JP3589362B2 - Seeding equipment - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a sowing apparatus, and more particularly to a sowing apparatus suitable for sowing seedlings on a nursery tray.
[0002]
[Prior art]
A suction holding plate having a small hole for sucking and holding seeds is attached so as to close the upper opening of the suction box. The air inside the suction box is sucked to hold the inside at a negative pressure, and the suction holding is performed. While holding the seeds by the holes of the plate, and by shutting off the switch of the suction device and returning the air inside to the original pressure, the holding of the seeds held in the holes of the suction holding plate is released. An apparatus for performing sowing has been proposed.
[0003]
In such an apparatus, in order to hold seeds one by one in each of the small holes of the suction holding plate, a large number of seeds are scattered on the suction holding plate, and the suction box is tilted back and forth and left and right to remove the seeds. I try to move it. Then, in order to remove the excess seeds after the seeds are adsorbed in the small holes, the suction box is tilted with the suction box, and the operation of transferring the excess seeds to the tray is performed.
[0004]
[Problems to be solved by the invention]
According to such a conventional sowing apparatus, when holding various seeds of vegetables and flowers in the small holes of the suction holding plate, or when removing excess seeds, the suction holding plate is deformed and adsorbs on a flat surface. Operation was hindered. In addition, the operation has to be performed while holding the suction box with both hands, and the labor of the operator has been great. Further, there is a problem that a trouble of spilling the seeds when transferring excess seeds to the saucer is likely to occur.
[0005]
When sowing, the suction box is turned upside down and overlapped on a seedling raising tray. In this state, the suction blower is switched off to release the internal negative pressure. However, since the blower continues to rotate for a while due to inertia, it takes time until the negative pressure in the suction box is released, which causes a disadvantage that the cycle time of seeding is lengthened.
[0006]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a sowing apparatus which is excellent in operability and can be sowed quickly.
[0007]
[Means for Solving the Problems]
The present invention includes a base constituting a base, an arm is rotatably mounted on the base via a hinge mechanism, and the suction box is rotatably supported by a bearing of the arm. Suction is performed so that the pressure inside the suction box becomes a negative pressure, and a suction holding plate provided with small holes for holding seeds at substantially the same interval as the seeding interval is attached so as to cover the upper opening of the suction box, The present invention relates to a sowing apparatus in which a pocket for receiving excess seed is provided at one end of a suction box.
[0008]
Moreover, cylindrical shafts are provided at both ends in the length direction of the suction box, and these cylindrical shafts are detachably attached to the bearing of the arm, and one of the cylindrical shafts is connected to the suction device. At the same time, the other cylindrical shaft portion constitutes an air inlet for introducing air into the suction box.
[0009]
A mounting section for mounting a tray for raising seedlings may be provided on a base constituting the base.
[0010]
A suction box having a suction holding plate having different diameters and intervals of small holes according to the type of seed may be exchangeable, and may be exchanged according to the type of seed.
[0011]
The suction holding plate in which the small holes are formed may be made of a conductive material, and fine irregularities may be formed on the outer surface thereof.
[0012]
A one-way valve, which is closed when the suction device stops, may be attached to one of the cylindrical shafts.
[0013]
A pressure adjusting cap having a different opening size may be selectively attached to the other cylindrical shaft portion.
[0014]
[Action]
The rotation angle of the suction box is adjusted so that the suction holding plate is on the upper side, seeds are scattered on the suction holding plate, the inside of the suction box is set to a negative pressure by the suction device, and the seeds are set in the small holes of the suction holding plate. Hold by suction. After that, the suction box is turned upside down, and the negative pressure inside the suction device is released, whereby the holding of the seeds by the small holes of the suction holding plate is released, and sowing is performed.
[0015]
Moreover, cylindrical shafts are provided at both ends in the longitudinal direction of the suction box, and these cylindrical shafts are detachably attached to the bearings of the arm. With such a cylindrical shaft, the suction box is attached to the arm. It will be mounted rotatably. One of the cylindrical shafts is connected to the suction device, the inside of the suction box is maintained at a negative pressure, and air is introduced into the inside through the other cylindrical shaft, thereby adjusting the negative pressure. .
