KR101570718B1 - Seedling transplanter - Google Patents

Abstract

[PROBLEMS] The present invention aims to improve the workability and the accuracy of the food part.
[MEANS FOR SOLVING PROBLEMS] A seedling feeding device (6) is provided for feeding a seedling transported at a feeding position (A) by a seedling carrying section to a package, and the seedling carrying section An upper transverse conveying section 5a for conveying the seedlings in the left and right transverse direction, a descending conveying section for conveying the seedling to the lower feeding position A following the upper transverse conveying section 5a, And an upward conveying section for conveying the seedling to the conveying start end side of the upper transverse conveying section 5a which is located on the outer side in the left and right direction of the upper transverse conveying section 5a and is disposed biased to the left and right sides, The food unit 6 is constructed such that a seedling of the food feeding position A is sandwiched by a pair of left and right seedling-type food boring zones and is operated in a predetermined locus to feed the seedlings into the package, and a liquid- 124) And a liquid agent discharge port for discharging the liquid agent to the packaging near the seedling-type cutting edge or the seedling-type cutting edge is formed only in the seedling-type cutting edge of the side on which the right and left seedling- We make seedling transplant.

Description

SEEDLING TRANSPLANTER

The present invention relates to seedling transplanting machines for grafting vine-shaped seedlings such as sweet potato seedlings.

A seedling carrying section comprising a traveling apparatus having left and right front wheels and left and right rear wheels and a seedling carrying belt for carrying a seedling, and a seedling feeding section for feeding the seedling, which is transported to the feeding position by the seedling carrying section, And the seedling carrying section is provided with an upper transverse carrying section for carrying seedlings in the left and right transverse direction, a descending transport section for transporting the seedlings to the lower portion feeding position following the upper transverse transport section, And a pair of left and right seedling-feeding-end narrowing portions sandwiching a seedling at a feeding position on the rear side of the seedling-feeding portion are extended forward and backward along a long predetermined trajectory And the seedlings are fed to the package, and the water, which is an example of a liquid agent, is discharged to the packaging near the seedlings A liquid agent tank for storing a liquid agent (water) is provided at a position on the outer side (right side) in the left and right direction of the seedlings transfer section and a supply pipe for transferring the liquid agent from the liquid tank to the liquid agent discharge port. A seedling transplanting plant which is installed by passing through a part is known.

In this seedling transplanting machine, a seedling rack is arranged on the front side of the seedling carrying section. Further, the seedling-returning section is disposed biased to one side (left side) on the left side and the other side (left side), which is the transporting end side of the upper side transporter with reference to the left-right center (food portion position, food portion supply position) of the base. In addition, the liquid material discharge port is formed only in the seedlings of the seedlings at the opposite side to the side where the right and left seedlings carrying portion are biased. The seedling-type cutting bore is constituted by a pipe shaft portion constituted by a pipe and a plate-shaped grasping portion gripping a seedling formed at the tip of the shaft portion, and constitutes a liquid ejection opening extending from the hollow portion of the pipe shaft portion to the side direction (see Patent Document 1 Reference).

Japanese Patent Application Laid-Open No. 2005-341833

An object of the present invention is to improve the workability and the accuracy of the food part.

The present invention takes the following technical measures to solve the above problems.

That is, the invention according to claim 1 is characterized in that: the traveling apparatus (4), the seedling transporting section (5) for transporting the seedlings, and the seedlings transported by the seedling transporting section (5) And the seedling type feeder device 6 is provided with a seedling feeder platform 31 for holding a seedling of the feeding position A at the rear side of the seedling carrying unit 5, And a liquid agent discharge port 129 for discharging the liquid agent is provided in the package and the liquid agent discharge port 129 is connected to the seedling part narrowing section 31 together with the soil- The timing at which the liquid agent is discharged from the liquid agent discharge port 129 is the timing at which the liquid agent discharge port 129 is discharged only when it is in the soil and the timing at which the liquid agent discharge port 129 rushes into the soil And the soil has not been pushed into the soil. Is a seedling transplant machine that is adjustable in timing.

The invention according to claim 2 is characterized in that the seedling-carrying section (5) has an upper transverse carrying section (5a) for carrying a seedlings in the lateral direction and a lower feeding section (A) And an ascending conveyance unit (5b) for conveying the seedling to the conveying start side of the upper transverse conveying unit 5a, which is located on the upper side in the left-right direction of the base body following the lowering conveying unit 5b The liquid tank 124 is disposed biased to one side of the right and left sides of the upper transverse conveying section 5a which is on the conveying front end side and is biased to the left and right sides of the seedling conveying section 5, The liquid agent discharge port 129 is configured to discharge the liquid agent into the package in the vicinity of the seedling-type cutting zone narrowing zone 31 or the seedling-type cutting zone narrowing zone 31, In claim 1 of the present invention, The seedlings are to be transferred.

The invention according to claim 3 is characterized in that the seedling-type cutting zone 31 is constituted by a shaft portion 31a constituted by a pipe and a grasping portion 31b for grasping a seedling formed at the tip end of the shaft portion 31a, And the hollow portion of the shaft portion 31a is exposed toward the left and right outer sides of the grip portion 31b to form the liquid material discharge port 129. In this case, The seedling transplanting machine described in 2 above shall be used.

[Effects of the Invention]

According to the invention of claim 1, when it is difficult for the liquid discharge port 129 to be clogged with the packing soil due to the conditions of the packing material and the working speed, the liquid discharge is discharged only when the liquid discharge port 129 is in the soil, It is possible to supply the liquid material certainly near the seedlings. On the other hand, when the liquid agent ejection port 129 is likely to be clogged with soil such as packing, the liquid agent ejection port 129 is not protruded into the soil by ejecting the liquid agent through the state in which the liquid agent ejection port 129 is not protruding into the soil It is possible to prevent the liquid agent discharge port 129 from being clogged.

According to the invention of claim 2, in addition to the effect of the invention according to claim 1, the seedlings transfer part (5) and the liquid tank (124) can be arranged on the left and right sides of the base, The flow path of the liquid agent in the liquid agent discharge port 129 from the liquid tank 124 that is shifted to the left and right sides can be made comparatively smooth and the liquid agent can be smoothly discharged and supplied to the packaging.

