JP2019170282A - Yam culture tool and system - Google Patents

Abstract

A potato cultivator and a potato cultivation system capable of promoting the growth of potatoes and improving workability. A potato cultivator (100) has a first growing unit (105) for accumulating soil for growing potato seeds and absorption roots therein, and a first growing unit (105) for accumulating soil for growing new potatoes of natural potatoes inside. The cultivation container 120, which is a container having the second cultivation unit 115, and an inclined surface inside the second cultivation unit 115, which is inclined so as to be separated from the first cultivation unit 105 in the horizontal direction as well as in the vertical direction. And a slope member 140 to be formed. In such a potato cultivator 100, since the inclined surface 140 is formed in the second growing unit 115, the characteristics of the potato that grows obliquely in the soil with respect to a seed potato or the like are taken into consideration. In addition, the new potatoes can be grown along the inclined surface of the slope member, and long and well-shaped new potatoes can be cultivated. [Selection] Figure 2

Description

  The present invention relates to a natural pod cultivation apparatus that can reduce the labor required for cultivation of natural pods.

  Conventionally, pipes with lower ends embedded in the soil are held vertically and arranged in one or more rows, the soil is filled up to the upper end of the pipe, and seeds of natural dredging are planted in the soil, and fertilization and water injection are performed as appropriate. The grown vines are placed between the pipes or on the support nets erected between the pipes or in the vicinity of the pipes. The harvested pipes are removed from the soil during harvesting and one end of the pipe is pressed by water pressure Then, there is a natural cocoon cultivator in which the natural cocoon grown with the soil is taken out from the pipe (for example, see Patent Document 1).

Japanese Patent Application Laid-Open No. 2014-076039

  However, natural pods, in the natural state, also have the property of growing diagonally in the soil with respect to vines and relatives, whereas the conventional natural culm grower described above holds the pipe vertically, Natural pods are grown in a vertical way. Therefore, the conventional natural culm grower has a problem of adversely affecting the growth of natural culm. In addition, the above-mentioned conventional natural culm grower has a problem that workability is poor because the height of the device becomes high and handling becomes difficult because the pipe is held in the vertical direction and arranged in one or more rows. there were.

  The present invention has been made in view of these problems, and an object of the present invention is to provide a natural cocoon cultivator and a natural cocoon cultivation system capable of promoting the growth of natural cocoons and improving workability.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following application examples. Note that the reference numerals in parentheses and supplementary explanations in this column show the correspondence with the embodiments described later in order to help understanding of the present invention, and do not limit the present invention at all. .

[Application Example 1]
The natural cocoon cultivator (100, 200, 300, 400, 500) of Application Example 1 is the first to accumulate the soil (12) for growing the seed pod (6) and the absorption root (7) of the natural cocoon (5). A cultivation container (120), which is a container having a first growing part (105, 505) and a second growing part (115) for accumulating soil for growing new cocoons (8) of natural straw, And a slope member (140) that forms an inclined surface (142) that is inclined so as to be separated in the vertical direction as it is separated from the first growth part in the horizontal direction. To do.

  In such a natural culm cultivator, seed pods and absorption roots of natural culm are bred in the first growing part, and new culm that grows and stretches during natural cultivating is grown in the second growing part. Become. And since the inclined surface by the slope member is formed in the 2nd breeding part, considering the characteristic of natural selection that grows obliquely in the soil with respect to the seed pod etc., the new ridge along the inclined surface of the slope member Can be nurtured. That is, with such a natural cocoon cultivator, it is possible to cultivate long and well-formed new cocoons.

[Application Example 2]
The natural pod cultivator (100, 200, 300, 400, 500) of application example 2 is the natural culm cultivator of application example 1, and the slope member (140) is a groove extending in a direction inclined on the surface forming the inclined surface. The gist is that (145) is formed.

  According to the natural hoe cultivator as in Application Example 2, since the groove extending in the inclined direction is formed on the inclined surface inside the second growing part, the new ridge is extended along the groove on the inclined surface. Natural pods can be cultivated. That is, with such a natural culm cultivator, the new culm is cultivated straight along the groove, and it is possible to cultivate a new culm having a longer and better shape.

[Application Example 3]
The natural culm grower (100, 200, 300, 400, 500) of application example 3 is the natural culm grower of application example 1 or application example 2, and the second growing part (115, 505) and the slope member (140) are The gist is that it is formed of a heat insulating material.