[0016]
When the nursery tray is mounted on the mounting part on the base, when the suction box is turned upside down and the negative pressure is released while covering the nursery tray, Each seeding is performed.
[0017]
By exchanging suction boxes having suction holding plates having different diameters and intervals of small holes according to the type of seed, it is possible to cope with seeding of various kinds of seeds.
[0018]
The suction holding plate, which is made of a conductive material and has fine irregularities formed on the outer surface thereof, prevents the generation of static electricity and allows seeding to be performed immediately upon release of the negative pressure.
[0019]
By attaching a one-way valve, which is closed when the suction device is stopped, to one of the cylindrical shafts, the suction operation due to the inertia of the suction device is shut off.
[0020]
Adjustment of the internal negative pressure is performed by selectively attaching a pressure adjusting cap having a different opening size to one of the cylindrical shaft portions.
[0021]
【Example】
FIG. 1 shows a substantially entire configuration of a seeding apparatus according to an embodiment of the present invention. The seeding apparatus includes a base 10 formed by combining and welding steel materials. The front end side of the base 10 is connected to each other by a pair of cross members 11, 12, and the cross member 11, 12 forms a mounting portion 13. A seedling raising tray to be described later is mounted on the mounting portion 13.
[0022]
Hinge retainers 16 are attached to the rear side of the base 10 and left and right portions thereof, respectively. A hinge mechanism 17 is attached to each of the hinge holders 16. That is, the lower mounting plate 18 of the hinge mechanism 17 is detachably held by the hinge holder 16.
[0023]
The upper mounting plate 19 of the hinge mechanism 17 is fixed to the connecting frame 24 of the arm 23. The arm 23 is rotatably attached to the rear end of the base 10 via the hinge mechanism 17. Bearing portions 25 each formed of a semicircular concave portion are formed at the distal ends of the left and right arms 23.
[0024]
The suction box 30 is rotatably supported by the bearing 25. As shown in FIGS. 2 and 3, the suction box 30 is a flat rectangular parallelepiped box, and has an opening on the upper surface side, and a suction holding plate 31 is attached to the opening in a hermetically sealed state. ing. The suction holding plate 31 has small holes 32 formed at predetermined intervals. The interval at which the small holes 32 are formed is substantially the same as the interval of seeding.
[0025]
A pocket 35 for receiving excess seeds is formed at one end of the suction box 30 (see FIG. 4). The pocket 35 is attached to an outer surface of a side plate at one end of the suction box 30 by an attachment plate 36. A presser plate 37 is integrally provided inside the pocket 35 so that the seeds can be smoothly discharged from the pocket 35 by the presser plate 37.
[0026]
Cylindrical shaft portions 41 and 42 are coaxially mounted at both ends of the suction box 30 in the longitudinal direction and at the center thereof. These cylindrical shaft portions 41 and 42 constitute a support shaft of the suction box 30, and are received by the bearing portion 25 formed of a semicircular concave portion on the distal end side of the arm 23. The suction box 30 is rotatably held at the tip of the arm 23.
[0027]
As shown in FIGS. 2 and 3, a connection tube 44 is connected to the tip of one cylindrical shaft portion 41. The connection tube 44 is connected to the suction blower 46 via the flexible tube 45.
[0028]
A one-way valve 49 shown in FIGS. 8 and 9 is incorporated in the cylindrical shaft portion 41 connected to the connection tube 44. At the mounting position of the one-way valve 49 of the cylindrical shaft portion 41, a mounting rib 50 is formed, and a mounting plate 51 is mounted on the mounting rib 50. A circular opening 52 is formed in the mounting plate 51, and a valve body 53 is provided so that the opening 52 can be opened and closed. The valve body 53 is rotatably supported by a pin 55 having an arm 54 mounted on the outer surface thereof supported on a mounting plate 51 via a bracket 57. A winding spring 56 is attached to the pin 55, and the valve spring 53 is urged by the winding spring 56 in a direction to close the opening 52.
[0029]
An adjusting cap 60 is detachably attached to the other cylindrical shaft portion 42. An adjusting port 61 is provided at the tip of the adjusting cap 60, and adjusts the amount of air introduced into the suction box 30 through the adjusting port 61, thereby adjusting the pressure of the internal suction box 30. To be able to do.
