according to any one of claims 1 to 3 , the transmission mechanism to the planting device 19 and the supply unit 31 is provided on the fourth shaft 62. The planting clutch 112 and the second endless body 110 can be distributed to the left and right, the transmission mechanism can be arranged rationally and compactly, and the transmission mechanism can be simplified and the body can be made compact .

Side view showing the transplanter Top view showing the transplanter Bottom view showing the supply section Side view showing planting transmission case Side view showing planting device drive case Cross-sectional development side view showing planting transmission case Perspective view showing planting device Side view showing the planting device when the planting tool is located near the top dead center of the trajectory Side view showing the planting device when the planting tool is positioned in the middle of the lowering process Side view showing the planting device when the planting tool is located at the bottom dead center Side view showing the planting device when the planting tool is positioned in the middle of the ascending process Plan view showing the planting device Rear view showing planting device Graph showing vertical speed, longitudinal speed and absolute speed of planting tool Graph showing static and dynamic trajectories of planting tools between planting stocks

One embodiment of the present invention will be described below. The following embodiment is merely an embodiment and does not restrict the scope of the claims.
A transplanter for transplanting tobacco seedlings will be described as an example of a transplanter. The transplanter 10 includes a prime mover 11 and a main transmission case 12 which are engines at a front portion, a pair of left and right front wheels 13 as traveling wheels, a pair of left and right rear wheels 14 as traveling wheels and a traveling propulsion body, and a rear portion. The attachment device 19, the supply unit 31, the pressure reducing wheel 15, and the steering handle 16 are provided.

  In the transplanter 10, the front wheel 13 and the rear wheel 14 travel between the ridges so that the traveling body straddles the ridge U in the field, and the seedling is planted by the planting device 19 at the center position in the left-right width direction on the upper surface of the ridge U. It is the composition which goes.

  In addition, left and right extension cases 40 are provided on the left and right ends of the main transmission case 12 so as to be vertically rotatable with respect to the main transmission case 12, and the traveling transmission cases 20 are attached to the respective ends of the left and right extension cases 40. ing. Therefore, the power in the main transmission case 12 input from the prime mover 11 is transmitted to the traveling transmission case 20.

  A rear wheel 14 is attached to each rotation tip of the traveling transmission case 20, and the airframe travels by driving the left and right rear wheels 14. Therefore, the main transmission case 12, the extension case 40, and the traveling transmission case 20 are transmission devices that transmit to the rear wheel 14 as traveling wheels.

  On the other hand, a front wheel support frame 41 extending in the left-right direction is provided at the lower part of the engine mounting table 91 so as to be rotatable around the rolling shaft 18 in the front-rear direction, and the front wheels 13 are attached to both left and right ends of the front wheel support frame 41. Yes.

  A rear frame 21 extending in the left-right direction is fixedly provided at the rear end of the main transmission case 12, and a main frame 22 extending in the front-rear direction at a position on the right side of the airframe is provided at the right end of the rear end surface of the rear frame 21. Is provided. A steering handle 16 is provided at the rear end of the main frame 22, and the steering handle 16 is supported by the main transmission case 12 via the main frame 22 and the rear frame 21. The planting transmission case 26 is fixedly provided on the upper surface of the rear frame 21 on the left or right side (right side) with the front lower end portion of the planting transmission case 26 mounted thereon.

  A hydraulic lifting cylinder 23 is provided on the rear side of the main transmission case 12 and in the center in the left-right direction. The hydraulic lifting cylinder 23 is fixedly provided to a hydraulic pressure switching valve portion 24 attached to the main transmission case 12, and switches an oil path from a hydraulic pump 92 attached to the main transmission case 12 by the hydraulic pressure switching valve portion 24. It works by.

  Also, a horizontal rod 43 extending left and right is provided at the rear end of the cylinder rod of the hydraulic lift cylinder 23, and a left rear wheel lift rod 44 and a right rear wheel lift rod, which respectively serve as rods, are provided at the left and right ends of the horizontal rod 43, respectively. 45, and the other ends of the left rear wheel lifting rod 44 and the right rear wheel lifting rod 45 are pivotally attached to the upper arms 40a attached to the respective extension cases 40, so that the horizontal rod 43 and the extension case are connected. 40 is connected. Therefore, the traveling transmission case 20 is rotated around the left and right output shafts of the main transmission case 12 through the horizontal rod 43, the left rear wheel lifting rod 44 and the right rear wheel lifting rod 45 by the expansion and contraction of the hydraulic lifting cylinder 23. The rear wheel 14 is moved up and down by the rotation of the traveling transmission case 20, and the traveling body is moved up and down. Note that the cylinder rod of the hydraulic lift cylinder 23, the horizontal rod 43, the left rear wheel lift rod 44, and the right rear wheel lift rod 45 have a lift link mechanism 29, which will be described later in side view, depending on the position of the cylinder rod. The structure is located below and the space is effectively used to make the aircraft compact.

  Further, a left / right tilt hydraulic cylinder 25 that is actuated by hydraulic pressure from a hydraulic pump 92 is provided in the middle of the left rear wheel lift rod 44 so that the left rear wheel lift rod 44 extends and contracts. A structure in which the left rear wheel 14 is moved up and down with respect to the vertical position of the right rear wheel 14 by expansion and contraction of the hydraulic cylinder 25 to control the traveling vehicle body to a desired right and left inclined posture regardless of the unevenness of the valley portion of the heel U It has become. A pendulum type left / right tilt sensor 42 is provided on the right side of the main transmission case 12, and the left / right tilt sensor 42 detects the left / right tilt via a left / right tilt switching valve provided in the hydraulic pressure switching valve unit 24. The hydraulic cylinder 25 is actuated to control the traveling machine body to a desired left / right inclined posture.