According to the invention according to claim 3, in addition to the effects of the invention according to claim 1 or claim 2, since the liquid agent discharge port (129) can be formed by using the pipe-shaped hollow part of the shaft part, the liquid agent can be smoothly discharged , The seedling-type cutting zone 31 having the liquid material discharge port 129 can be manufactured at low cost, and the cost can be reduced. Further, since the liquid agent ejection port 129 is directed to the outside in the left and right direction, it is possible to prevent the seedling sandwiched between the shaft portion where the liquid ejecting opening 129 is formed and the step of the grip portion from being caught,

1 is a side view of a seedling transplanting machine.
2 is a plan view of the sensor.
3 is a plan view of the seedling transplanting machine.
4 is a front view showing the front wheel rolling mechanism in an easy-to-understand manner.
Fig. 5 is a side view showing the elevating mechanism of the wedge-guiding wheel in an easy-to-understand manner.
6 is a partial cross-sectional plan view showing a food-borne transmission case, a seedling-type attachment, and the like.
7 is a partially omitted side view showing a food-borne transmission case, a seedling-type attachment, and the like.
Fig. 8 is a plan view showing the seedling implanting part.
Fig. 9 is a cross-sectional side view showing the seedling implanting part. Fig.
10 is a plan view showing the mounting configuration of the seedling-type cutting edge.
Fig. 11 is an enlarged view showing a guide for preventing misalignment of a seedling-implanted part.
Fig. 12 is a side view showing the locus of the bending pattern and the locus of motion (A: maximum bending interval at the maximum, B: minimum bending interval at the bending interval)
Fig. 13 is a side view showing the trajectory and trajectory of the planting of the comb (A: maximum allowable discarding interval, B: minimum discarding interval)
Fig. 14 is a side view showing a supple wheel and a suppressing wheel. Fig.
15 is a rear view of the fixed hook;
Fig. 16 is a plan view showing the complementary wheel and the reaction wheel.
FIG. 17 is a partial cross-sectional rear view showing the complementary wheel; FIG.
18 is a rear view showing the seedling-returning section.
Fig. 19 is a plan view showing the seedling-type cutting zone on the left side. Fig.
Fig. 20 is a side view showing the seedling-type cutting zone on the left side.

One embodiment of the present invention will be described below. It should be noted that the following embodiments are merely one embodiment and do not limit the scope of the claims.

A seedling transplanting machine (1) for transplanting sweet potato seedlings comprises a seedling transferring section (5) for transferring sweet potato seedlings to a base provided with a traveling device (4) and a steering wheel handle (2) And a seedling feeding device 6 for feeding the seedling seedling to the packaging. The traveling device 4 includes an engine 3, a pair of right and left rear wheels 7 driven and rotated by the power of the engine 3, and left and right rear wheels 7, And a pair of front wheels 8 are provided.

A transmission case 9 is disposed on the rear portion of the engine 3. The transmission case 9 has a case portion extending from the left side portion thereof to the left side room of the engine 3, It is connected. And the output shaft of the engine 3 is inserted into the case portion so that the power is transmitted to the transmission mechanism in the transmission case 9. [ The transmission case 10 is rotatably mounted on the left and right sides of the transmission case 9 and the front end of the wheel drive shaft extended and projected from the transmission case 9 to the left and right outer side rooms at the rotation center of the transmission case 10 And transmits driving power to the transmission mechanism in the transmission case 10. [ The driving force is transmitted through the transmission mechanism in the transmission case 10 to the rear side of the base body, protrudes to the inner side of the rear end thereof, and is transmitted to the axle 11 to drive the rear wheel 7 to rotate.

An arm 12 extending upward is integrally mounted to the mounting portion of the left and right transmission case 10 to the transmission case 9. The left and right arms 12 and the elevating and lowering fixed to the transmission case 9 The left and right side portions of the balance rod 14 mounted on the front end of the piston rod of the hydraulic cylinder 13 for pivoting around the vertical axis are connected through a connecting portion. The connecting portion on the right side is composed of a rod, and the connecting portion on the left side is composed of a hydraulic cylinder 16 for controlling the left and right horizontal control.

When the lifting hydraulic cylinder 13 is operated and the piston rod protrudes to the rear of the base body, the left and right arms 12 rotate backward, and the transmission case 10 rotates downward to raise the base body. On the other hand, when the piston rod of the lifting hydraulic cylinder 13 enters the front of the gas, the left and right arms 12 rotate forward, and the transmission case 10 rotates upward and the base body descends. The elevating hydraulic cylinder 13 is configured to operate the gas so as to have a set height with respect to the height of the trough upper surface on the basis of the detection result of the sensor 17 detecting the height of the trough upper surface with respect to the base. And the gas is raised or lowered by an artificial operation of the food-part lifting lever 18 disposed in the vicinity of the food-lifting lever 18. In addition, the eating-and-care elevator lever 18 can perform the on-off operation of the seedling-type feeding device 6 and the seedling-carrying unit 5 drive. A main clutch lever 19 is provided on the side of the eating-and-dining lifting lever 18 so as to enable the traveling device 4 to be turned on and off by operating the main clutch in the transmission case 9. [

The sensor 17 has a plate-shaped main grounding portion 17a having a large left-right width and a grounding portion 17b having a small width in the left and right direction extending from the main grounding portion 17a to the rear side, And the main grounding portion 17a and the sub-grounding portion 17b rotate integrally up and down to detect the height of the packaging surface. The main ground portion 17a is disposed on the front side of the seedling carrying portion 5 and the sub grounding portion 17b is disposed on the right and left central positions of the main grounding portion 17a and on the right and left sides And is disposed at a lower position of the ascending / descending part 5c of the seedling-carrying part 5 when viewed from the base side.

When the left and right horizontal control hydraulic cylinders 16 are expanded and contracted, the left transmission case 10 is vertically rotated to vertically move the left rear wheel 7 so that the base is inclined leftward and rightward. The left and right hydraulic cylinders 16 for horizontal control are configured to operate the gas horizontally on the basis of the detection results of the pendulum type left and right tilt sensors for detecting the right and left tilt of the gas with respect to the left and right horizontal.

The left and right front wheels 8 are provided at the left and right central positions below the engine 3 and at the lower ends of the arm portions 21 extending downward to the left and right sides of the front wheel supporting frame 20, And is rotatably mounted on a front axle 22 fixed to the front axle 22. Therefore, the left and right front wheels 8 are capable of rolling around the central axis in the longitudinal direction of the left and right center of the base. By inserting the rolling regulating opening 60, which is a regulating fin that can restrict the rolling rotation of the front wheel supporting frame 20, into the frame portion on the gas-side and the hole formed in the front wheel supporting frame 20, It can be fixed in a state in which there is no difference between the left and right heights on the basis of the reference, and it is possible to improve the follow-up property and straightness in a package having an inclination or a step on the left and right. The rolling regulating opening 60 is inserted only in the spare hole on the side of the front wheel supporting frame 20 when the normal front wheel supporting frame 20 is rolled.

On the front side of the front wheel supporting frame 20, a rear wheel supporting shaft 62 extending in the left-right direction from the front wheel supporting frame 20 through the interliner supporting plate 61 is rotatably supported. And the right and left guide wheel 64 are supported via left and right guide support frames 63 extending forward from the guide support shaft 62. [ The guide wheel 64 is an idler wheel, and is a well-known structure for guiding the vehicle in contact with the side surface of the vehicle in order to run the vehicle along the ridges. An interlocking cable (65) is connected between the piston rod of the elevating hydraulic cylinder (13) and the interlocking guide support shaft (62). The piston rod and the interlocking cable 65 are connected to each other through a flexible mechanism such as a compression flexible spring 166 to prevent breakage of the interlocking cable 65 due to a mechanical lock or the like. As the piston rod of the elevating hydraulic cylinder 13 moves to the rear side when lowering the left and right rear wheels 7 when the gas is turned, etc., the interlocking cable 65 is interlocked and pulled And the guide support shaft 62 are rotated, and the left and right guide and support frames 63 are aligned with each other, so that the right and left guide wheel 64 are raised with respect to the base.