  According to the natural culm grower as in Application Example 3, since the second growing part and the slope member are formed of a heat insulating material, the new ridge grown in the second growing part is surrounded by the heat insulating material, Natural pods can be cultivated. That is, with such a natural cocoon cultivator, it is possible to reduce the influence of temperature change in the outside air on the new cocoon, and to cultivate natural moths at a suitable temperature to further promote the growth of the new cocoon. It becomes.

[Application Example 4]
The natural culm cultivator (300) of application example 4 is the natural culm cultivator of any of application examples 1 to 3, from the direction perpendicular to the direction in which the new cocoon extends inside the second growing part. The gist is that a pressurizing member (350) for applying a predetermined pressure to the newborn is provided.

  Here, the cultivation method of the natural selection which applies a pressure to a new generation selection is demonstrated. In general, when natural cocoons are grown, new cocoons grow, but when a predetermined pressure is applied in a direction perpendicular to the direction in which the new cocoons extend, more pressure is applied than when no pressure is applied. It is known to be a long and well-formed newborn. In this regard, according to the natural pod cultivator as in Application Example 4, since the pressure member is provided, the new culm is predetermined from the direction perpendicular to the direction in which the new culm extends within the second growing part. Natural straw can be cultivated while applying the pressure of. That is, if it is such a natural cocoon cultivator, it is possible to cultivate new cocoons that are longer and have a better shape.

[Application Example 5]
The natural culm cultivator (400) of application example 5 includes a partition member (450) that divides the inside of the first breeding unit into a predetermined space in the horizontal direction in any natural culm grower of application examples 1 to 4. To summarize.

  According to the natural hoe cultivator as in Application Example 5, since the inside of the first breeding unit is divided into a predetermined space in the horizontal direction by the partition member, a plurality of natural pods are arranged in the horizontal direction with respect to the first breeding unit. Can be cultivated side by side. That is, if it is such a natural selection cultivator, a plurality of natural selection can be efficiently cultivated with one natural selection cultivator.

It is a figure for demonstrating how to grow the natural selection 5 in the case of self-cultivation. It is a figure which shows the structure of the natural bamboo cultivator 100, (a) is a perspective view from right diagonally with respect to the front, (b) is from diagonally right with respect to the front of the state which removed the cover part 130. FIG. It is a figure which shows the schematic structure of the natural selection planter 100, (a) is a top view of the state which removed the cover part 130, (b) is sectional drawing of a right side. (A) is sectional drawing of the right side which shows the schematic structure of the natural pod grower 200, (b) is sectional drawing of the right side which shows the schematic structure of the natural pod grower 300. It is a figure which shows the schematic structure of the natural selection cultivator 400, (a) is a top view of the state which removed the cover part 130, (b) is sectional drawing of a right side. It is a figure which shows the schematic structure of the natural selection planter 500, (a) is front sectional drawing of the state which removed the cover part 130, (b) is sectional drawing of a right side. It is an external view which shows the schematic structure of the natural selection cultivation system 600. FIG.

  Embodiments to which the present invention is applied will be described below with reference to the drawings. The embodiment of the present invention is not limited to the following embodiment, and can take various forms as long as they belong to the technical scope of the present invention.

[How to grow a natural selection 5]
Based on FIG. 1, first, how to grow the natural selection 5 when self-dough cultivation is performed will be described. FIG. 1 is a diagram for explaining how to grow a natural selection 5 in the case of self-cultivation.

  As shown in FIG. 1, the natural selection 5 is cultivated with vines and leaves in the air and roots in the soil. In the soil, there are buds 9, and seed buds 6, absorption roots 7, and new shoots 8 extend from the buds 9. Of these, the seed pod 6 and the new cocoon 8 are part of the stem and do not absorb nutrients. Rather, when there are nutrients, the cocoons may diverge or rot. On the other hand, the absorption root 7 emerges from 8 to 10 shoots 9 to absorb the nutrients, mainly supplies the nutrients to the new pods 8 and promotes the growth of the new pods 8. Further, the absorption root 7 has a so-called shallow root property and extends so as to spread near the ground surface. Therefore, as shown in FIG. 1, the seed pod 6 and the absorption root 7 are buried in a shallow portion of the soil, and the new pod 8 is grown in a deep portion of the soil, so that the new pod 8 is grown.