  The planting device 19 includes a planting transmission case 26 in which power from the main transmission case 12 is provided on the rear side of the main transmission case 12 in order to plant seedlings to be transplanted one by one on the straw in the field, It is transmitted through a planting device drive case 27 attached to the planting transmission case 26 and is operated.

  The planting device 19 includes a cup-shaped planting tool 28 with a sharp tip and an elevating link mechanism 29 that operates to raise and lower the planting tool 28. The tip (lower end) of the planting tool 28 moves down the front side and rises on the rear side by the lifting and lowering operation of the planting tool 28, and has a loop-like locus 17 in which the width in the front-rear direction is larger in the lower part than in the upper part. It draws and operates repeatedly.

  A supply cup 33 that is operated by the power from the planting transmission case 26 and is supplied by the operator by hand to the seedling one by one is supplied to the supply unit 31 in a circular loop on the supply turntable 32 at predetermined intervals. Is arranged. An opening / closing lid 34 that is movable in the vertical direction is provided at the bottom of each supply cup 33. Further, below the supply cup 33, the opening / closing lid 34 is provided only when the supply cup 33 comes to a predetermined position P, which is the position above the planting tool 28, due to the rotation of the supply turntable 32 in the direction of arrow A. In order to open, a substantially C-shaped supply cup opening / closing guide 35 with an annular part cut away is fixed to the traveling machine body side. The supply cup opening / closing guide 35 restricts the opening / closing lid 34 from opening at a position other than the predetermined position P by contacting and supporting the opening / closing lid 34 from below.

The worker who walks with the traveling of the machine body takes the seedlings on the mounting table 30 and puts them in the supply cups 33 rotating in the direction of arrow A in accordance with the traveling of the machine body.
When the opening / closing lid 34 of the supply cup 33 is opened at the predetermined position P, the seedling in the supply cup 33 is supplied to the lower planting tool 28. When the planting tool 28 comes to the bottom dead center of the operation locus 17, the planting tool 28 enters the soil to a predetermined depth and opens to the left and right like a cocoon so as to drop and plant the seedling held inside.

  A power take-out shaft that protrudes rearward from the rear surface of the main transmission case 12 protrudes, and power is input into the planting transmission case 26 via the power take-out shaft. The transmission in the planting transmission case 26 will be described. A front-rear input shaft 93 that rotates integrally with the power take-off shaft is provided, and a first shaft in the left-right direction is provided from the input shaft 93 via a pair of bevel gears 94. It is transmitted to 95. A safety clutch 96 is provided on the input shaft 93 just before the planting transmission case 26 to cut off the power with a load torque higher than a predetermined value. When an excessive operating load is generated on the planting device 19 due to a mechanical lock or the like. Further, the power is cut off by the safety clutch 96 to prevent the planting transmission mechanism including the planting device 19 and the planting transmission case 26 from being damaged. A first drive sprocket 97 that rotates integrally with the first shaft 95 is provided, and is transmitted from the first drive sprocket 97 to the first driven sprocket 99 via the first endless body 98 that is a chain. It is transmitted to the second shaft 100 in the left-right direction that rotates integrally with the driven sprocket 99. On the second shaft 100 and on the left and right sides (left side) of the first driven sprocket 99, a plurality (three) of driving side gears 101 are arranged on the left and right, and the plurality (three) of driving side gears 101 are arranged. Rotates integrally with the second shaft 100. The plurality of drive-side gears 101 have different pitch circle diameters and are set to have different numbers of teeth.

  A single driven gear 102 that meshes with any one of the plurality of driving gears 101 is provided on the third shaft 103 in the left-right direction, and the driven gear 102 is slid left and right on the third shaft 103. Thus, the drive side gear 101 that meshes with the driven side gear 102 is switched. The third shaft 103 is configured to rotate integrally with the driven gear 102 via the spline 104. The driven side gear 102 is slid by the left and right slide of the selection mechanism 105 which is a slide shifter linked to the driven side gear 102. Therefore, the selection mechanism 105 switches and selects the drive side gear 101 to be transmitted among the plurality of drive side gears 101. The selection mechanism 105 includes a linkage portion 106 that is linked to the driven gear 102 and a slide shaft 107 that is integral with the linkage portion 106 and extends in the left-right direction. The end portion of the slide shaft 107 is the other left and right sides of the planting transmission case 26. The switching operation grip 108 is fixed to the end portion of the slide shaft 107. Therefore, when the operator operates the switching operation grip 108 to the left and right, the selection mechanism 105 moves to the left and right to switch the left and right positions of the linkage unit 106, and the transmission ratio to the third shaft 103 is switched. The transmission ratio switching configuration by the selection mechanism 105 is an inter-strain transmission that changes the operating speed of the planting device 19 with respect to the traveling speed to change the planting strain. The slide shaft 107 is disposed on the rear side of the front end of the third shaft 103 above the third shaft 103, and the selection mechanism 105 including the linking portion 106 is located on the upper side of the third shaft 103 from the third shaft 103. Arranged on the side.

