KR20230097465A - Grower for root plant - Google Patents

Abstract

The present invention relates to a root plant grower. It consists of a sheet-type mesh network and a finishing member surrounding the rim of the mesh network, and is built on the floor in a folded state, and provides a growth space filled with soil; and a diameter maintaining means for maintaining the diameter of the porous body in an upright state.
The root plant cultivator of the present invention configured as described above has good ventilation, is easy to assemble and disassemble, and can sufficiently reach fertilizer or water to the deepest part of the soil, thereby providing optimal conditions for plant growth. In addition, the diameter can be conveniently adjusted according to the growth characteristics of plants, and even though the lower part is open, it can be conveniently transported without loss of soil.

Description

Grower for root plant}

The present invention relates to a root plant cultivator, and more particularly, to a root plant cultivator, which has a mesh structure as a whole, has good ventilation, is easy to assemble and disassemble, and provides a desirable growth environment by allowing fertilizer to reach the inside of the soil. It is about a plant grower.

Root plants refer to plants that are eaten or used by harvesting stems or roots buried in the ground. Root plants include potatoes, sweet potatoes, licorice, ginseng, astragalus, burdock, bellflower, and deodeok. Among these root plants, in particular, licorice, burdock, astragalus, or deodeok are treated as having good marketability as the roots are straight and thick.

Usually, root plants are cultivated by sowing or planting seeds or seedlings in the field, but unless the ground is plowed very deeply, a problem occurs that the roots do not grow straight down and sufficiently. The roots are bent and the side roots are developed, resulting in a significant drop in marketability and a decrease in the amount of cultivation per unit area. Moreover, open-field cultivation is not free from pests and diseases, so there is no choice but to use pesticides.

For this reason, cultivation devices for efficiently cultivating root plants have been developed and used. As a background technology of this related invention, Korean Patent Registration No. 10-2020610 discloses a plant cultivator and a plant cultivation method for promoting the growth of root plants.

The disclosed plant cultivator contains 10 ± 5 wt% of calcined shell powder and 1.0 ± 0.5 wt% of shungite powder in the polypropylene pellet raw material, mixes to form 100 wt%, melts, and cuts / pulverizes the mixed pellets in the form of chips. A rectangular synthetic resin sheet having a size of 60 10 cm in width and 30 10 cm in length is manufactured by using the same, but for the fired shell powder, the raw shell raw material is put into a grinder, roughly pulverized to a size of about 10 to 20 mm, and put into a firing furnace. After the first firing in the temperature range of 400 ~ 500 ℃, the first fired shell powder is immersed in 10% hydrochloric acid solution for 3 ~ 5 minutes, and then the second firing in the temperature range of 600 ~ 700 ℃ and the second firing The prepared shell powder is immersed in a 20% sodium hydroxide solution for 3 to 5 minutes, fired for the third time in a firing furnace maintaining a temperature of 900 to 1000 ° C, and then the fired shell powder finely pulverized to 300 mesh or more is used to obtain mixed pellets. applied, and the inner edge of the synthetic resin sheet has a size of 2.0 0.5 cm in width and 1.5 0.5 cm in length, and has a structure with a concave groove on one side and a convex groove on the other side, and a structure in which four through-holes are formed at the top of the vertical part of the sheet to be penetrated later A water supply pipe is connected to the ball to obtain a molded product with a structure that can supply water or nutrients to the inside of the plant grower, and when the vertical part of the molded product is dried in a circular shape, the horizontal axes at both ends of the molded product are overlapped and combined. When this or detachable connection part forms a structure that extends in the vertical direction, and the vertical part of the molded product is dried in a circular shape and the connection at both ends of the horizontal axis is fastened to form a cylindrical structure, the concave groove formed on the side wall is located inside. The convex groove is a structure protruding outward to form a cylindrical structure, and has a structure provided to fill the inside of the cylindrical structure with soil and grow root plants.

However, since the above-described plant cultivators have a structure in which the plant cultivators are concentrated in the front, rear, left and right directions, and particularly connected by supply pipes, there is a disadvantage in that the diameter or position of the individual plant cultivators cannot be adjusted or taken out. For example, it is not possible to separately pull out the plant growing machine in the middle.