[First Embodiment]
(Configuration of natural pod grower 100)
Based on FIG. 2 and FIG. 3, the structure of the natural pod grower 100 is demonstrated. FIG. 2 is a diagram illustrating the configuration of the natural culm grower 100, (a) is a perspective view obliquely from the upper right side with respect to the front surface, and (b) is a front surface with the lid portion 130 removed. It is a perspective view from the diagonally upper right. FIGS. 3A and 3B are diagrams showing a schematic configuration of the natural pod grower 100, where FIG. 3A is a top view with the lid 130 removed, and FIG. 3B is a right side cross-sectional view.

  As shown in FIGS. 2 and 3, the natural culm grower 100 includes a cultivation container 120, a lid 130, and a slope member 140. The cultivation container 120 is a container having a structure in which the first growing unit 105 is assembled to the second growing unit 115, and the soil 12 for growing the seed pod 6, the absorption root 7, and the new shoot 8 in the cultivation of the natural pod 5. Is accumulated inside and the new pupa 8 is elongated inside.

  The 1st breeding part 105 accumulates the soil 12 for nurturing the seed pod 6 and the absorption root 7 in cultivation of the natural cocoon 5 inside, and it is formed with the polystyrene foam which has heat insulation, and an opening is carried out on an up-and-down surface. It is a substantially cylindrical member formed. The size of the first growing unit 105 is about 350 [mm] × about 400 [mm] in the vertical and horizontal dimensions of the plane, and about 270 [mm] in depth.

  The second breeding unit 115 accumulates the soil 12 for growing the new cocoon 8 in the cultivation of the natural cocoon 5 and is formed of a polystyrene foam having heat insulation properties, and covers substantially the entire upper surface. It is a substantially rectangular parallelepiped container in which an opening is formed. The size of the second growing part 115 is about 350 [mm] × about 900 [mm] in the vertical and horizontal dimensions of the plane and about 300 [mm] in depth.

  The lid portion 130 is a plate having a predetermined thickness that covers a part of the opening on the upper surface of the second growing portion 115 in order to prevent sunlight from entering through the opening on the upper surface of the second growing portion 115. These members are made of foamed polystyrene having heat insulation properties.

  The slope member 140 is a triangular prism-like member formed of foamed polystyrene having heat insulation properties. The slope member 140 is housed inside the second growth part 115 with the slope facing upward, so that the inside of the second growth part 115 The inclined surface 142 inclined at about 8 degrees with respect to the bottom surface of the second growing portion 115 is formed. Further, on the slope of the slope member 140, four grooves 145 having a depth of about 50 [mm] extending in the inclined direction are formed.

  The cultivation container 120 has a structure in which the first growing part 105 is assembled to one end side in the longitudinal direction on the upper surface of the second growing part 115 in which the slope member 140 is housed, and the opening of the first growing part 105 and the second Combined with the opening of the growing part 115, the inside of the second growing part 115 is visible from above the opening of the first growing part 105. In addition, on one end side of the second growing portion 115 to which the first growing portion 105 is assembled, an upper portion of the inclined surface of the inclined member 140 is arranged. And the soil 12 will be accumulate | stored in the space inside the 2nd growth part 115 which accommodated the slope member 140 in the cultivation container 120, and the internal space formed by the 1st growth part. Further, in the opening on the upper surface of the second growing portion 115, the portion in the direction in which the new ridge 8 extends, and the portion where the first growing portion 105 is not assembled, is blocked by placing the lid 130 thereon. It will come off.

  Next, based on FIG. 3, the cultivation method of the natural selection 5 using the natural selection planter 100 is demonstrated. As shown in FIG. 3, first, an appropriate amount of soil 12 is filled into the cultivation container 120 that houses the slope member 140. Then, the seed pod 6 and the absorption root 7 are laid and buried in the soil 12 so as to be located inside the first growing part 105, and the soil 12 is filled in the cultivation container 120. In addition, when water is supplied to the natural selection 5, an appropriate amount is supplied from the upper opening of the first growing unit 105. Furthermore, the new cocoon 8 of the natural cocoon 5 extends along the inclined surface 142 formed inside the second growing part 115, and in particular, extends straight when fitted in the groove part 145.

  In addition, the soil 12 accumulated in the cultivation container 120 is not so-called soil other than the fertilizer mixed with Kanuma soil, but the nutrients for cultivating the natural straw 5 such as humus used for cultivation of food and the like are available. It contains a lot of soil for cultivation.