  A second drive sprocket 109 that rotates integrally with the third shaft 103 is provided at the left and right ends (left side) of the third shaft 103, and a second endless body 110 that is a chain from the second drive sprocket 109. Is transmitted to the second driven sprocket 111. The second driven sprocket 111 is configured to rotate freely on the swing cam drive shaft 62 that is the fourth shaft in the left-right direction, and the drive side pawl of the planting clutch 112 provided on the swing cam drive shaft 62. It rotates integrally with the body 113. The planting clutch 112 is a fixed position stop clutch that stops at a predetermined rotational phase (fixed position) when the transmission is cut off, and is near the top dead center on the locus 17 that operates the planting tool 28 of the planting device 19 (strictly Stop at a position slightly lower than the top dead center. The planting clutch 112 is arranged on the left and right other side (right side) of the second driven sprocket 111, and the driven claw body 114 that meshes with the driving side claw body 113 rotates integrally with the swing cam drive shaft 62. The transmission to the swing cam drive shaft 62 is turned on and off. An operation cam 115 for stopping at a fixed position is formed on the outer peripheral surface of the driven claw body 114 of the planting clutch 112, and the planting clutch operation mechanism 116 which is an operation pin facing the operation cam 115 is provided with the operation cam. It is configured to cut off the transmission of the planting clutch 112 by protruding to the 115 side (front side) and contacting the operation cam 115. When the planting clutch operation mechanism 116 returns to the opposite side (rear side) to the operation cam 115 and is separated from the operation cam 115, the driven claw body 114 is moved to the left and right side (left side) that becomes the drive claw body 113. By the planting clutch spring 117 to be pressed, the driving claw body 113 and the driven claw body 114 are engaged with each other, and the planting clutch 112 is in a transmission state. The planting clutch operation mechanism 116 is disposed behind the rocking cam drive shaft 62 and behind the rocking cam drive shaft 62.

  The left and right ends (left side) of the swing cam drive shaft 62 protrude from the planting transmission case 26 and are fixed to the left and right sides (left side) of the planting transmission case 26. It penetrates the case 27 and protrudes from the left and right side surfaces (left side) of the planting device drive case 27. In the planting device drive case 27, a third drive sprocket 118 that rotates integrally with the swing cam drive shaft 62 is provided, and the third drive sprocket 118 is connected to a third end 119 that is a chain via a third endless body 119. Transmission to the driven sprocket 120 causes the third driven sprocket 120 and a crank arm drive shaft 61 described later to rotate integrally. The crank arm drive shaft 61 is disposed behind the swing cam drive shaft 62 at the same height as the swing cam drive shaft 62. Further, a leaf spring 120 is provided above the third endless body 119 to contact the third endless body 119 and apply tension to the third endless body 119.

  On the other hand, a pair of bevel gears 121 for transmission section transmission are provided at the left and right other side (right side) ends of the swing cam drive shaft 62, and planting transmission is performed via the pair of bevel gears 121 for transmission section transmission. The power transmission shaft 122 for supply part projecting to the rear side of the case 26 is transmitted. The supply unit 31 is driven and rotated by transmission from the power supply shaft 122 for supply unit.

  The arrangement configuration of the transmission shaft in the planting transmission case 26 will be described. The second shaft 100 is arranged on the rear side and the upper side with respect to the first shaft 95, and the rear side of the second shaft 100 (the height substantially the same as the second shaft 100). 3rd axis | shaft 103 is arrange | positioned in this position), and the 4th axis | shaft 62 is arrange | positioned above the 3rd axis | shaft 103 (substantially the same front-back position as the 3rd axis | shaft 103). The planting transmission case 26 has a recess 123 formed between the second shaft 100 and the fourth shaft 62 on the upper front side of the third shaft 103 and on the front upper surface of the planting transmission case 26.

  A machine body cover 124 is provided to cover the prime mover 11 and the main transmission case 12, and a rear portion 124 a of the machine body cover 124 is inserted into the recess 123 of the planting transmission case 26. The body cover 124 is formed with an extension portion 124b extending to the rear side of the recessed portion 123 of the planting transmission case 26 on the left and right side (left side) of the planting transmission case 26, and the extension portion 124b is moved up and down the link mechanism 29. Is disposed above the front portion (a front swing arm 50 and a rear swing arm 51 described later).

  The planting device 19 includes a cup-shaped planting tool 28 that receives a seedling from an opening formed in the upper part and has a pointed tip that can be opened and closed to the left and right, and an elevating link mechanism 29 that drives the planting tool 28 up and down. The The elevating link mechanism 29 is attached to the planting device drive case 27.

  The elevating link mechanism 29, which is a link mechanism, is rotatably connected to the planting device drive case 27 at the upper end thereof to the swing cam drive shaft 62 and the upper rear shaft 60, respectively, and the lower end is respectively connected to the lower front shaft 63 and the lower rear shaft. A front swing arm 50 and a rear swing arm 51 that are connected by a connection support plate 68 so as to be rotatable at 65 and are provided in parallel in the front-rear direction are provided. In addition, the front end is connected to the upper shaft 64 and the lower rear shaft 65 of the connection support plate 68 so as to be rotatable, and the rear end of the connection support plate 68 is provided with the rotation upper shaft 73 provided on the support plate 72 of the planting tool 28 and the rotation lower shaft. A parallel upper arm 52 and a lower arm 53 are rotatably connected to a shaft 74. The front swing arm 50 and the rear swing arm 51 that swing mainly back and forth are an example of the two first swing links that swing in a predetermined direction, and the upper arm 52 that mainly swings up and down. The lower arm 53 corresponds to an example of two second swing links that swing in another predetermined direction. The front swing arm 50 corresponds to an example of one first swing link, and the lower arm 53 corresponds to an example of one second swing link. The swing cam drive shaft 62 is an example of a drive shaft, and the upper rear shaft 60 is an example of a rotation fulcrum shaft of one first swing link.