Accordingly, the conventional plant cultivator described above cannot evenly plant plants having different growth rates. For example, fast-growing plants and slow-growing plants cannot be planted in adjacent planters.

In order to collect a fast-growing plant, it is necessary to take out the plant growing machine in which the plant is planted. If a late-growing plant is planted in a neighboring plant growing machine, it is difficult to take it out separately first.

Korean Patent Registration No. 10-2020610 (Plant cultivator and plant cultivation method for promoting the growth of root plants) Korean Registered Patent Publication No. 10-2338393 (root plant air cultivation device)

The present invention was created to solve the above problems, and has good ventilation, simple assembly and disassembly, can provide optimal conditions for plant growth, and is a root plant grower that can conveniently adjust the size according to the growth characteristics of plants. It aims to provide

The root plant cultivator of the present invention as a means of solving the problems for achieving the above object is composed of a sheet-type mesh network and a finishing member surrounding the rim of the mesh network, and is erected on the floor in a folded state and filled with soil. a porous body providing space; and a diameter maintaining means for maintaining the diameter of the porous body in an upright state.

In addition, the porous body takes a rectangular shape in an unfolded state, and the diameter maintaining means; It has a hooking part fixed to both ends of the porous body, respectively, and a connecting part coupling both hooking parts.

In addition, the hooking part is a bar-shaped bending rod extending in the longitudinal direction and providing a hooking groove, and the connecting part is inserted into the hooking groove of the parallel butted opposite side bending rods to maintain a distance between the bending rods, and the longitudinal direction of the bending rod It is a connector capable of sliding movement.

In addition, the diameter maintaining means; A first fastener fixed to one side of the porous body and a second fastener fixed to the other side of the porous body and engaged with the first fastener in a closed state of the porous body.

Further, the first fastener takes the shape of a strip having a certain width, and a plurality of pieces are parallel to each other and fixed horizontally to the ground.

In addition, a support column for maintaining the height of the porous body standing on the floor is further installed in the porous body.

In addition, the support column; It has a hollow vertical tube and a holder fixed to the vertical tube and coupled to the upper and lower edge portions of the porous body.

In addition, a plurality of discharge passages are formed in the vertical pipe to pass nutrients or water introduced from the top and lead to the growth space.

In addition, it is installed on the lower part of the porous body standing on the floor and is used when lifting the cultivation machine, and includes a porous supporting part that supports the soil in the growth space to prevent loss of soil, and is fixed to the porous supporting part and can be controlled by the user. The lifting part to be tensioned is further included.

In addition, the porous supporting portion; It consists of a sheet-type mesh network and a finishing cloth surrounding the rim of the mesh network, and the lifting portion; It extends in the radial direction of the porous supporting portion and has a pull-up sheet having a gripping hole formed therein to insert a finger during lifting.

The root plant cultivator of the present invention configured as described above has good ventilation, is easy to assemble and disassemble, and can sufficiently reach fertilizer or water to the deepest part of the soil, thereby providing optimal conditions for plant growth.

In addition, the diameter can be conveniently adjusted according to the growth characteristics of plants, and even though the lower part is open, it can be conveniently transported without loss of soil.

1 is a perspective view showing the basic configuration of a root plant cultivator according to an embodiment of the present invention.
FIG. 2 is a view showing the root plant cultivator of FIG. 1 in a disassembled state.
3 is a perspective view showing a state in which a support column is applied to the grower shown in FIG. 1;
4a to 4c are views for explaining the configuration of the support column of FIG.
Figure 5 is a perspective view showing a modified example of the porous body shown in Figure 1;
6a to 6c are views for explaining examples of use of the porous body of FIG. 5 .
7 is an exploded perspective view showing a supporter applied to the cultivator of FIG. 1;
FIG. 8 is a diagram for explaining the function of the supporter of FIG. 7 .

Hereinafter, one embodiment according to the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing the basic configuration of a root plant cultivator according to an embodiment of the present invention, and FIG. 2 is a view showing the root plant cultivator of FIG. 1 in a disassembled state.