(Characteristics of natural pod grower 100)
In the natural pod cultivator 100 as described above, when the natural pod 5 is cultivated in the cultivation container 120, the seed pods 6 and the absorption roots 7 are grown in the first cultivating section 105, grow during the cultivation, and extend for a long time. 8 is trained by the second breeding unit 115. And in the 2nd growth part 115, since the inclined surface 142 by the slope member 140 is formed, the characteristic of the natural selection 5 which grows diagonally in the soil with respect to the seed rice 6 etc. is considered, and along the inclined surface 142 New pupae 8 can be cultivated. That is, if it is such a natural cocoon cultivator 100, it is possible to cultivate a long and well-formed new cocoon 8.

  Moreover, since the groove part 145 extended in the direction which inclines in the inclined surface 142 inside the 2nd breeding part 115 is formed, the cultivated new ridge 8 can be extended along the groove part 145. That is, the new pod 8 is cultivated straight along the groove portion 145, and the longer and better-formed new pod 8 can be cultivated.

  Furthermore, since the 2nd breeding part 115 and the slope member 140 are formed with the polystyrene foam which is a heat insulating material, it can be grown in the state which enclosed the new ridge 8 with the heat insulating material. That is, the influence on the newborn cocoon 8 due to a change in the outside air temperature can be reduced, and the growth of the newborn cocoon 8 can be further promoted.

  And in the opening of the upper surface of the 2nd breeding part 115 of the cultivation container 120, it is the part of the direction where the new cocoon 8 expand | extends, Comprising: The part in which the 1st breeding part 105 is not assembled | attached is obstruct | occluded by the cover part 130. Therefore, it can prevent that the direct sunlight with respect to the 2nd growth part 115 from an opening is inject | sprayed. That is, the lid 130 can prevent extreme drying of the soil 12 inside the second growing unit 115. In addition, since the cover part 130 is a structure which can be attached or detached from the opening of the 2nd growth part 115, when the soil 12 inside the 2nd growth part 115 dries, the cover part 130 is removed and the 2nd growth part It is also possible to supply water directly to the soil 12 inside 115.

[Second Embodiment]
Based on Fig.4 (a), the natural selection cultivator 200 which is 2nd Embodiment is demonstrated. FIG. 4A is a right side cross-sectional view showing a schematic configuration of the natural pod grower 200. In addition, in 2nd Embodiment, since the cover part 230 is remove | excluded, since it is the same as the natural bamboo cultivator 100 of 1st Embodiment, about the same member, the same code | symbol is attached | subjected and description is abbreviate | omitted. Moreover, the cultivation container 120 and the slope member 140 are formed with the same material as each in the natural selection cultivator 100 of 1st Embodiment.

  As shown to Fig.4 (a), the recessed part which is the groove | channel of the concave shape formed in the transversal direction over the longitudinal surface which opposes from the longitudinal surface of the side surface in the lid part 230 in the natural culm cultivation machine 200. Three are formed. When the lid portion 230 is installed in the cultivation container 120, the concave portion serves as a ventilation port 235 for ventilating the inside of the second growing portion 115. In addition, the cover part 230 is a plate-shaped member with a predetermined thickness formed of expanded polystyrene as a heat insulating material, like the cover part 130 in the natural pod grower 100 of the first embodiment.

  According to such a natural culm grower 200, the inside of the second breeding unit 115 can be ventilated by the ventilation port 235, so that the inside of the second breeding unit 115 is kept when the outside air temperature becomes high such as in summer. It can prevent becoming high temperature. That is, with such a natural cocoon cultivator 200, the cultivation of the new cocoon 8 can be further promoted in a suitable environment for growing the natural cocoon 5 inside the cultivation container 120.

[Third Embodiment]
Based on FIG.4 (b), the natural selection cultivator 300 which is 3rd Embodiment is demonstrated. FIG. 4B is a right side cross-sectional view showing a schematic configuration of the natural pod grower 300. In addition, in 3rd Embodiment, since the press part 350 is remove | excluded, since it is the same as the natural cocoon cultivation device 100 of 1st Embodiment, about the same member, the same code | symbol is attached | subjected and description is abbreviate | omitted. Moreover, the cultivation container 120, the cover part 130, and the slope member 140 are formed with the same raw material as each in the natural bamboo cultivator 100 of 1st Embodiment.