[0030]
Next, a description will be given of a seedling raising tray 65 in which seeding is performed by such a seeding apparatus. As shown in FIGS. 10 and 11, the tray 65 is a molded product formed of a synthetic resin, and its outer peripheral portion has a flange. The portion 66 is formed. A large number of recesses 67 are formed in a region surrounded by the flange 66, and seeding is performed in each of the recesses 67.
[0031]
Next, an operation of sowing by the sowing apparatus having such a configuration will be described. As shown in FIG. 2, the arm 23 is rotated upward about the hinge mechanism 17. The suction box 30 is held by the bearing 25 of the arm 23. Since the suction box 30 is exchangeable and provided with different suction holding plates 31 according to the type of seed to be sown, the suction box 30 including the suction holding plate 31 according to the type of seed is placed on the arm 23. Attach to
[0032]
The suction box 30 is rotated with respect to the bearing 25 of the arm 23 so that the suction holding plate 31 faces upward. Then, the suction blower 46 connected to the cylindrical shaft portion 41 via the connection tube 44 and the flexible tube 45 is driven, and the pressure inside the suction box 30 shown in FIG. At this time, since the amount of air introduced into the suction box 30 is adjusted by the size of the adjustment port 61 of the adjustment cap 60 attached to the other cylindrical shaft portion 42, the inside of the suction box 30 is adjusted. Is adjusted by the adjusting cap 60. That is, a plurality of adjustment caps 60 having different sizes of the adjustment ports 61 are prepared, and the adjustment caps 60 having the adjustment ports 61 of the optimum size are attached to the cylindrical shaft portion 42 in accordance with the type of seed to be sucked. Installing. Instead of such an adjusting cap 60, an air flow adjusting valve that is slidable in opening and closing and that can adjust the opening amount may be attached to the cylindrical shaft portion 42.
[0033]
In such a state, seeds 64 such as vegetables and flowers to be sown are scattered on the suction holding plate 31 above the suction box 30 as shown in FIG. At this time, a larger amount of seeds 64 than the number to be sown are sprayed on the suction holding plate 31. Then, the seed 64 located near the small hole 32 of the suction holding plate 31 is vacuum-sucked by the small hole 32, and is sucked and held by the small hole 32. At this time, the suction box 30 is rotated up and down by a small angle around the cylindrical shaft portions 41 and 42 so that the seeds 64 are sucked into all the small holes 32 respectively. Further, the suction box 30 is slightly inclined left and right by twisting the flexible arm 23 having low rigidity so that the right and left are different. If necessary, the vibration may be applied to the suction box 30 by tapping lightly. Thereby, the seeds 64 are suction-held in all the small holes 32, respectively.
[0034]
In such a state, as shown in FIG. 4, the suction box 30 is rotated around the cylindrical shaft portions 41 and 42 in a direction in which the pocket 35 is on the lower side. Then, the seeds 64 scattered on the suction holding plate 31 and not held by the small holes 32 are introduced into the pocket 35. As a result, only the seeds 64 sucked by the small holes 32 remain on the suction holding plate 31.
[0035]
In such a state, the suction box 30 is further rotated about the cylindrical shaft portions 41 and 42, and the suction box 30 is turned upside down as shown in FIGS. The arm 23 is rotated about the hinge mechanism 17 so that the seedling raising tray 65 and the suction box 30 which are previously mounted on the mounting portion 13 of the base 10 and have a predetermined amount of cultivated soil in the respective recesses 67 substantially overlap. Then, the upper side of the suction box 30 covers the upper surface of the seedling raising tray 65.
[0036]
Thereafter, the suction blower 46 is turned off to stop the blower 46. The bloaf 46 continues to rotate by inertia for a while. At this time, the valve body 53 of the one-way valve 49 incorporated in the cylindrical shaft portion 41 is caused by the elastic restoring force of the helical spring 56 as shown in FIGS. Then, the circular opening 52 of the mounting plate 51 is closed. Therefore, as soon as the blower 46 is turned off, the suction from the suction box 30 is stopped. Therefore, air is introduced into the suction box 30 through the adjustment port 61 of the adjustment cap 60 attached to the other cylindrical shaft portion 42, and the internal negative pressure is released. Therefore, the seeds 64 held in the small holes 32 of the suction holding plate 31 lose their suction power, and thus fall one by one into each concave portion 67 of the seedling raising tray 65.