  A crank arm 55 whose base is fixed to a crank arm drive shaft 61 protruding from the left and right side (left side) side surfaces of the planting device drive case 27 and a first connecting shaft 66 provided at the tip of the crank arm 55. And a connecting arm 56 pivotally connected to a second connecting shaft 67 provided at one end of the lower arm 53 in the front and rear direction.

  Further, a rocking drive cam 54 that is fixed to the rocking cam drive shaft 62 and rotates is provided, and an intermediate portion near the upper rear shaft 60 of the rear rocking arm 51 so as to contact the peripheral edge of the rocking drive cam 54. A rotation roller 57 is provided so as to be rotatable. The swing drive cam 54 is an example of a first swing member, and the crank arm 55 is an example of a second swing member.

  Further, provided between the support pin provided on the planting device drive case 27 and the lower end of the rear swing arm 51, the front swing arm 50 and the rear swing arm 51 are urged toward the front side to swing. A tension spring that abuts the dynamic drive cam 54 and the rotation roller 57 is provided.

  In addition, the lower part of the planting tool 28 is composed of a bowl-shaped left side member 70L and a right side member 70R. The left side member 70L and the right side member 70R are closed and hold seedlings therein, and the planting locus 17 It is a general configuration in which the seedlings are planted in the buds that open to the left and right at the bottom end of the pod.

  Next, by the operation of the elevating link mechanism 29, the lower end of the planting tool 28 draws a planting locus 17 (static trajectory: a locus in a state where the machine is stopped), and the planting device 28 transplants the seedling into the ridge U. The operation will be described.

  As the swing cam drive shaft 62 rotates in the B direction, the swing drive cam 54 fixed to the swing cam drive shaft 62 rotates in the B direction, and a rotation roller 57 that contacts the swing drive cam 54. The front swing arm 50 and the rear swing arm 51 swing back and forth via

  On the other hand, when the crank arm drive shaft 61 rotates, the crank arm 55 fixed to the crank arm drive shaft 61 rotates in the C direction, and the lower arm 53 and the upper arm 52 move up and down via the connecting arm 56. Swing.

  Therefore, since the front swing arm 50, the rear swing arm 51, the upper arm 52, and the lower arm 53 are all parallel link mechanisms, the planting tool 28 maintains a posture in the vertical direction and its lower end. Is operated while drawing the planting locus 17, and the seedling received in the planting tool 28 can be planted in a proper posture.

  When the seedling is supplied to the planting tool 28, that is, when the planting tool 28 is in the vicinity of the top dead center of the trajectory 17 where the planting tool 28 operates, the swinging drive cam 54 swings at a position where the swinging drive cam 54 is in contact with the rotating roller 57. The swing drive cam 54 comes into contact with the rotation roller 57 so that the change in the diameter of the dynamic drive cam 54 is small, and when the seedling is planted, that is, when the planting tool 28 is near the bottom dead center. The shape of the swing drive cam 54 and the direction in which the swing drive cam 54 is fixed to the swing cam drive shaft 62 are set so that the change in the diameter of the swing drive cam 54 at a certain position increases.

  By configuring the shape of the swing drive cam 54 and the direction fixed to the swing cam drive shaft 62 in this way, the moving speed of the tip of the planting tool 28 is supplied more than when the seedling is planted. Time can be extremely slow.

  In addition, at the top dead center and the bottom dead center, the crank arm 55 and the connecting arm 56 are positioned so as to overlap in a straight line in the vertical direction, and are parallel to the front swing arm 50 and the rear swing arm 51. . Therefore, the crank when the seedling is supplied to the planting tool 28, that is, when the planting tool 28 is near the top dead center, and when the seedling is planted, that is, when the planting tool 28 is near the bottom dead center. The direction of the crank arm 55 is set so that the change in the vertical position of the connecting arm 56 due to the rotation of the arm 55 becomes small. With this configuration, at the time of planting operation, the tip of the planting tool 28 is operated so as to draw a loop-like locus 17, and the moving speed of the planting tool 28 near the top dead center (position where the seedling is supplied) is increased. The moving speed at the bottom dead center (the position where the seedling is planted) is made slower than the moving speed.

  Further, the trajectory 17 drawn by the tip of the planting tool 28 has a maximum front-rear width when planting, that is, the front-rear width is maximum below the center of the vertical movement width of the planting tool 28. It is trying to become.

  Further, a parallel link mechanism composed of the upper arm 52 and the lower arm 53 of the planting device 19 is operated by one crank arm 55. Since it is driven by the uniaxial crank arm 55, it is possible to suppress planting problems due to backlash of the transmission system.

  The link mechanism is moved back and forth by the swing drive cam 54. Since the swing drive cam 54 is used, the front-rear width of the locus 17 drawn by the tip of the planting tool 28 can be freely set.

  Further, since the swing drive cam 54 is configured to rotate around the swing cam drive shaft 62 that is a fulcrum of the front swing arm 50, the configuration is simple and the planting device 19 can be downsized. it can.

  Further, the rotation roller 57 that contacts the swing drive cam 54 is positioned closer to the upper rear shaft 60 than the center position in the longitudinal direction of the rear swing arm 51, that is, the swing cam that is a fulcrum of the front swing arm 50. Since it is arranged at a position close to the drive shaft 62, the distance from the fulcrum of the swing drive cam 54 can be shortened, and the swing drive cam 54 can be made smaller. Since the swing drive cam 54 can be made small, the planting device 19 can be downsized.

  Further, since the locus 17 which is a static locus drawn by the tip of the planting tool 28 has a circular shape in the vicinity of the bottom dead center, the movement locus in consideration of the traveling of the transplanter 10 is linear in the vicinity of the bottom dead center. The trajectory goes up and down, and transplanted objects such as seedlings can be planted neatly. Furthermore, it is desirable to adjust the locus 17 drawn by the tip of the planting tool 28 so as to be circular within the range of the planting depth. By making a circular static locus in a range where the planting tool 28 enters the soil, the planting hole can be made small.