  As shown in FIG.4 (b), in the natural selection cultivator 300, it is a plate-shaped member of predetermined weight, Comprising: It is soiled by being mounted on the soil 12 inside the 2nd breeding part 115. A pressurizing member 350 that applies a predetermined pressure to the new heel 8 through 12 is provided. The pressing member 350 is placed on the soil 12 inside the second growing unit 115 so as to be substantially parallel to the inclined surface 142 of the inclined member 140. That is, the soil 12 and the new cocoon 8 are sandwiched between the pressurizing member 350 and the inclined surface 142 of the slope member 140 inside the second growing part 115, thereby being perpendicular to the direction in which the new cocoon 8 extends. A predetermined pressure by the pressure member 350 is applied to the new tub 8 from the direction of forming

  With such a natural cocoon cultivator 300, a predetermined pressure is applied to the new cocoon 8 from the direction perpendicular to the direction in which the new cocoon 8 extends by the pressure member 350 inside the second growing unit 115. Compared with the case where the pressure from such a direction is not applied, it is possible to cultivate the new cocoon 8 which is longer and has a better shape.

[Fourth Embodiment]
Based on FIG. 5, the natural selection cultivator 400 which is 4th Embodiment is demonstrated. FIGS. 5A and 5B are diagrams showing a schematic configuration of the natural pod grower 400, where FIG. 5A is a top view with the lid 130 removed, and FIG. 5B is a cross-sectional view of the right side. In addition, in 4th Embodiment, since the partition member 450 is remove | excluded, since it is the same as the natural bamboo cultivator 100 of 1st Embodiment, about the same member, the same code | symbol is attached | subjected and description is abbreviate | omitted. Moreover, the cultivation container 120, the cover part 130, and the slope member 140 are formed with the same raw material as each in the natural bamboo cultivator 100 of 1st Embodiment.

  As shown in FIG. 5, the natural culm grower 400 includes a partition member 450 that is a plate-like member formed from expanded polystyrene that is a heat insulating material. The partition member 450 extends in the vertical direction from the inclined surface 142 of the slope member 140 through an opening communicating with the first growing portion 105 and the second growing portion 115 to reach the inside of the first growing portion 105. It is the shape that is done. In addition, the partition member 450 in the natural culm grower 400 is placed on the boundary between the groove portion 145 of the inclined surface 142 and the adjacent groove portion 145, and three partition members 450 are provided for the four groove portions 145. As a result, the first breeding unit 105 is divided into four spaces.

  In such a natural hoe cultivator 400, the partition member 145 divides the inside of the first breeding unit 105 into a plurality of spaces in the horizontal direction. Can be cultivated side by side. That is, a plurality of natural pods 5 can be efficiently cultivated with one natural pod grower 400. Moreover, since the space divided by the partition member 145 is divided so as to correspond to each of the plurality of groove portions 145 of the inclined surface 142 inside the second growing portion 115, the rebirth of the natural pod 5 cultivated in this space The ridge 8 is grown along the groove 145. That is, a plurality of new pods 8 can be grown straight along the groove portion 145 with one natural pod grower 400.

[Fifth Embodiment]
Based on FIG. 6, the natural selection cultivator 500 which is 5th Embodiment is demonstrated. 6A and 6B are diagrams showing a schematic configuration of the natural pod grower 500, in which FIG. 6A is a front sectional view with the lid 130 removed, and FIG. 6B is a right sectional view. In addition, in 5th Embodiment, since the 1st breeding part 505 is remove | excluded, since it is the same as the natural bamboo cultivator 100 of 1st Embodiment, about the same member, the same code | symbol is attached | subjected and description is abbreviate | omitted. Moreover, the 2nd breeding part 115, the cover part 130, and the slope member 140 are formed with the same raw material as each in the natural selection cultivator 100 of 1st Embodiment.

  As shown in FIG. 6, a first stamped portion 507 and a second stamped portion 510 that are stamped with a conspicuous color such as red are provided on the inner wall surface of the first growing portion 505 in the natural pod grower 500. As shown in FIG. 6A, the first marking portion 507 is a wall surface inside the first growing portion 505 and corresponds to each of the four groove portions 145 of the inclined surface 142 of the second growing portion 115. In addition, it is provided at a position on the extension line of each groove 145. Moreover, as shown in FIG.6 (b), the 2nd marking part 510 is the wall surface inside the 1st breeding part 505, Comprising: It is provided in the position used as a suitable depth when mounting a seed potato. .