[0037]
After the seeding is performed in this manner, the arm 23 is turned upward again as shown in FIG. 2, and the suction box 30 is turned again so that the pocket 35 is located upward as shown in FIG. . Then, the excess seeds 64 stored in the pocket 35 in advance are scattered to the suction holding plate 31 on the suction box 30 again. Therefore, the next seeding is performed by repeating the above operation again.
[0038]
As described above, in the seeding apparatus according to the present embodiment, the suction box 30 is detachable from the bearing 25 of the arm 23, and the suction holding plate 31 having the optimal small holes 32 according to the type of seed is provided. A plurality of suction boxes 30 are prepared, and the suction boxes 30 can be selected according to the type of seed. Therefore, optimal sowing can be easily performed according to the type of seed.
[0039]
The suction box 30 has its cylindrical shaft portions 41 and 42 rotatably supported by the bearing portion 25 of the arm 23, and the arm 23 can be rotated by the hinge mechanism 17. Therefore, it is possible to perform seeding by a combination of the rotation operation of the suction box 30 and the rotation movement of the arm 23. The seeds spread on the suction holding plate 31 while holding the suction box 30 by hand are stomached. 32 and introduction of surplus seeds into the saucer is no longer troublesome, and the work is greatly reduced.
[0040]
A pocket 35 is provided at one end of the suction box 30 for receiving an excess seed 64. The pocket 35 is scattered on the suction holding plate 31 by the pocket 35 and the excess seed 64 not sucked and held by the small holes 32. , It is not necessary to manually remove the excess seed 64 from the suction box 30. In addition, the seeds 64 that have been stored in the pocket 35 and that are the excess seeds 64 are scattered on the suction holding plate 31 of the suction box 30 again in the next cycle as shown in FIG. Will be very easy. As shown in FIG. 7, when the seed 64 is taken out from the pocket 35, the pressing plate 37 of the pocket 35 suppresses the momentum of the seed 64, and the seed 64 is smoothly guided onto the suction holding plate 31.
[0041]
The suction holding plate 31 having the small holes 32 for vacuum suction of the seeds 64 is made of a conductive material, for example, an aluminum plate, and has fine irregularities on its outer surface, which is in contact with the seeds 64. It is formed by embossing. Therefore, the seeds 64 do not adhere to the suction holding plate 31 due to charging, and the seeds 64 are surely sown with the release of the negative pressure. In order to prevent the suction holding plate 31 from being deformed by the suction force of the blower 46, 16 to 20 columns are arranged in the suction box 30 so as to increase the rigidity thereof, and the suction holding plate 31 is prevented from being deformed. It is supposed to be.
[0042]
A one-way valve 49 is incorporated in one cylindrical shaft portion 41 of the suction box 30, and when the supply of power to the blower 46 is stopped, the valve body 53 of the one-way valve 49 opens the opening 52 of the mounting plate 51. Is closed. Therefore, as soon as the blower 46 is turned off, the suction in the suction box 30 is stopped, and the negative pressure is released immediately, thereby shortening the seeding cycle time.
[0043]
【The invention's effect】
As described above, the present invention provides a suction device in which a rotatable arm is attached to a base via a hinge mechanism and a pressure in a suction box rotatably supported by a bearing portion of the arm becomes a negative pressure. The seeds are held by small holes of a suction holding plate attached so as to cover the upper opening of the suction box, and excess seeds are introduced into a pocket provided at one end of the suction box. It is like that.
[0044]
Therefore, according to such a configuration, it is possible to perform seeding by a combination of the rotation movement of the suction box and the rotation movement of the arm, and it is possible to greatly reduce the work required for seeding. In addition, the excess seeds can be received by the pocket, and the operation of manually removing the excess seeds can be omitted.
[0045]
Moreover, cylindrical shafts are provided at both ends in the length direction of the suction box, and these cylindrical shafts are detachably attached to the bearings of the arm, and one of the cylindrical shafts is connected to the suction device. In addition, since the other cylindrical shaft portion constitutes an air introduction port for introducing air into the suction box, the cylindrical shaft portion also serving as a rotating shaft of the suction box sucks air and reduces the internal load. Pressure retention is achieved.