As shown, the root plant cultivator 10 according to the present embodiment includes a porous body 13 and a diameter maintaining means.

The porous body 13 is composed of a mesh net 13a and a finishing cloth 13b, and is rolled up and placed on a horizontal floor in a substantially cylindrical shape. The floor may be a dirt floor or a cement floor. The porous body 13 provides a growth space 15 in a state of standing on the floor. The growth space 15 is an upper and lower open space filled with soil, and seedlings of root plants may be planted or seeds may be sown in the soil.

The mesh network 13a is a mesh-like member made of nylon or metal, and takes a square shape in an unfolded state. The mesh of the mesh network may vary as needed. In addition, the finishing cloth 13b surrounds the rim of the mesh net 13a to prevent the user from being scratched and injured by the sharp parts of the mesh net when handling the cultivator 10. In addition, in order to prevent the porous body 13 from being folded or collapsed without force, a supporting steel wire (not shown) having elasticity may be embedded inside the finishing cloth 13b.

The diameter maintaining means serves to maintain the diameter of the porous body (13). Maintaining the diameter means that the porous body 13 is not opened when filling the growth space 15 with soil after setting the porous body 13 in a cylindrical shape. The diameter maintaining means includes hooking parts fixed to both ends of the porous body and connecting parts coupling both hooking parts.

In this embodiment, the hooking portion is the bending rod 13d, and the connecting portion is the connector 20.

The bending rod 13d is a bar-like member extending in the longitudinal direction and provides a locking groove 13e. The cross section of the bending rod 13d takes an approximate U-shape. The connector 20 is inserted into the two bent rods 13d facing each other, and prevents the bending rods 13d from opening. The connector 20 is provided with an insertion portion 21e fitted into the locking groove 13e.

The coupling of the connector 20 to the bending rod 13d is a sliding method. That is, in a state where the two bending rods 13d are in close contact with each other, the insertion part 21e at the bottom of the connector 20 is aligned with the locking groove 13e at the top of the bending rod 13d, and then lowered. To separate the connector 20 from the bending rod 13d, hold the connector 20 and pull it up.

As described above, the cultivator 10 of this embodiment is easy to use because the porous body 13 can be assembled and separated simply by pulling the connector 20 downward or upward.

In particular, when collecting a root plant, the root plant is not removed from the soil, but the connector 20 is separated, the porous body 13 is peeled off, and the soil (which maintains its cylindrical shape) is crushed and taken out. Little to no damage. Even the most tender roots can be harvested without being cut.

In addition, since the porous body 13 can be spread flat, it does not take up much space when disassembling and storing the cultivation device 10. Even if there are several hundred cultivators 10, any number of them can be stacked and stored.

FIG. 3 is a perspective view showing a state in which the support column 30 is applied to the cultivator 10 shown in FIG. 1, and FIGS. 4A to 4C are views for explaining the configuration of the support column of FIG.

Referring to the drawings, it can be seen that three support columns 30 are mounted on the porous body. The support column 30 maintains the height of the porous body 13 when soil is filled in the cultivator 10 standing on the floor, and guides nutrients or water introduced from the outside downward to reach the deep part of the soil. play a role The number of applied support columns 30 can be changed according to circumstances.

The support column 30 includes a vertical tube 31 and a holder.

The vertical pipe 31 is a rectangular hollow pipe having a length corresponding to the height of the porous body 13 and disposed inside the porous body 13. The holder is a holding clip 33 fixed to the upper and lower ends of the vertical pipe 31. The holding clip 33 is elastically deformable, and accommodates and fixes upper and lower edge portions of the porous body. The upper and lower edge portions of the porous body 13 are pressed by the pressing portion 33c in a state inserted into the receiving space 33a of the holding clip 33 to maintain a fixed state.

On the other hand, a plurality of discharge passages 31c are formed in the vertical pipe 31. The discharge passage 31c is a hole through which nutrients or water introduced from the top are passed and guided to the growth space. As water or nutrients go down along the vertical pipe 31, they pass through the discharge passage 31c and permeate into the soil.