  According to such a natural grape cultivation device 500, when the soil 12 is filled inside the cultivation container 120, the second stamping portion 510 can be filled as a mark, and the seed potato 6 can be laid and buried. In addition, when the seed marking 6 is embedded at a position corresponding to the first marking portion 507 using the first marking portion 507 as a mark, the new ridge 8 is grown along the groove portion 145. That is, with such a natural culm grower 500, the seed culm is cultivated as a suitable position when cultivating natural culm 5 as compared with the case where the first stamp part 507 and the second stamp part 510 are not provided. Will be able to.

[Sixth Embodiment]
Based on FIG. 7, the natural selection cultivation system 600 is demonstrated. FIG. 7 is an external view showing a schematic configuration of the natural cocoon cultivation system 600. As shown in FIG. 7, the natural pod cultivating system 600 includes two natural culm growers 100 and a fixed portion 650 on which the two natural pod growers 100 can be placed. Further, the fixing portion 650 includes a base portion 652, a seat portion 654, and a support column 656.

  The base portion 652 is a portion that becomes a base of the fixed portion 650, and is a member obtained by combining metal plate materials such as steel so that the planar shape is a rectangle and joining them by welding or bolts. Wheels 652a are attached to the four corners of the base 652 so that the natural culm cultivation system 600 can be moved.

  The seat portion 654 is a member for placing the natural culm grower 100 in a horizontal state, and a plane shape of a metal plate such as steel is rectangular, and the bottom surface of the second growing portion 115 can be placed thereon. It is a member joined by welding, bolts, etc. in combination.

  The support column 656 is a metal plate material such as steel for joining the base portion 652 and the seat portion 654, and the plate member in the longitudinal direction of the base portion 652 and the plate material in the short direction of the seat portion 654 are joined by welding or bolts. Thus, the seat portion 654 is supported with respect to the base portion 652. Moreover, the support | pillar 656 is fixing the seat part 654 so that it may become horizontal.

  A plurality (two in the present embodiment) of natural culm growers 100 are arranged in a vertical direction in two stages on the fixing unit 650 having the above-described configuration, and are placed and fixed on the seat unit 654. Moreover, it fixes so that the cultivation container 120 of the upper natural cultivator 100 may be arrange | positioned above the 2nd breeding part 115 of the lower natural cultivator 100. FIG.

  With such a natural cocoon cultivation system 600, the two natural cocoon cultivation devices 100 are fixed so as to be in two upper and lower stages. Therefore, if a plurality of fixing parts 650 are used, a large number of natural pod growers 100 can be arranged in an area-efficient manner, and a large number of natural pods 5 can be cultivated in a small area.

[Other Embodiments]
(1) In the said embodiment, although the cultivation container 120, the cover part 130, and the slope member 140 shall be formed with the foaming polystyrene which has heat insulation, all and any of these are cardboard etc. It may be made of a paper material, a resin such as plastic or vinyl chloride, a metal such as stainless steel, or a natural material such as paper. For example, as the 2nd breeding part 115 of the cultivation container 120, even if it is a structure which uses the commercially available resin planter utilized for a kitchen garden, the board | plate material of the polystyrene foam which is a heat insulating material is installed in an internal wall surface. Good.

  (2) In the said embodiment, although the 1st breeding part 105 and the 2nd breeding part 115 in the cultivation container 120 shall be assembled | attached and united, even if it is integrally molded or fixed Good. For example, after the first growing unit 105 is assembled to the second growing unit 115, the first growing unit 105 and the second growing unit 115 may be bonded to each other with an adhesive or the like.

  (3) In the above embodiment, the number of the groove portions 145 in the inclined surface 142 of the inclined member 140 is four, but may be five or more. In addition, the depth of each groove 145 may be deeper or shallower than that of the above embodiment, and any size can be used as a guide in the extending direction when the new heel 8 extends. The thing of such a size may be sufficient.

  (4) In the first to third embodiments, one natural cocoon 5 is cultivated, but the number of natural cocoons 5 to be cultivated is not limited to this, and the shortness of the first breeding unit 105 Depending on the length of the direction, two or more natural cocoons 5 may be cultivated side by side. For example, a natural cocoon cultivator having a size larger than that of the above embodiment can cultivate a plurality of natural cocoons 5 in the short direction of the first growing unit 105.