[0046]
By providing the mounting portion for mounting the seedling raising tray on the base, it is possible to seed the seedling raising tray mounted on the mounting portion with the suction box rotated in the opposite direction.
[0047]
According to the configuration in which the suction box having a suction holding plate having different diameters and intervals of small holes according to the type of seed is replaceable, by changing the suction box according to the type of seed, Optimum sowing is performed.
[0048]
According to the configuration in which the suction holding plate in which the small holes are formed is made of a conductive material and fine irregularities are formed on the outer surface thereof, seeds are prevented from being adsorbed to the suction holding plate by static electricity. You.
[0049]
If a one-way valve, which is closed when the suction device is stopped, is attached to one of the cylindrical shafts, suction in the suction box immediately after the supply of power to the suction device is stopped, whereby the suction is stopped. The cycle time of sowing will be reduced.
[0050]
According to the structure in which the pressure adjusting caps having different openings are selectively attached to the other cylindrical shaft portion, the pressure inside the suction box can be adjusted by the size of the opening of the cap. become.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing the overall configuration of a seeding device.
FIG. 2 is a perspective view showing a state where the seeds are scattered.
FIG. 3 is a longitudinal sectional view of a main part of the suction box.
FIG. 4 is a vertical sectional view of a suction box showing an operation of introducing excess seed into a pocket.
FIG. 5 is an external perspective view of the seeding device showing a state where seeding is being performed.
FIG. 6 is a vertical sectional view of the main part.
FIG. 7 is a longitudinal sectional view showing an operation of guiding seeds from a pocket onto a suction holding plate.
FIG. 8 is a longitudinal sectional view of a one-way valve.
FIG. 9 is a front view of a one-way valve.
FIG. 10 is a plan view of a tray for raising seedlings.
FIG. 11 is an external perspective view of the seedling raising tray.
[Explanation of symbols]
Reference Signs List 10 Base 11, 12 Cross member 13 Mounting part 16 Hinge holder 17 Hinge mechanism 18 Lower mounting plate 19 Upper mounting plate 23 Arm 24 Connection frame 25 Semicircular recess (bearing part)
Reference Signs List 30 suction box 31 suction holding plate 32 small hole 35 pocket 36 mounting plate 37 holding plate 41, 42 cylindrical shaft 44 connection tube 45 flexible tube 46 suction blower 49 one-way valve 50 mounting rib 51 mounting plate 52 circular opening 53 Valve element 54 Arm 55 Pin 56 Winding spring 57 Bracket 60 Adjustment cap 61 Adjustment opening 64 Seeds 65 Seedling raising tray 66 Flange 67 Recess

Claims (6)

A base that constitutes the base,
An arm rotatably attached to the base via a hinge mechanism,
A suction box that is rotatably supported by a bearing portion of the arm and is suctioned by a suction device so that the internal pressure becomes a negative pressure;
A suction holding plate attached to cover the upper side opening of the suction box, and provided with small holes for holding seeds at approximately the same interval as the seeding interval,
A pocket provided at one end of the suction box, for receiving excess seeds,
Respectively ,
Cylindrical shaft portions are provided at both ends in the length direction of the suction box, and the cylindrical shaft portions are detachably attached to bearing portions of the arm,
A seeding device, wherein one cylindrical shaft portion is connected to the suction device, and the other cylindrical shaft portion constitutes an air inlet for introducing air into the suction box. The seeding apparatus according to claim 1, wherein a mounting portion for mounting a seedling raising tray is provided on the base. 2. The seeding apparatus according to claim 1, wherein a suction box having a suction holding plate having different diameters and intervals of small holes according to the type of seed is exchanged. The seeding apparatus according to claim 1, wherein the suction holding plate in which the small holes are formed is made of a conductive material, and has fine irregularities formed on an outer surface. The seeding device according to claim 1 , wherein a one-way valve that is closed when the suction device is stopped is attached to the one cylindrical shaft portion. The seeding apparatus according to claim 1 , wherein pressure adjusting caps having different sizes of openings are selectively attached to the other cylindrical shaft portion.

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