  Further, the locus 17 drawn by the tip of the planting tool 28 has a shape in which the front-rear width becomes smaller above the planting depth, so that the amount of movement to the front side when the planting tool 28 ascends can be increased. The tip of the attachment 28 can be prevented from catching planted seedlings.

  Further, since a pulling force is given to the rear swing arm 51 by the tension spring, the planting tool 28 is moved by its own weight when the planting tool 28 is lowered toward the planting position. It can prevent that 28 falls rapidly and the operating speed of the planting tool 28 on the locus | trajectory 17 becomes inadequate. Further, the pulling force by the tension spring assists the planting tool 28 to rise from the bottom dead center against the dead weight of the planting tool 28, so that the planting tool 28 can be operated stably. .

  Further, the crank arm 55 is reversed with respect to the loop-shaped locus 17 on which the planting tool 28 operates by rotating the crank arm 55 in the direction C, which moves upward on the front side and moves downward on the rear side. Therefore, the moving speed of the planting tool 28 in the vicinity of the top dead center of the locus 17 can be easily reduced. By reducing the moving speed of the planting tool 28 in the vicinity of the top dead center, the seedling can be supplied to the planting tool 28 more reliably.

  Near the bottom dead center, the front swing arm 50 and the rear swing arm 51 operate from the front to the rear, whereas the first connecting shaft 66 at the tip of the crank arm 55 is directed from the rear to the front. Rotate. Since the front swing arm 50, the rear swing arm 51, and the crank arm 55 are operated to face each other, the vertical movement speed of the planting tool 28 can be increased. The change in the movement locus of the tip of the planting tool 28 in the soil in consideration of traveling is small.

  In addition, since the crank arm 55 and the connecting arm 56 are in a straight line in the vertical direction or a direction close to the vertical direction near the bottom dead center, the vertical movement by the crank arm 55 and the vertical movement by the inclination of the connecting arm 56 are the same. The ascending speed of the planting tool 28 can be increased.

  Further, by making the front swing arm 50 and the rear swing arm 51 parallel to the crank arm 55 and the connecting arm 56 in the vicinity of the bottom dead center, the front swing arm 50 and the rear swing arm 51 The vertical movement is reduced, and the vertical movement by the crank arm 55 and the connecting arm 56 can raise the planting tool 28 faster.

Next, the opening / closing mechanism and operation of the planting device 39 for opening and closing the planting tool 28 will be described.
A counter arm 79 for opening and closing the planting tool 28 is rotatably provided on a rotating upper shaft 73 provided at one end (rear end) of the upper arm 52. An open / close arm 76 is rotatably provided on an upper shaft 64 provided at the other end (front end) of the upper arm 52, and the open / close arm 76 and the counter arm 79 are connected by a connecting rod 78. The counter arm 79 is provided with a pin 80. In addition, it is good also as a structure which can adjust the rod length of the connection rod 78 with adjustment screws, such as a turnbuckle. In addition, an opening / closing drive cam 75 that rotates while being fixed to the swing cam drive shaft 62 is provided together with the swing drive cam 54, and an opening / closing roller 77 that contacts the peripheral edge of the open / close drive cam 75 is rotated to the open / close arm 76. It is provided freely. As the swing cam drive shaft 62 rotates, the open / close drive cam 75 rotates to operate the open / close arm 76 via the open / close roller 77.

  Regarding the opening / closing operation of the planting tool 28, the counter arm 79 operates in parallel with the opening / closing arm 76 via the connecting rod 78, and the opening / closing arm 76 is operated by the opening / closing driving cam 75 via the opening / closing roller 77. Therefore, the opening / closing timing and the opening / closing amount can be set with high accuracy by the opening / closing driving cam 75 having a simple shape. The opening / closing drive cam 75 is an example of an opening / closing cam, and the opening / closing arm 76 is an example of an opening / closing member.

  The holder 71 provided in the planting tool 28 is composed of a left holder 71L and a right holder 71R, the left holder 71L is integrally fixed to the left member 70L, and the right holder 71R is integrally fixed to the right member 70R. The left holder 71L rotates around the left fulcrum shaft 125 in the front-rear direction, and the right holder 71R rotates around the right fulcrum shaft 126 in the front-rear direction. The left holder 71L and the right holder 71R are connected by a shaft 127 for use. In addition, an open / close rod 131 extending in the vertical direction is connected to a rotation operation arm 128 provided integrally with the left holder 71L, and a pin 80 of the counter arm 79 is connected to the open / close rod 131. An opening / closing spring 130 is provided between the left holder 71L and the right holder 71R, and the left member 70L and the right member 70R are pressed inward in the left-right direction by the spring force of the opening / closing spring 130, and planting is performed. The lower part of the tool 28 is closed. In addition, the opening / closing roller 77 and thus the opening / closing arm 76 are pressed against the opening / closing drive cam 75 side (upper side) by the spring force of the opening / closing spring 130.