  (5) In the said 4th Embodiment, although the number of the partition members 450 provided in the inside of the cultivation container 120 was three, two or less or four or more may be sufficient. For example, in the case of a natural culm grower having a size larger than that of the above embodiment, four or more partition members 450 are provided, and in the case of a small sized natural culm grower, two or less partition members 450 are provided. May be. Further, in the natural culm grower 400 of the fourth embodiment, the partition member 450 was placed on the portion that becomes the boundary between the groove portion 145 of the inclined surface 142 and the adjacent groove portion 145. It is not limited to this, You may make it provide the partition member 450 by the space | interval which can be divided into suitable space in order to grow the natural selection 5 efficiently. Furthermore, when the number of the groove portions 145 becomes five or more as described above, the number of partition members 450 corresponding to the number of the groove portions 145 may be provided.

  (6) In the fifth embodiment, the number of the first marking parts 507 provided in the first growing part 505 is four, but it may be three or less or five or more. For example, when the number of the groove portions 145 becomes five or more as described above, the number of the first marking portions 507 corresponding to the number of the groove portions 145 may be provided. Moreover, it is not limited to providing the 1st stamp part 507 of the number according to the number of the groove parts 145, It is made to provide the some 1st stamp part 507 in the suitable space | interval in order to cultivate the natural selection 5 efficiently. May be.

  (7) In the natural cocoon cultivation system 600 of the sixth embodiment, the two natural cocoon cultivation devices 100 are fixed so as to be vertically arranged in two stages, but three or more natural cocoon cultivation devices 100 are fixed in multiple stages. It may be a fixed part of the structure.

  (8) In the above embodiment, the soil 12 filled in the natural culm grower is of one type, but may be of a plurality of types. For example, as soil, fertilizer mixed with Kanuma soil, humus used for cultivation of food, etc. can be considered. As a cultivation method using such a plurality of types of soil for the natural culm grower 100 of the above embodiment, the soil filled in the first breeding unit 105 and the soil filled in the second breeding unit 115 It is possible to change the type of. Here, it is assumed that the soil filled in the second growing unit 115 contains less nutrients than the soil filled in the first growing unit 105. This is because the new shoots grown in the second growing section 115 do not absorb nutrients in a part of the stem, and may branch off or rot if there is nutrients.

  (9) In the said embodiment, although the embodiment of the natural selection planter for cultivating a natural selection was described, if the cultivation method as an embodiment of the present invention is not only a natural selection but the cultivation method is the same, a long selection It is also possible to cultivate potatoes such as potatoes, and therefore natural pods mean that cultivated potatoes such as long potatoes are also included.

  5 ... Natural Agate, 6 ... Seed Axes, 7 ... Absorption Roots, 8 ... New Axes, 9 ... Buds, 12 ... Soil, 100, 200, 300, 400, 500 ... Natural Agate Cultivators, 105, 505 ... First Growing Part, 115 ... 2nd breeding part, 120 ... Cultivation container, 130, 230 ... Cover part, 140 ... Slope member, 235 ... Ventilation port, 350 ... Pressurizing member, 450 ... Partition member, 507 ... First marking part, 510 ... Second Stamping part, 600 ... Natural selection cultivation system, 650 ... Fixing part, 652 ... Base part, 652a ... Wheel, 654 ... Seat part, 656 ... Post.

Claims (5)

It is a container having a first growing part for accumulating soil for cultivating seed pods and absorption roots of natural pods and a second cultivating part for accumulating soil for cultivating new pods of natural varieties. A cultivation container;
In the inside of the second growing part, an inclined member that forms an inclined surface that is inclined so as to be separated in the vertical direction as it is separated from the first growing part in the horizontal direction;
A natural cocoon cultivator characterized by comprising In the natural culm grower according to claim 1,
The slope member is formed with a groove extending in a direction inclined on a surface forming the inclined surface. In the natural culm grower according to claim 1 or claim 2,
The said 2nd breeding part and the said slope member are formed with the heat insulating material. In the natural culm grower according to any one of claims 1 to 3,
A natural culm cultivator comprising a pressurizing member that applies a predetermined pressure to the new cocoon in a direction perpendicular to the direction in which the new cocoon extends inside the second growing part. In the natural culm grower according to any one of claims 1 to 4,
A natural cocoon cultivation system comprising: a partition member that divides the interior of the first growing section into a predetermined space in the horizontal direction.