The steering wheel 2 is mounted on the rear end of the handle frame 23 to which the front end is fixed to the mission case 9. The handle frame 23 is disposed at a position biased to the right from the right and left center of the base and extends rearward, and further extends upward from the front and rear intermediate portions in an inclined manner. The steering wheel 2 extends rearward to the left and right from the rear end of the handle frame 23 and the rear end portions thereof serve as grip portions 2a and 2a of the steering handle 2. [ The left and right grip portions 2a and 2a of the steering wheel 2 are set at appropriate heights so that the operator can grip the grip portions 2a and 2a easily by hand. In the illustrated example, the grip portions 2a and 2a are divided into right and left portions. However, left and right rear end portions of the steering handle 2 may be connected to each other on the right and left sides, and the connecting portion may be a grip portion.

The seedling type feeding device 6 is constituted of a seedling feeding part having a seedling feeding end opening 31 and a mechanism for opening and closing it, and a link mechanism R for operating the seedling feeding part. The driving unit for driving the link mechanism R of the seedling type feeding apparatus 6 is provided in the feeding power transmission case 32 in which the transmission mechanism for receiving the driving force for driving the link mechanism R from the transmission case 9 is received, have. The food-borne transmission case 32 has a first case portion 32a whose front portion is connected to the rear portion of the transmission case 9 and extends upwardly from the rear portion thereof and an upper left portion And a third case portion 32c fixed to a left end portion of the second case portion 32b and inclining rearward and extending downward.

And is transmitted into the first case portion 32a by the forward and backward input shaft 67 to which the power from the transmission case 9 is transmitted. The transmission mechanism in the first case portion 32a will be described by referring to a transmission mechanism that is transmitted from the input shaft 67 via the pair of bevel gears 68 to the first shaft 70 in the left and right direction, The first drive sprocket 71, the first chain 72 and the first driven sprocket 73 to rotate from the second shaft 69 to the second drive sprocket 74, (Third shaft) 77 that is turned into a transmission shaft through a first chain 81, second chain 75 and second driven sprocket 76, as shown in Fig. The food part clutch 78 is a well-known structure that is a stationary stationary clutch that cuts off the electric power in a predetermined phase, and stops the seedling type excavating device 6 at a predetermined phase (position) before sandwiching seedlings drawn therefrom. When the food-portion clutch 78 is in a powered state, the food-portion clutch 78 and the food-portion clutch shaft 77 rotate integrally. On the other hand, from the second shaft 69, the timing drawing cam 181 is driven to rotate through the aeration interval shifting mechanism 80 having a plurality of sets (three sets) of constant speed gear pairs having different transmission ratios and the timing drawing cam 181 The timing drawing arm 182 is brought into contact with the timing drawing arm 182 so that the regulation of the food portion clutch 78 by the timing drawing arm 182 to the non-moving position is released, 78 are in the electric state and rotate once. When the food part clutch 78 is rotated once, it is regulated by the timing drawing arm 182 to be in a non-electric state. The aeration interval shifting mechanism 80 alternatively selects one of a plurality of sets (three sets) of constant velocity gear pairs by the slide key 183 for the aeration interval shifting and drives the timing draw cam 181). Thus, the timing for switching the timing for withdrawal cam 181 is switched by switching the speed ratio gears of the other speed ratio gears to select the pair of constant speed gears, and the timing for switching the food portion clutch 78 to the powering state is switched.

The food-portion clutch shaft 77 extends from the inside of the first case portion 32a to the inside of the third case portion 32c through the second case portion 32b. The transmission mechanism in the third case portion 32c will be described with reference to the transmission mechanism of the third shaft portion 32c via the fourth clutch shaft 77 via the pair of equal speed transmission gears 84 or the pair of eccentric gears, 86). The electric switching mechanism 87 that alternately switches the electric gear to the pair of constant-velocity electric transmission gears 84 or the pair of the semi-constant-velocity electric transmission gears 85 is provided on the fourth shaft 86 with a pair of constant- And a switching clutch provided between the gear 84 and the pair of the semi-constant velocity transmission gears 85. [ Therefore, the motor-operated switching mechanism 87 is configured to switch to the constant velocity motorized state in which the electric power is transmitted at the constant speed in the electric power path to the seedling type device 6, and to the partially different speed electric motorized state. Then, the electric power is transmitted from the fourth shaft 86 to the food drive shaft (fifth shaft) 91 through the third drive sprocket 88, the third chain 89 and the third driven sprocket 90, 91 are driven by the driving arm 34 of the link mechanism R of the seedling type feeding device 6 to drive the seedling type feeding device 6.

The third case portion 32c is provided so as to be vertically rotatable about an eating-part clutch shaft 77 which is an input shaft of the third case portion 32c. The seedling-type seed device 6 and the seedling- (5) is provided so as to be vertically rotatable together with the third case part (32c) on the basis of the traveling device (4).

The support frame 38 fixed to the third case part 32c and extending rearward is provided and the link mechanism R of the seedling type device 6 is rotated by the electric power from within the third case part 32c A supporting link portion 36 connected to the front end portion of the driving arm 34 and a swing link 37 connecting the rear end portion of the supporting link portion 36 and the supporting frame 38 . The driving arm 34 rotates to the right when viewed from the left side of the base. The planting support portion supported by the support link portion 36 operates and the seedlings planting support 31 located at the tip end portion (rear end) of the seedling planting portion penetrates into the soil from above and moves downward in the soil, To move to the rear side and to move backward so as to pass near the locus from the upper side of the locus moved to the rear side and to move upward and to exit from the soil, and a long trajectory (T) . The trajectory T is a motion locus (static trajectory) drawn by the seedling grooved narrowing zone 31 with respect to the base body and is a distance The motion locus is the trajectory (T ').

The seedling implant moving integrally with the support link portion 36 includes a pair of sphere holder 41 connected to the connection shaft 40 supported by the support link portion 36, And a bearing 42b provided on the side opposite to the seedling-type-part narrowing-plane 31 of the narrow-band holder 41. The pair of seedling- . The projecting portion 43a formed on the side surface of the opening and closing cam 43 comes into contact with the bearing 42b to widen the distance between the pair of seedling grooved corners 31. [ That is, the pair of narrow-gage holders 41 are rotated around the connecting shaft 40 to widen the interval between the pair of seedling-type-portion narrowing corners 31. Therefore, the pair of seedling-type narrowing zones 31 sandwich the seedlings by the opening and closing cams 43 and release the sandwiching thereof. A tension spring 44 is provided between the pair of narrow-gap holders 41. The pair of seedling-portion narrowing legs 31 are biased by the tension spring 44 in the direction of approaching each other have. In addition, dimples are formed on the opposite surfaces of the seedling-type cutting zone 31 to make it easier to hold the seedlings.