In addition, a plurality of first inclined plates 31e and second inclined plates 31f are provided inside the vertical pipe 31. The second inclined plate 31f is a plate-shaped member inclined downward toward each discharge passage 31c and guides water or nutrients moving downward to the discharge passage 31c. The first inclined plate 31e is located above the second inclined plate 31f and lifts the descending water or nutrients onto the first inclined plate 31e. By applying the first and second inclined plates 31e and 31f, the injected water or nutrients permeate into the soil more efficiently.

Figure 5 is a perspective view showing a modified example of the porous body 13 shown in Figure 1, Figures 6a to 6c is a view for explaining a use example of the porous body of Figure 5.

The porous body 13 shown in Fig. 5 has a first fastener 35a and a second fastener 35b as diameter retaining means. The first fastener 35a and the second fastener 35b are velcro cloths that can adhere to and separate from each other.

The first fastener 35a takes the shape of a strip having a certain width and length, and is fixed to the outer surface of the porous body 13. The first fasteners 35a are maintained horizontally with respect to the ground, and three of them are spaced parallel to each other. The second fastener 35b corresponds to the first fastener 35a one-to-one and is mounted on the inner surface of the porous body 13 . The second fastener 35b also has a constant width and extends horizontally. The first fastener 35a and the second fastener 35b are bonded and fixed to each other while the porous body is closed in a cylindrical shape.

In the cultivator 10 to which the first and second fasteners 35a and 35b are applied, as shown in FIG. 6, the diameter of the porous body 13 can be adjusted. The diameter is adjusted by adjusting the contact area of the second fastener 35b to the first fastener 35a. For example, the larger the contact area of the second fastener 35b to the first fastener 35a, the smaller the diameter.

Since the diameter of the porous body 13 can be adjusted, it is possible to provide an optimal growth environment for root plants. For example, a root plant of a kind that needs to be grown alone can provide conditions for only that plant by reducing the diameter of the porous body 13 within an allowable range. The reason for reducing the diameter is that the amount of soil increases and nutrients are dispersed when the diameter is increased.

In addition, when a large number of seedlings of one kind can be planted, the diameter of the porous body 13 can be increased so that many root plants can be grown in a shorter time.

FIG. 7 is an exploded perspective view showing the supporter 40 applied to the cultivator of FIG. 1, and FIG. 8 is a view for explaining the function of the supporter of FIG.

As shown in FIG. 7 , the root plant cultivator 10 of this embodiment may further include a supporter 40 . The supporter 40 is installed on the lower part of the porous body standing on the floor, and is used when lifting the cultivation machine. That is, it is used when moving the cultivator 10 filled with soil.

The supporter 40 has a porous supporting portion 41 and a lifting portion 43.

The porous supporting portion 41 supports the soil filled in the porous body 13 at the bottom of the porous body 13 to prevent the soil from falling to the lower portion when the cultivation device 10 is lifted.

The porous supporting portion 41 is composed of a sheet-like mesh network 41a and a finishing cloth 41b surrounding the edge of the mesh network. The mesh network 41a is a member having the same type and standard as the mesh network 13a of the porous body 13 and prevents loss of soil. But it lets water through. The mesh network 41a also serves as the bottom surface of the pot. The diameter of the mesh network (41a) is greater than the diameter of the porous body (13).

The finishing cloth 41b covers the edge of the mesh room 41a so that sharp parts are not exposed.

The lifting portion 43 is a member extending in the radial direction while being fixed to the porous supporting portion 41, and as shown in FIG. 8, it is pulled in the direction of the arrow F by the user.

The lifting part 43 has a pull-up seat 43a and a fixing band 43e. The pull-up seat 43a takes the shape of a band having a certain width and has a gripping hole 43c. The gripping hole 43c is a hole through which a user's finger is inserted. It is possible to grab the end of the pull-up seat 43a by putting a hand into the gripping hole 43c.

The fixing band 43e is used when the pull-up sheet 43a is rolled up. When the pull-up sheet 43a is not in use, the pull-up sheet 43a is rolled inward and tied with a fixing band 43e so as not to come loose.