  When the opening / closing drive cam 75 rotates with the rotation of the swing cam drive shaft 62, the opening / closing roller 77 moves according to the peripheral shape of the opening / closing drive cam 75, and the opening / closing arm 76 swings. As the opening / closing arm 76 swings, the connecting rod 78 operates in the front-rear direction, the counter arm 79 rotates, the opening / closing rod 131 operates in the up-down direction, and the left holder 71L is moved via the rotation operation arm 128. While rotating, the right holder 71R is rotated via the interlocking shaft 127, and the left holder 71L and the right holder 71R are turned against each other to the left and right symmetrical positions to open and close the lower portion of the planting tool 28. Specifically, the open / close rod 131 is actuated upward in accordance with the forward actuation of the connecting rod 78 to open the lower part of the planting tool 28. When the planting tool 28 is raised, the lower portion of the planting tool 28 is temporarily largely opened by a local protrusion on the outer periphery of the opening / closing drive cam 75, and a separate scraper for cleaning is provided. It is set as the structure which can pass the inside up and down.

  As a result, the lower part of the planting tool 28 is closed in the process of descending from the vicinity of the top dead center of the locus 17, the lower part of the planting tool 28 is opened at the bottom dead center, and the process of ascending from the bottom dead center. The lower part of the attachment 28 will be in the open state.

The opening / closing drive cam 75 may be fixed to a crank arm drive shaft 69 that drives the crank arm 55 and rotated integrally with the crank arm 55.
In the present embodiment, since the open / close arm 76 is attached to the upper shaft 64 that is the connecting fulcrum shaft of the upper arm 52, the configuration is simple. Since the connecting rod 78 is parallel to the upper arm 52 and the lower arm 53 regardless of the lift position of the lift link mechanism 29, the opening amount of the planting tool 28 can be set with high accuracy by the opening / closing drive cam 75. In addition, since both the open / close arm 76 and the counter arm 79 are connected to the rotation fulcrum shaft of the upper arm 52, the connecting rod 78 is disposed along the upper arm 52, thereby forming a compact configuration. Further, since the opening / closing drive cam 75 is attached to the swing cam drive shaft 62 which is the pivot point of the front swing arm 50 together with the swing drive cam 54, the structure is simple.

  The absolute speed obtained by combining the vertical movement speed in the vertical direction and the longitudinal movement speed in the front-rear direction of the planting tool 91 is fast at the bottom dead center but very slow at the top dead center. In other words, the planting tool 91 moves relatively quickly near the bottom dead center, whereas the planting tool 91 moves slowly at the top dead center and is close to being stopped. That is, since the speed of the planting tool 91 is very slow in the vicinity of the top dead center where the seedling is supplied from the supply cup 33, the seedling can be reliably supplied from the supply cup 33. In addition, in the vicinity of the top dead center, the time for the longitudinal movement speed in the longitudinal direction to be 10 mm / s or less was 0.21 seconds, and it was confirmed that it was the time that the seedling could be reliably supplied from the supply cup 33. Thereby, the conventional intermittent planting mechanism can be made unnecessary.

  In addition, the movement trajectory taking into account the traveling of the aircraft is 50 cm between stocks, the front and back width 75 mm above the bottom dead center assuming the soil surface is 4.9 mm, and between 40 cm and 60 cm between stocks, 19.1 mm and It was 20.2 mm, and it was confirmed that planting holes were not so large in actual planting and could be planted without problems.

  Therefore, since the moving speed at the top dead center of the planting tool 91 can be reduced (stop time is increased), the transmission to the planting tool 91 is stopped at the top dead center as in the prior art, and the planting tool 91 is Even if an intermittent planting mechanism that operates intermittently is not provided, planting can be performed with an appropriate trajectory between various strains only by changing the transmission ratio to the planting tool 91.

  As described above, the transplanter 10 is configured to transmit from the prime mover 11 to the traveling propulsion body via the main transmission case 12 and to transmit to the planting device 19 from the main transmission case 12 via the planting transmission case 26. The planting transmission case 26 is arranged on the rear side of the main transmission case 12 and is formed by forming a recess 123 on the upper surface of the front side to cover the prime mover 11 and the upper part of the main transmission case 12. The rear portion 124 a is inserted into the concave portion 123.

  Therefore, since the rear part 124a of the machine body cover 124 can be inserted into the recess 123 of the planting transmission case 26 and positioned rearward, the front and rear length of the machine body can be shortened to make the machine body compact, and the machine body cover 124 can be configured. Thus, the structure of the airframe including the front lower portion of the planting transmission case 26 can be effectively covered, and the structure of the airframe can be accurately shielded from rain and the like, so that the durability of the airframe is improved.

  The planting device 19 includes a planting tool 28 and a lifting link mechanism 29 that lifts and lowers the planting tool 28, and the lifting link mechanism 29 is disposed on one side of the planting transmission case 26, 124 is formed with an extension portion 124b extending rearwardly of the recessed portion 123 of the planting transmission case 26 on the left and right sides of the planting transmission case 26, and the extension portion 124b is disposed above the lifting link mechanism 29. doing.

  Therefore, the extension of the body cover 124 can effectively cover the structure of the body including the lifting link mechanism 29, and can accurately block the structure of the body including the lifting link mechanism 29 from rain or the like. , Durability of the aircraft is improved. In addition, the operator can be prevented from touching the lift link mechanism 29 that operates, and safety is improved.

  Further, in the planting transmission case 26, a first shaft 95 in the left-right direction, a second shaft 100 in the left-right direction transmitted from the first shaft 95, and a left-right direction transmitted from the second shaft 100 are provided. A third shaft 103 and a fourth shaft 62 in the left-right direction transmitted from the third shaft 103 are provided, the second shaft 100 is disposed on the rear side and the upper side of the first shaft 95, and the rear of the second shaft 100 The third shaft 103 is disposed on the third shaft 103, the fourth shaft 62 is disposed above the third shaft 103, and the recess 123 is formed between the second shaft 100 and the fourth shaft 62 on the diagonally forward front side of the third shaft 103. doing.