The opening and closing cam 43 is fixed to the front end side of the driving arm 34 and rotates integrally with the driving arm 34. [ Therefore, when the opening / closing cam 43 rotates, the projecting portion 43a of the opening / closing cam 43 comes into contact with the bearing 42b in the vicinity of the bottom dead center of the locus T (trajectory T ' The bearing 42b moves past the protruding portion 43a at the timing when the seedling-type-part interference zone 31 reaches the food-feeding position A, Is biased by the tension spring 44 between the pair of narrow-gage holders 41 and moves in the direction in which the tip end portion is closed so that the sweet potato seedling vine at the lower end portion of the sweet potato seedling vine Since the seedlings are oriented in the anteroposterior direction, the end portions thereof are sandwiched. The seedling feeding end narrowing zone 31 is formed in such a manner that the seedling trajectory T (the trajectory T 'of the food portion) is determined by the rotation of the driving arm 34 while the seedling is sandwiched by the seedling- The projections 43a of the cams 43 are moved back to the bearings 42b again in the vicinity of the bottom dead center, while the seedlings are planted in the soil to the vicinity of the bottom dead center, So that the tip ends of the pair of seedling-type cutting zones 31 are opened, and the sandwiched seedlings that have been sandwiched therebetween are placed in the soil.

In addition, by changing the mounting phase of the opening / closing cam 43 in the driving arm 34, the timing at which the seedling-type abutting section 31 opens the holding of the seedling can be changed. Accordingly, the length of inserting the seedling veneer 31 into the soil can be appropriately adjusted while checking the state of the food portion, thereby improving the accuracy of the food portion. By changing the mounting phase of the opening and closing cam 43, the timing at which the seedling-type cutting edge narrowing zone 31 sandwiches the seedling is changed, but the timing at which the seedling-feeding position A does not interfere with the seedling-feeding position A is set. It is also possible to switch the opening / closing cam 43 or the protruding portion 43a to switch the timing so that the timing at which the seedling-type cutting edge narrowing zone 31 sandwiches the seedling is not changed and the seedling-type cutting edge narrowing- But only the timing may be changed.

In addition, the seedling transfer unit 5, which will be described later, supplies the sweet potato seedlings to the food feeding position A in the forward and backward orientation, so that the seedling feeding unit 6 feeds the sweet potato seedlings into the soil in the forward and backward directions Transplanting the vines of sweet potato seedlings into the inclined posture with respect to the soil surface. The seedling-type seedling unit 6 operates on the trajectory T extending rearward and downward, so that the seedlings are fed in a cheerful state toward the front side. As described above, when the forward inclination of the seedling posture is made large and the planting is performed, many roots of seedlings are easily elongated and the number of sweet potatoes grown is increased, and when sweet potatoes such as processing are grown, Is useful for growing a large number of sweet potatoes.

The trajectory T of the food portion [the trajectory (T ')] The pair of seedling-type cooking zones 31, which are opened near the bottom dead center and released some nipples, are inclined toward the forward side However, during the movement, it is operated while changing the posture inclined posture to the side that becomes the vertical posture by changing to move to the front side, and moves up and moves out of the soil. Therefore, the seedling-type cutting zone 31 is able to appropriately perform the seedling without appropriately enlarging the food hole of the pavement because the locus of entry into the soil and the locus of exit from the soil are close to each other.

The trajectory T (the trajectory T ') shown in the illustrated example is obtained when the transmission to the seedling type device 6 is switched to the constant speed transmission state by the electric switching mechanism 87. The drive arm 34 rotates at a nonuniform speed and the speed on the locus T at the time of movement to the rear side facing the bottom dead center position in the soil is slightly increased, And the insertion length into the soil becomes longer.

A circle mark on the locus T (locus T ') shown in the example shows a position where the rotational phase of the drive arm 34 is 15 degrees in the filtered position. Although the illustrated example shows the case where the discarding interval is set to the minimum and the case where the discarding interval is set to the maximum, regardless of the change in the discarding interval, the trajectory T having the same locus is the same, This is the trajectory (T '). As can be seen from the example shown in the drawing, the operating speed of the tip end of the seedling cutter bore 31 at the time of bending is smaller than that in the case of moving to the front side past the bottom dead center position. Movement speeds up when moving. This makes it possible to increase the amount of movement of the soil in the rearward direction toward the bottom dead center position, and thus to bend the soil.

When the connection point of the swing link 37 to the support frame 38 is switched to the rear lower position, the locus T (locus of trajectory T ') tends to slightly increase (the vertical width becomes larger, The width of the front and rear of the vehicle becomes smaller). Although the number of sweet potatoes after cultivation is smaller than that of warping, the size of each sweet potato is increased, and thus it is suitable for the cultivation of ordinary edible sweet potatoes.

At the rear of the seedling type vegetation device 6, there is provided a covering wheel 92 made up of a pair of left and right covering pieces. This supporting wheel frame 92 is an idler wheel and grounded on the soil surface so as to suppress the soil on the left and right sides of the seedlings, Lt; / RTI > The seedling-type device 6 that rotates around the food-portion clutch shaft 77 that is the input shaft of the third case portion 32c of the eating-and-feeding transmission case 32 by grounding of the left and right pair of complementary wheels 92, And the seedling transferring section 5 are supported, and the seedling planting device 6 and the seedling transferring section 5 are rocked following the unevenness of the packaging surface to be held at a predetermined height with respect to the packaging surface. A stabilizing spring 93 for stabilizing up and down rocking of the seedling-type seedling unit 6 and seedling-carrying unit 5 is provided between the support frame 38 and the handle frame 23, (6) and a seedling transferring section (5). In addition, the seedling-type seedling machine 6 and the seedling-carrying unit 5 may be fixed so as not to swing up and down. Therefore, since the weight of the seedling-type seedling unit 6 and the seedling-returning unit 5 acts on the covering wheel 92, a sufficient suppressing action can be obtained by the covering wheel 92. [ In addition, the covering wheel supporting frame 94 is a tubular frame extending in the vertical direction. Inside the covering wheel supporting frame 94, there are provided a rotation shaft 95 for upward and downward adjustment on the upper side where a male screw is formed on the outer circumferential surface, The rear wheel mounting frame 96 is provided. Although the upper part of the trunk wheel mounting frame 96 can be slid up and down on the trunk support frame 94, it is configured not to rotate due to the constitution of each axis (angular axis), and the lower part is branched into two left and right strands , And right and left covering wheels (92) are rotatably mounted on the left and right two branched portions of the branch. The upper and lower adjustment rotary shafts 95 are transmitted through the height adjustment bevel gear 98 to the rotary shafts 95, do. Therefore, when the vertical adjustment rotary shaft 95 is rotated by the operation of the clogging-hole height adjustment operating member 97, the clinging wheel mounting frame 96 is vertically moved to adjust the height of the clinging wheel 92. A scale and a display label 99 are provided on the upper part of the covering wheel mounting frame 96 as a reference of the height position of the covering wheel 92. The clogging-hole-height adjusting operation tool 97 extends to the right and left sides of the manipulation handle 2, that is, to the rear of the right-climbing inclination. The operation grips 97a Are disposed between the left and right grip portions 2a of the steering wheel 2 in the lower or lower portion of the steering wheel 2 when seen in the plane of the vehicle. Since the soil loom 92 is disposed above the trajectory T of the seedling of the seedling type plant 6 so that the positional relationship between the soil loom 92 and the planting seedlings is close to each other, So that the suppressing effect can be satisfactorily obtained.