The fixing band 43e is a strip-shaped member having one end fixed to the bottom surface of the pull-up sheet 43a, that is, the surface facing the ground in the unfolded state of the pull-up sheet 43a. A moving fastener 43f is provided at the other end of the fixed band 43e. The movable fastener 43f can be attached and coupled to the fixed fastener 45a fixed to the reinforcing band 45.

As shown in FIG. 7, the pull-up sheet 43a can be maintained in a rolled state by raising the fixing band 43e in a state where the pull-up sheet 43a is completely rolled up and fixing it to the fixing fastener 45a.

Reference numeral 45 denotes a reinforcing band. The reinforcing band 45 is a string for tension extending across the center of the porous support 41, and both ends are fixed to the pull-up sheet 43a. The reinforcing band 45 acts to prevent the mesh network 41a from being torn when the pull-up sheet 43a is lifted in the direction of arrow F. By applying the supporter 40 in this way, the cultivator 10 can be moved as much as possible while maintaining the soil so that it does not fall downward.

In the above, the present invention has been described in detail through specific embodiments, but the present invention is not limited to the above embodiments, and various modifications are possible by those skilled in the art within the scope of the technical idea of the present invention.

10: root plant cultivator 13: porous body 13a: mesh net
13b: Finishing cloth 13d: Bending rod 13e: Catch groove
15: growth space 20: connector 21e: insertion part
30: support column 31: vertical pipe 31c: discharge passage
31e: first inclined plate 31f: second inclined plate 33: holding clip
33a: receiving space 33c: pressing part 35a: first fastener
35b: second fastener 40: supporter 41: porous support
41a: mesh net 41b: finishing cloth 43: lifting part
43a: Pull-up seat 43c: Gripping hole 43e: Fixed band
43f: moving fastener 45: reinforcing band 45a: fixed fastener

Claims (10)

A porous body made of a sheet-type mesh network and a finishing member surrounding the rim of the mesh network, built on the floor in a folded state, and providing a growth space filled with soil;
Including a diameter maintaining means for maintaining the diameter of the porous body in an upright state,
root plant grower. According to claim 1,
The porous body takes a rectangular shape in an unfolded state,
Diameter maintenance means;
Having a hooking part fixed to both ends of the porous body and a connecting part for coupling both hooking parts,
root plant grower. According to claim 2,
The catching portion is a bar-shaped bending rod extending in the longitudinal direction and providing a catching groove,
The connection part is a connector that is inserted into the locking grooves of the bending rods on both sides facing in parallel to maintain the spacing between the bending rods and is capable of sliding movement in the longitudinal direction of the bending rod.
root plant grower. According to claim 1,
The diameter maintaining means;
A first fastener fixed to one side of the porous body;
A second fastener fixed to the other side of the porous body and coupled to the first fastener in a closed state of the porous body,
root plant grower. According to claim 4,
The first fastener,
It takes the shape of a band with a certain width, a plurality of which are parallel to each other and fixed horizontally to the ground,
root plant grower. According to claim 1,
In the porous body,
A support column is further installed to maintain the height of the porous body standing on the floor.
root plant grower. According to claim 6,
The support column;
a hollow vertical pipe,
Having a holder fixed to the vertical tube and coupled to the upper and lower rims of the porous body,
root plant grower. According to claim 7,
In the vertical pipe,
Numerous discharge passages are formed to guide nutrients or water input from the top to the growth space.
root plant grower. According to claim 1,
It is installed on the lower part of the porous body standing on the floor and is used when lifting the cultivation machine.
A porous support supporting the soil in the growth space to prevent soil loss;
Further comprising a lifting part fixed to the porous support and tensioned by the user,
root plant grower. According to claim 9,
The porous supporting portion;
It consists of a sheet-type mesh net and a finishing cloth surrounding the edge of the mesh net,
the salvage department;
Having a pull-up sheet extending in the radial direction of the porous support and having a gripping hole formed therein to insert a finger when lifting,
root plant grower.

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