  Therefore, the front lower part of the planting transmission case 26 can be positioned directly below the body cover 124 while arranging the fourth shaft 62 at a high position so as to be suitable for transmission to the planting device 19. 26 can be rationally formed in accordance with the position of the body cover 124, and the body structure including the front lower portion of the planting transmission case 26 can be effectively covered by the body cover 124.

  Further, the power is transmitted from the first shaft 95 to the second shaft 100 via the first endless body 98, and is transmitted from the second shaft 100 to the third shaft 103 via the driving gear 101 and the driven gear 102 that mesh with each other. The drive shaft 101 is configured to transmit from the third shaft 103 to the fourth shaft 62 via the second endless body 110, and a plurality of drive side gears 101 are provided with different numbers of teeth. A selection mechanism for selecting the side gear 101 is disposed on the rear side from the third shaft 103, and a planting clutch 112 for turning on and off the transmission to the planting device 19 is provided on the fourth shaft 62. The planting clutch operating mechanism 116 to be operated is arranged on the rear side from the fourth shaft 62.

  Therefore, since the selection mechanism 105 is disposed on the rear side from the third shaft 103 and the planting clutch operation mechanism 116 is disposed on the rear side from the fourth shaft 62, the selection mechanism 105 and the planting clutch operation mechanism 116 are the body. The selection mechanism 105 and the planting clutch operation mechanism 116 are arranged away from the cover 124 so that the machine body cover 124 does not interfere with the maintenance, and the maintenance of the selection mechanism 105 and the planting clutch operation mechanism 116 is easy. Become.

  In addition, a supply unit 31 is provided to supply transplant objects one by one to the planting device 19, and is transmitted to the planting device 19 from the left and right sides of the planting clutch 112 and the second endless body 110 of the fourth shaft 62. The fourth shaft 62 is configured to be transmitted to the supply unit 31 from the left and right other sides than the planting clutch 112 and the second endless body 110.

  Therefore, the transmission mechanism to the planting device 19 and the supply unit 31 can be distributed on the left and right of the planting clutch 112 and the second endless body 110 on the fourth shaft 62, and the transmission mechanism can be arranged rationally and compactly. Therefore, the transmission mechanism can be simplified and the body can be made compact.

  Further, a planting tool 28 for planting a transplant object, a first swinging link swinging in a predetermined direction, one end connected to the first swinging link, and the other end connected to the planting tool, A link mechanism 29 having a second swing link that swings in a predetermined direction, a first swing member 54 that operates the first swing link, and a second swing member that operates the second swing link. The first swinging member 54 and the second swinging member 55 are looped at the tip of the planting tool 28 by operating the first swinging link and the second swinging link. A locus 17 is drawn, and the speed of the tip of the planting tool 28 is configured to be slower at the position where the transplant object is supplied than at the position where the transplant object is planted.

  Therefore, the locus 17 of the loop is drawn at the tip of the planting tool 28, and the speed of the tip of the planting tool 28 is slower at the position where the transplant object is supplied than at the position where the transplant object is planted. Therefore, the transplant object can be reliably supplied to the planting tool 28 that repeatedly moves up and down.

Moreover, it is set as the structure where the front-back width of the locus | trajectory 17 becomes the maximum in the position below the center position of the width | variety which moves up and down at the front-end | tip of the planting tool 28.
Therefore, since the front-rear width of the static locus 17 is maximized at a position below the center position of the vertical movement width of the tip of the planting tool 28, the movement locus when the transplanter travels is a locus that rises and falls linearly. Thus, the transplant object can be planted neatly.

  There are two first swing links and two second swing links, and the first swing member 54 acts on one of the first swing links, and the second swing member 55. Acts on one of the second swing links.

  As a result, the first swing member 54 acts on one of the first swing links 50, so that the planting problem due to play in the transmission system is suppressed compared to when acting on the plurality of first swing links. be able to. Also, the transmission configuration is simplified. Similarly, since the second rocking member 55 acts on one second rocking link, it suppresses planting problems due to backlash of the transmission system, compared to when acting on a plurality of second rocking links. Can do. Also, the transmission configuration is simplified.

The first swing member 54 is driven by a drive shaft 62 that also serves as a pivot point of the other first swing link of the two first swing links.
As a result, the first swinging member 54 is driven by the drive shaft 62 that also serves as the rotation fulcrum shaft of the other first swinging link 51 of the two first swinging links. Can be miniaturized.

  Further, the first swinging member 54 driven by the drive shaft 60 is located on the rotation fulcrum shaft 60 of the one first swing link 51 rather than the center position of the one first swing link 50. Acts at close positions.

  As a result, the first swinging member 54 driven by the drive shaft 62 is closer to the rotation fulcrum shaft 60 of the first swing link 51 than the center position of the first swing link 51. Since it acts, the 1st rocking | fluctuation member 54 can be made small, and size reduction of a planting apparatus can be achieved.

  The first rocking member 54 is a plate-like cam 54 that acts on the first rocking link 51 by a peripheral portion, and the second rocking member 55 is connected to the second rocking member 56 via a connecting arm 56. A change in the diameter of the cam 54 when the tip of the planting tool 28 is located at a position where the transplant object is supplied is a crank 55 connected to the swing link 53. Is smaller than the change in the diameter of the cam 54 when it is present at a position where the transplant object is to be implanted, and the tip of the planting tool 28 is present at a position where the transplant object is supplied and the transplant object In the case where it is present at a position where an object is to be planted, the crank 55 is oriented vertically or nearly vertically.