There is provided a suppressing wheel 100 composed of a suppressing means for suppressing the upper soil of a certain type of soil which has been dwindled and left between the left and right covering wheels 92. The suppressing wheel 100 is smaller in diameter than the restoring wheel 92 and housed in the left and right retaining wheels 92 when viewed from the side of the base in a downwardly retracted state, As shown in Fig. The control wheel 100 is provided on a pushing frame 101 which vertically rotates about a point shaft 101a provided on the support frame 38 and is provided with a cam roller 103 arranged on the front side of the point shaft 101a The cam follower 103 is brought into contact with the cam follower 102 from below so that the cam follower 102 rotates integrally with the drive arm 34 and is driven to move to the lower side by driving the cam 102 The diameter of the cam 102 for contact with the cam roller 103 is changed and the cam 102 moves up and down. Therefore, the self-weight of the counter-pressure wheel 100 and the pressure-extinguishing frame 101 acts on the packing as a gentle pressure. It is possible to suppress the soil just above the seedlings immediately after the seedling planted by the suppressing wheel 100. [ In addition, the seedlings on the ground are corrected upward by the action of the suppressing wheel 100 to suppress the occurrence of obstacles due to the heat of the multi-films in contact with the multi-films attached to the packaging surface. The pushing frame 101 is provided with a stretchable and contractible portion 101b that extends and retracts forward and backward by a double frame structure and adjusts the forward and backward positions of the pendulous wheel 100 by expansion and contraction by the stretchable and contractible portion 101b . The stretching and shrink adjusting portion 101b is provided with a scale label for a pressure regulating wheel and a display label 104 for a pressure wheel, which is a reference of the front and rear positions of the pressure wheel 100. [ In addition, the support frame 38 is provided with a fixing hook 105, which is a fixture for fixing at the same position without vertically moving the suppressing frame 101. The fixed hook 105 is vertically rotatable around an axis 105a in the front-rear direction. When the actuating wheel 100 is operated, the fixed hook 105 is inclined upward to the upper right side, The pushing frame 101 is arranged at a position away from the up-and-down rotating region of the pushing frame 101 on the right side so that the pushing frame 101 can be pivoted up and down. On the other hand, when the control wheel 100 is not operated, the fixed hook 105 is pivoted downward, and the cam roller 103 is pressed against the pushing cam 102 which rotates by engaging the pushing frame 101 with the fixed hook 105, And the blocking wheel 100 is fixed at a position spaced upward from the ground.

The scraper support plate 106 is fixed to the lower side of the support frame 38 and the lower end of the scraper arm 107 which rotates about the scraper rotation axis 107a provided on the scraper support plate 106 A scraper 108 composed of a rubber-made plate, which is an elastic body, is provided. The scraper 108 is provided with a cut portion formed from the front side at two left and right sides, and the right and left cutting blades 31 are inserted into the left and right cutting portions, Remove the soil attached to both sides. A biasing device 109, which is a tensile spring, is provided between an upper portion of the scraper arm 107 which is above the scraper pivotal axis 107a and a scraper support plate 106 which is at the rearward position thereof. And the scraper 108 is biased forward by the device 109. [ On the other hand, the swing link 37 is provided with a roller 110 for operating the scraper, and the seedling-type cutting edge 31 penetrates into the soil and the bottom dead point position of the trajectory T (trajectory T ' The scraper operation roller 110 is brought into contact with the lower portion of the scraper arm 107 from the front side to move the lower portion of the scraper arm 107 to the rear side so that the scraper 108 is forcibly moved to the trajectory T ) (The trajectory T '). The scraper operation roller 110 moves forward and moves away from the lower portion of the scraper arm 107 in the process of the outgoing and return movement in which the seedling type cutting zone 31 is removed from the soil and moved forward, 109, the lower portion of the scraper arm 107 moves forward and moves the scraper 108 on the trajectory T toward the front side. This allows the scraper 108 to forcibly retreat away from the trajectory T when the seedling-type cutting zone 31 feeds the seedlings in the soil, And the biasing device 109 is configured to bias the scraper 108 toward the side (front side) on which the seedling type cutting zone 31 is moved out.

The seedling-type seedling unit 6 includes a pair of seedling-feeding-end narrowing zones 31 for holding a seedling-like seedling, and a pair of seedling- And a pair of narrow-gage holders 41 for opening and closing the pair of seedling-type narrowing zones 31. In addition, the seedling-type cutting zone 31 and the narrow-zone holder 41 are joined at the longitudinal joining surface V. The longitudinally joined surface V is a substantially vertical surface parallel to the locus T (locus of trajectory T ') of the seedling edging zone 31. With the above-described configuration, it is possible to easily adjust the up-and-down mounting angle and the depth of the food portion of the seedling- Of the two bolt holes formed in the joint base portion of the seedling type feedthrough zone 31, a hole near the tip end of the seedling type feedthrough zone 31 is referred to as a long hole. With this configuration, the adjustment value of the claw portion at the tip of the seedling type feedthrough zone 31 can be increased.

The joining base portion of the seedling-type joining portion 31 has an L-shaped structure, and one side of the L-shaped structure, which is located above the narrow-gap holder 41 and perpendicular to the longitudinal joining face V, A position adjusting bolt 151 is provided for adjusting the position of the seedling-type cutting zone 31 along the joint surface V. With this configuration, it is easy to finely adjust the mounting angle and the depth of the food portion of the seedling-type attachment portion 31. Although the position adjusting bolt 151 is provided above the narrow-gap holder 41, the position adjusting bolt 151 may be provided below or at the side of the narrow-gap holder 41.

The seedling-type sewing section 31 is attached to the longitudinal joining surface V on the inner side of the two girder holders 41 and the sanding-pressure adjusting member 154 such as a shim is fitted therebetween. So that the clamping pressure can be adjusted by the seedling cutting zone 31. With the above-described configuration, the entire seedling transplanting section can be made compact, and the clamping pressure can be finely adjusted. Although the shim is used as the grip pressure adjusting member 154 in the above description, a spacer having a constant thickness may be used.

Two spring mounting pins 155 for receiving the tension springs 44 are provided above the narrow gap holder 41 and a tension spring 44 is applied to the opposing narrow gap holder 41, . The position adjusting bolt 151 is installed at a position away from the two spring mounting pins 155 in plan view. The position adjusting bolt 151 is provided at the center of the two spring mounting pins 155. The position adjusting bolt 151 may be provided on the side closer to the tip end of the seedling- It is also possible.

The narrow-band holder 41 is composed of a coupling base portion 41a with the seedling-type cutting edge 31 and a stay portion 41b. The stay portion 41b is welded to the coupling base portion 41a at one end thereof. The connecting base portion 41a and the left and right joint portions F of the stay portion 41b corresponding to the left and right seedling-type bore regions 31 are shifted from each other in the vertical direction. The connecting shaft 40 serving as an opening and closing operating point of the narrow-gauge holder 41 is located at a substantially central portion in the lengthwise direction of the stay portion 41b and rotates about the connecting shaft 40 about a pair of narrow- Possibly combined. A grease-sealed bearing 42b is provided at the other end of the stay portion 41b and the outer periphery of the bearing 42b comes into contact with the opening and closing cam 43 so that the projecting portion 43a of the opening and closing cam 43 The intervals between the bearings 42b are enlarged to increase the spacing of the seedling-type grooves 31. As described above, by displacing the joint portions F in the vertical direction, the stay portion 41b can be vertically overlapped in the connection shaft 40 portion. That is, by making the narrow-gap holder 41 a simpler structure, cost reduction and the like can be realized.

The connecting shaft 40 is fixed by a connecting shaft supporter 152 coupled to the supporting link portion 36. The supporting link portion 36 constitutes a link mechanism R, Thereby generating a seedling action. The support link portion 36 is provided with a position deviation prevention guide 153 for restricting the vertical movement of the narrow holder 41 at a position adjacent to the connection shaft supporter 152. The stay portion 41b of the narrow-gap holder 41 is fitted at a position displaced from each other in the vertical direction, thereby restricting the operation of the stay portion 41b in the vertical direction. Further, the stays 41b are arranged so as to have upper and lower gaps. With the above-described structure, it is possible to prevent the positional deviation of the seedling-type-portion narrowing zone 31 coupled to the distal end of the narrow-gap holder 41. In addition, the positional displacement prevention guide 153 is provided with a reinforcing plate 156 and a detachable structure for securing the maintenance property. Further, a metal bush 157 fitted to the two stay portions is provided between the connecting shaft 40 fixed to the connecting shaft supporter 152 and the stay portion 41b.

The seedling-carrying section 5 is provided with a plurality of seedling receptors 26 in the seedling-carrying direction C, which serve as seedling-receiving sections for housing the sweet potato seedlings in the posture direction of the vines, A lower transporter 5b for transporting the seedlings 26 carried by the upper transporter 5a to the lower side of the substrate, an upper transporter 5b for transporting the seedlings from the upper side to the right, And an ascending transport section (5c) for transporting the seedling seedlings (26) transported by the descending transport section (5b) above the substrate and returning to the transport start end side of the upper transverse transport section (5a) So that the seedling receptacle 26 is transported along a single loop transport path. The upper transverse carrying section 5a is configured to protrude to the left of the left front wheel 8 and the rear wheel 7, and the left end is the outermost left end of the base. A tension roller 111 for bending the seedling carrying belt inward in the left and right direction is provided at the middle portion of the ascending carry section 5c so that the ascending carry section 5c interferes with the left rear wheel 7 . The rear end of the upper transverse carrying section 5a is disposed at a position rearward of the left front wheel 8 and the rear wheel 7. Therefore, the worker feeds the seedlings to the upper transverse carrying section 5a from the rear side of the left rear wheel 7 and the upper transverse carrying section 5a. The conveying path is inclined such that the upper transverse conveying section 5a is located on the rear side when viewed from the side and is located at a position near the operator on the rear side of the seedling conveying section 5, So that the worker can easily carry out the seedling supplying work to the seedling receptacle 26 of the upper side transporter 5a. The seedling feeder device 6 feeds the seedling of the seedling receiver 26 transported to the food feeding position A at the lowermost position of the transporting trajectory of the seedling returning unit 5 by the descending returning unit 5b So that it is allowed to eat. A dropping prevention plate 45 for guiding a seedling into the seedling receptacle 26 is supported by the support member 46 at the upper portion of the dropping conveyance unit 5b so as not to drop the seedlings.

A seedling regulating rod 112 in the left and right direction is provided above the upper side transporter 5a. Therefore, by simply placing a climbing vine on the upper side of the seedling regulating rod 112 in the upper transverse conveying section 5a by the operator, the bent side of the seedling vine becomes the lower side and the lower side of the vine bending to the same side as the bending of the vine So that the seedlings can be supplied to the seedling receptor 26 in a desired state to be described later.

The rear end of the surface (outer circumferential surface) of the seedling seedling receptacle 26 is provided with a clip 49 which is a seedling holding port for holding and holding the rear end of the seedling. The clip 49 is constituted by a pair of left and right grippers projecting upward from the receiving portion 47 of the seedling carrying belt. In addition, the pair of left and right gripper members are made of a sponge-like resin having elasticity on the one hand and brushes having flexibility on the other hand, so that the vines of the holding seedling are not damaged. The worker presses the seedlings downward and the seedlings are held and fixed by a pair of left and right clamping bodies.

The seedling conveyor belt is wound around the driving rollers 113 provided on the upper right side, the first driven rollers 114 provided on the lower side and the second driven roller 115 provided on the upper left side, (113). The seedling conveying belts between the first driven rollers 114 on the left and right convey the seedlings in a substantially horizontal direction in a slightly left and right direction and feed the seedlings to the feeding position A ) Is set. On the other hand, at the back side (inner circumferential surface) of the seedling conveying belt and behind the center in the width direction (forward and backward direction) of the seedling plant conveying belt, (116). The grooves 117 are formed at the positions of the first driven roller 114 and the second driven roller 115 corresponding to the guide grooves 116. By engaging the guide grooves 116 and the grooves 117, The positional deviation of the belt in the longitudinal direction is prevented. In the above description, the guide member 116 is used as a guide, but the guide member 116 may be a groove, and the first driven roller 114 and the second driven roller 115 may be provided with protrusions engaging with the above- Maybe.

And the upper end of the interlocking rod 66 to which the lower end is connected to the swing link 37 is connected to the one-way clutch provided on the drive shaft portion of the front and rear drive rollers 113. [ Therefore, when the swing link 37 is pivoted by the operation of the seedling type feed device 6, the interlocking rod 66 is reciprocated upward and downward, and the front and rear drive rollers 113 are moved in the seedling direction And is intermittently driven to operate the conveyance belt. The intermittent driving of the seedling conveyor belt is stopped when the seedling-type cutting zone 31 of the seedling-type seedling unit 6 holds the seedling, and is driven at other times. Therefore, when the seedling-type-part narrowing zone 31 of the seedling-type seedling unit 6 sinks and descends with seedlings and feeds the seedlings into the soil, the seedling-receiving member 26 is stopped and the seedlings are smoothly taken out from the seedling- Can be cooked in the package.

A seedling rack 82 is provided from the first case portion 32a of the food borne transmission case 32 through the seedling rack supporting frame 81 on the front side of the seedling returning section 5. [ And the operator puts the seedlings on the seedling rack 82 on the upper transverse transporting section 5a of the seedling returning section 5 Supply. The rear end portion of the seedling bearing stand 82 is arranged close to the front end portion of the upper transverse carrying portion 5a to facilitate the supply of the seedling to the upper transverse carrying portion 5a.

A basin-shaped pre seed accommodating portion 118 for accommodating a pre-seedling is provided on the left side of the upper transverse conveying portion 5a. The pre seedling accommodating portion 118 is supported by the front and rear pre seedling accommodating portion support frames 119 which can be pivoted about the central axis of the second driven roller 115. When the pre seedling accommodating portion support frame 119 is pivoted to the inside (right side) in the left and right direction of the base body and the pre seedling accommodating portion 118 is moved to the accommodating position located above the upper transverse carrying portion 5a, can do. The pre seedling accommodating portion 118 is pivoted to the right to exceed the dead point, and the support seedling accommodating portion support frame 119 is held in the storage position by the stopper 120 for storage provided on the base. The seedling transferring section 5 can be driven without interfering with the seedling transferring belt or the clips 49 of the seedling transferring section 5 even in this storage position.