  As a result, the first rocking member 54 is a plate-like cam 54 that acts on the first rocking link 51 by the peripheral edge, and the tip of the planting tool 28 exists at a position where the transplant object is supplied. Since the change in the diameter of the cam 54 is smaller than the change in the diameter of the cam 54 when the tip of the planting tool 28 exists at a position where the transplant object is to be implanted, the transplant object is transplanted more than at the position where the transplant object is implanted. The speed at the position where the object is supplied can be reduced. Therefore, the transplant object can be more reliably supplied to the planting tool 28.

  In addition, when the tip of the planting tool 28 exists at or near the planting position for planting the transplant object, the crank 55 and the connecting arm 56 overlap in a straight line, and the crank 55 and the first rocker are overlapped. The moving links 51 are parallel to each other.

  As a result, when the tip of the planting tool 28 is present at the position where the transplant object is to be planted, the crank 55 and the connecting arm 56 overlap in a straight line. The movements match and the planting tool 28 can move faster. Further, when the tip of the planting tool 28 exists at a position for planting a transplant object, the crank 55 and the first swing link 51 are parallel to each other, and therefore the vertical swing of the first swing link 51 is reduced. The planting tool 28 can be moved faster by the vertical movement by the crank 55 and the connecting arm 56.

  Also, an opening / closing member 76 that moves together with the first swing link 51 and the second swing link 53 to open and close the planting tool 28, and the first swing member 54 or the second swing member 55. And an opening / closing cam 75 that operates the opening / closing member 76.

  As a result, the planting tool 28 is realized with a simple configuration because it is configured to include the opening / closing cam 75 that is driven integrally with the first swinging member 54 or the second swinging member 55 and operates the opening / closing member 76. it can.

  In the present embodiment, the front swing arm 50 and the rear swing arm 51 are operated by cams (swing drive cam 54), and the upper arm 52 and the lower arm 53 are operated by a crank (crank arm 55). However, it is also possible to employ a configuration in which an upper arm and a lower arm that mainly swing up and down are operated by a cam, and a front swing arm and a rear swing arm that mainly swing back and forth are operated by a crank. In this case, the upper arm and the lower arm are attached to the planting device drive case 27, the connection support plate 68 is provided at the tip of the upper arm and the lower arm, and the front swing arm and the rear swing arm are connected to the connection support plate 68. The upper arm and the lower arm that swing in the vertical direction mainly correspond to an example of the two first swing links that swing in a predetermined direction. The front swing arm and the rear swing arm that swing in the direction correspond to an example of two second swing links that swing in another predetermined direction. The upper arm corresponds to an example of one first swing link, and the front swing arm corresponds to an example of one second swing link. The swing cam drive shaft is an example of the drive shaft.

  The planting apparatus according to the present invention can reliably supply a transplant object to a planting tool that repeatedly moves up and down, and therefore can be applied to a transplanter equipped with a planting apparatus for planting a transplant object such as a seed pod or a seedling. High industrial applicability.

  10: transplanter, 11: prime mover, 12: main transmission case, 19: planting device endless belt, 26: planting transmission case, 123: recess, 124: body cover, 124a: rear part of body cover

Claims (4)

Transmission from the prime mover (11) to the traveling propulsion body via the main transmission case (12) and transmission from the main transmission case (12) to the planting device (19) via the planting transmission case (26) In this transplanter, the planting transmission case (26) is arranged on the rear side of the main transmission case (12), and a recess (123) is formed on the front upper surface, and the motor (11) and The rear part (124a) of the airframe cover (124) covering the upper part of the main transmission case (12) is inserted into the recess (123), and the planting transmission case (26) has a first shaft in the left-right direction ( 95), a second axis (100) in the left-right direction transmitted from the first axis (95), a third axis (103) in the left-right direction transmitted from the second axis (100), and the first A left and right fourth axis (62) transmitted from the three axes (103) is provided. The shaft (95) is transmitted to the second shaft (100) through the first endless body (98), and is engaged with the second shaft (100) via the drive side gear (101) and the driven side gear (102). To the third shaft (103), and from the third shaft (103) to the fourth shaft (62) via the second endless body (110), the number of teeth is varied and the drive side gear is configured. A plurality of (101) is provided, and a selection mechanism for selecting the driving side gear (101) to be transmitted among the plurality of driving side gears (101) is arranged on the rear side from the third shaft (103), and the planting device (19 ) Is provided on the fourth shaft (62), and a planting clutch operating mechanism (116) for operating the planting clutch (112) is provided on the fourth shaft (62). A transplanter placed on the rear side .   The planting device (19) includes a planting tool (28) and a lifting link mechanism (29) that lifts and lowers the planting tool (28), and the lifting link mechanism (29) is planted in a planting transmission case (26). The left and right sides of the planting transmission case (26) are extended on the left and right sides of the planting transmission case (26) on the left and right sides of the planting transmission case (26) and further on the rear side than the recess (123). The transplanter according to claim 1, wherein (124b) is formed, and the extension (124b) is arranged above the lifting link mechanism (29). The second shaft (100) is arranged on the rear side and the upper side of the first shaft (95), the third shaft (103) is arranged behind the second shaft (100), and the upper side of the third shaft (103). fourth shaft (62) is arranged, obliquely upper front side of the third axis (103) between the second axis (100) and the fourth axis (62), claim to form a recess (123) 1 or The transplanter according to claim 2 . A supply part (31) for supplying transplant objects one by one to the planting device (19) is provided, and one side on the left and right sides of the planting clutch (112) and the second endless body (110) of the fourth shaft (62) To the planting device (19), and the fourth shaft (62) planting clutch (112) and the second endless body (110) are transmitted from the left and right sides to the supply unit (31). The transplanter according to any one of claims 1 to 3 .

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