A shift lever 83 which is an operation lever capable of switching the transmission mechanism in the transmission case 9 so as to perform the step-variable shifting of the traveling speed of the traveling device 4 is extended from the position of the transmission case 9 to the rear side . The shift lever 83 passes through a space surrounded by the upper transverse conveying section 5a, the descending conveying section 5b and the ascending conveying section 5c of the seedling conveying section 5 from the traveling device 4, As shown in Fig. That is, the shift lever 83 passes through a predetermined loop-shaped transport path of the seedlings transporting section 5. The grip portion 83a of the shift lever 83 protrudes toward the rear side of the seedling transferring portion 5 but the shift lever 83 which supports the shift lever 83 and which is a lever supporting member Is disposed in a space surrounded by the upper transverse conveying section 5a, the lower conveying section 5b, and the ascending conveying section 5c. Therefore, the shift lever 83 and the shift lever guide 121 are disposed as far as possible on the front side while maintaining the operability of the shift lever 83. The shift lever guide 121 is supported from the third case portion 32c of the eating and feeding transmission case 32 and rotates together with the seedling transferring portion 5 and the seedling- 77). A stretchable portion that is stretchable in the lever axial direction is provided at the front end portion of the shift lever 83 (forward of the seedlot transporting portion 5 and immediately rearward of the mission case 9) The up-and-down movement of the shift lever 83 is permitted to prevent the instruction portion on the side of the shift lever guide 121 and the shift lever 83 from being far apart.

The left and right lean levers 122, which are operation levers for forcibly operating the hydraulic cylinders 16 for left and right horizontal control, are switched from the portion of the mission case 9 to the rear side by switching the hydraulic valves for rolling provided in the portion of the mission case 9 And is extended. The left and right tilting levers 122 extend from the traveling device 4 to a space enclosed by the upper transverse conveying section 5a, the descending conveying section 5b and the ascending conveying section 5c of the seedling conveying section 5 . The grip portion 122a and the left and right tilting lever guides 123 of the left and right tilting levers 122 are disposed in a space surrounded by the upper transverse conveying portion 5a, the lowering conveying portion 5b, and the ascending conveying portion 5c . Therefore, the left and right tilting levers 122 are arranged as far as possible on the front side. Further, since the operation frequency of the left and right tilt levers 122 is lower than that of the shift lever 83, the operability is not hindered even if the left and right tilt levers 122 are disposed in the space. The left and right tilt levers 122 are temporarily operated in the left and right directions and return to the neutral position when they are released and do not extend or contract like the shift lever 83 because there is no indication portion such as the shift lever 83 .

In the meantime, a liquid tank (water tank) 124 for storing water made of a liquid agent is disposed at a position on the outer side (right side) of the seedlings transporting section 5 from the front side and in the left and right direction. Further, the liquid tank 124 is disposed at a position on the right side of the seedling tray 82. The food part clutch shaft 77 protrudes to the right side of the first case part 32a of the eating and delivering case 32. The pump driving flange 125 is mounted on the food part clutch shaft 77, (Plunger pump) 126 for transferring water to a position deviating from the center of rotation of the pump cylinder 125 is connected to the tip of the pump cylinder rod 127 constituting the pump (plunger pump) 126. In addition, the cylinder portion of the pump is connected to the gas. Water is supplied from the liquid tank 124 to the pump 126 via the supply pipe 128 and the pump drive flange 125 is rotated by driving the food part clutch shaft 77, And the rod 127 reciprocates to sequentially deliver the water in the cylinder. The pump 126 is mounted on the food-piece clutch shaft 77 which is the uppermost power transmission shaft of the seedling transporter 1 in the food-borne transmission case 32 so that the pump 126 is placed at a high position So that it is possible to smoothly transfer the water to the liquid discharge port 129, which will be described later, and to easily discharge the water remaining in the supply pipe 128 at the end of the operation. The pump drive flange 125 has a base flange portion 125a that rotates integrally with the food clutch shaft 77 and a flange portion 125b of the adjustment flange portion 125b that is mounted on the base flange portion 125a by a mounting bolt. And a mounting bolt is inserted into a slot provided in the adjustment flange portion 125b. The pump cylinder rod 127 is connected to the connecting portion provided in the adjusting flange portion 125b and the adjusting flange portion 125b is moved (rotated) along the slot with respect to the base flange portion 125a, (Operation phase) of the reciprocating motion of the seedling type device 6 is changed so that the watering timing (phase) with respect to the operating phase of the seedling type device 6 is changed and adjusted.

As a standard, the irrigation timing is set so that the rotation angle of the drive arm 34 is about 90 degrees until it reaches the bottom dead center after rid of the seedling- The timing at which water is discharged from the tank 129 is obtained. The timing of the irrigation can be adjusted steplessly by the rotation of the adjusting flange portion. When the timing of the irrigation water is delayed the most, the seedling cutter 31 is removed from the soil, and the scraper 108 is moved to the seedling cutter (31). ≪ / RTI > On the other hand, when the watering timing is made the fastest, the seedlings are started after the seedlings are sandwiched at the food feeding position (A) and before entering the soil. Therefore, the liquid agent discharge port 129 for discharging the liquid agent into the package is formed along with the seedling type feedthrough zone 31 and the timing for discharging the liquid agent from the liquid agent discharge port 129 is defined as the liquid agent discharge port 129 And the timing at which the liquid ejection openings 129 are ejected into a state in which the liquid ejection openings 129 are not protruding into the soil and a state in which the liquid ejection openings 129 are not protruding into the dirt.

It should be noted that the seedling-type cutting zone 31 is composed of a shaft portion 31a which is a mounting side to the narrow-band holder 41 and a plate-like gripper 31b which is a seedling formed at the tip of the shaft portion. And the grip portion 31b is fixed to the inner end of the shaft portion 31a in the lateral direction. The shaft portion 31a is formed of a pipe in the left seedling type bore region 31 and the end of the pipe hollow portion of the shaft portion 31a on the grip portion 31b side is exposed to the left and right outside of the grip portion 31b And constitutes a liquid ejection opening 129 for ejecting water to the exposed portion. Therefore, since the water is discharged from the outside of the seedling-type cutting zone 31 (the side opposite to the seedlings), it is possible to prevent the influence on the food part caused by splashing water on the seedling-eating seedlings, thereby improving the accuracy of the food part. The shaft portion 31a of the seedling-type branching bore 31 on the left side is curved toward the upper right side with the end on the narrow-gauge holder 41 side inclined, and a feed pipe (Not shown). Therefore, the liquid agent can be supplied (irrigation water) near the seedlings which are fed by the liquid agent discharge port 129. In other words, the end portion of the shaft portion 31a is inclined toward the side of the other (right) seedling portion narrowing region 31 so as to suppress the interference with the position adjusting bolt 151 on the left side, . The liquid agent discharge port 129 is formed only in the left seedling-type bore region 31 and the liquid agent discharge port 129 is not formed in the seedling-type branching bore 31 on the right side.

Therefore, the seedlings transporting section 5 is disposed biased to one side (left side) on the right and left sides of the transporting end side of the upper transverse transport section 5a. However, the liquidcontainer 124 for storing the liquid is placed in contact with the seedling transporting section 5 And the liquid agent discharge port 129 for discharging the liquid agent to the package near the seedling-type food boring zone 31 or the seedling-type food boring zone 31 is disposed to be biased to the seedling returning unit 5 (The left side).

The driving resistance of the pump 126 is transmitted to the eating-part clutch shaft 77 so that the operation of the seedling-type feeding device 6 is prevented from being preceded by the self weight, inertia or the like. Even when the pump 126 is disconnected from the gas when the water is not supplied, the braking device that transmits the braking force to the food-portion clutch shaft 77 is mounted instead of the pump 126 so that the operation of the seedling- It is suppressed to precede this desired one. When the driving resistance of the pump 126 is small and the suppression of the preceding operation of the seedling type feeder 6 is insufficient, a supplementary spring for hanging the seedling type feedthrough 31 from above is provided, So that the preceding operation is supplementarily suppressed by the ozone. Further, a protective cover for covering the pump 126 is provided, and this protective cover can be mounted on the base body even in the state where the braking device is mounted instead of the pump 126, thereby improving the safety. Although the protective cover is provided with the table of the intervals of the food aeration intervals based on the setting of the running speed or the aeration interval shift, the chart can be checked when the pump 126 and the brake unit are mounted.

When the water is not temporarily dumped, water is circulated by a return pipe for returning the water sent out from the pump 126 to the liquid tank 124, . A switching valve is provided for switching the state of supplying water from the pump 126 to the supply pipe 128 to the liquid agent discharge port 129 and switching the supply state to the return pipe.

As described above, in the seedling transplanting machine 1, the gas is spontaneously driven by the traveling device 4 with the front wheel 8 and the rear wheel 7 on the left and right, A sweet potato seedling is supplied from a worker behind the left rear wheel 7 so as to walk the ridge portion of the ridge passing through the front wheel 8 and the rear wheel 7 on the left side to the upper transverse carrying portion 5a of the carry section 5 . The seedling-carrying unit 5 carries the supplied seedlings and feeds the seedlings that have been transported to the food feeding position A by the seedling-carrying unit 5 in the package. The seedling-carrying section 5 is provided with a plurality of seedling receivers 26 in the seedling-conveying direction C, and the sweet potato seedlings are housed in this seedling-receiving body 26 in a posture in which the vines are directed in the forward and backward directions. The worker feeds the seedlings to the seedling receptors 26 which are transported in the left and right directions from the upper side of the base by the upper transverse transporting section 5a. That is, the worker feeds the lower end of the seedling vine to the clip 49 to fix the seedling to the seedling receptor 26. The seedling seedlings 26 supplied with the seedlings are transported downward by the lower conveying section 5b to the lower conveying section 5a. The seedling seedlings 26 conveyed by the descending conveying portion 5b are conveyed upward by the elevating conveying portion 5c and returned to the conveying end side of the upper transverse conveying portion 5a. The seedling type feeding device 6 is configured such that the seedling feeding end narrowing portion 31 is moved up and down by the driving portion and transported to the feeding position A by the descending carrying portion 5b, And acts on the rear side of the seedling receptacle (26) at the end to feed the seedlings into the package. At this time, although the seedlings are sandwiched and fixed by the clips 49 of the seedling receptacle 26, the holding force of the seedling-type cutting edge narrowing portion 31 of the seedling-type seedling device 6 is smaller than the clamping force of the clips 49, Therefore, the seedlings are moved away from the clip 49 by moving the seedlings to the rear side along the trajectory T of the food part.

When the sweet potato seedlings are transplanted, a worker fixes and feeds the lower end portion of the seedling vine to the clips 49 of the seedling receptacle 26 in the upper transverse carrying section 5a of the seedling returning section 5, the seedlings are transported by the seedlings transporting section 5 so that the lower end of the vine t at the food feeding position A is directed upward and the seedling leaves The vine is directed upward. Then, a seedling is transplanted into the soil in the posture by the seedling-type feeding device 6. [ Therefore, since the conveying stroke of the seedlings 6 into the soil is simple, it is difficult for the vines to bend or twist, so that the accuracy of the transplantation is improved and the leaves are concentrated on the upper side with respect to the inclined vines Sweet potato seedlings can be transplanted. In addition, since the pair of vertically extending seedling-type-portion narrowing zones 31 sandwich the lower end of the upwardly bent vine while being inclined forward from the food-feeding position A, the direction of the seedling- It is possible to make the state close to the vertical direction with respect to the lower end direction of the bent vine and to ensure the stabilization and stabilization of the seedling even if the position of the seedling is slightly shifted from the feeding position A, So that a stable seedling can be transplanted.

Therefore, since the potato seedlings can be transplanted to the inclined vines with the leaves oriented intensively toward the upper side, the transplanted seedlings can protrude out of the soil to receive light such as sunlight, It is possible to do good growth and to be able to cultivate sweet potato. Since the direction of the blade relative to the central axis of the vine is determined by the bottom direction of the vine, which is particularly susceptible to bending, and is transplanted, this discrimination is facilitated and the work for supplying the seedling to the clip 49 can be easily performed, It is possible to improve the working efficiency of the seedling supplying work to the seedling receiving unit 26 of the seedling returning unit 26 and to operate the seedling returning unit 5 at a high speed in order to improve the efficiency of the grafting operation, Can be improved.

Claims (3)

A seedling transferring section 5 for transferring a seedling and a seedling transferring device 6 for feeding seedling transferred to the feeding position A by a seedling transferring section 5 into a package are installed And the seedling-type seedling unit 6 operates the seedling-feeding-portion narrowing zone 31 for holding a seedling at the feeding position A at a rear side of the seedling-carrying unit 5 in a predetermined trajectory T, And a liquid agent discharge port 129 for discharging the liquid agent is provided in the package, and the liquid agent discharge port 129 rushes into the soil together with the seedling part narrowing section 31 to discharge the liquid agent into the package The timing at which the liquid agent is discharged from the liquid agent discharge port 129 is determined to be the timing at which the liquid agent discharge port 129 is discharged only when the liquid agent discharge port 129 is present in the soil and the state in which the liquid agent discharge port 129 enters into the soil, It is adjustable at the timing of dispensing Seedling Transplanter configured. The method according to claim 1,
The seedling transferring section 5 is provided with an upper transverse transfer section 5a for transferring the seedlings in the left and right transverse direction and a lower transfer section 5a for transferring the seedlings to the lower feed position A following the upper transverse transfer section 5a And an ascending conveying section 5c for conveying the seedling to the conveying end side of the upper transverse conveying section 5a which is located on the upper side in the lateral direction of the base following the descending conveying section 5b, And the liquid agent dispensing port 129 is disposed so as to be biased toward the right and left sides which are the transfer start end side of the seedling transfer section 5a, It is possible to install only the liquid agent in the package near the narrowing zone 31 or the seedling-type narrowing zone 31 as well as only in the seedling-type food boring zone 31 on the side where the right and left seedlings carrying- A seedling transplant. 3. The method according to claim 1 or 2,
And a grasping portion 31b for grasping a seedling formed at the tip of the shaft portion 31a. The grip portion 31a is provided at the inner end side of the shaft portion 31a in the left- And the hollow portion of the shaft portion 31a is exposed toward the right and left sides of the grip portion 31b to constitute the liquid material discharge port 129. [

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