KR20110008363U - A Planting pot for broadleaf tree - Google Patents

Abstract

When the nutrient solution and water are supplied to the hardwood seedlings, each individual port (11) allows drip irrigation of the structure of the port due to the tendency that the nutrient solution and water are not injected into the pot but are lost to the outside. Ditch hose (h) is located in the space between the) and the grooves (12) branched to each port to form a groove 12 in a lattice shape, the groove 12 is positioned higher than the upper surface (11a) of the port (11) The nutrient solution and water supplied from the drip hose are supplied to the communication channel to each port without remaining in the ditch, and the branch flow path is formed to be inclined downward toward the port, and each port side wall 11a is provided at the flow path 13. Roots and nutrient solution are formed by forming a step (11b) spirally protruding inward of the port so that the supplied nutrient solution and water can be uniformly supplied to the entire topsoil inside the port without riding down the side wall of the port as it is. Effectively it would have to absorb.

Description

Planting pot for broadleaf tree {A Planting pot for broadleaf tree}

The present invention relates to a pot for raising hardwood seedlings, and in the related art, when nutrient solution and water are supplied to the hardwood seedlings in a spray method, the nutrient solution and water are not injected into each individual port by the leaf surface, but out of the pot. In the present design, a drip hose is disposed in the space between each individual port and the flow path branched to each port to allow drip irrigation of the structure of the connection port. It is formed in a lattice shape so that the ditch is positioned higher than the upper surface of the pot so that the nutrient solution and water supplied from the drip hose do not stay in the ditch, but are fed directly into the flow path connected to each individual port. Each port side wall is filled with the nutrient solution and water supplied from the flow path on the side wall of the individual port. In order to be uniformly supplied to the entire topsoil area of the individual ports without flowing down to the Doc, a stepped protrusion is formed in a spiral shape so that the root can effectively absorb the nutrient solution and water.

Generally, afforestation business refers to a business of artificially planting various seedlings in forests or restoring a forest fire damage area. In such afforestation business, the selection of species is very important not only in environmental aspects but also in economic terms in the future. Care should be taken in the selection of species in terms of climatic conditions or future use of forest resources.

In the past, most of the domestic afforestation projects have focused on coniferous species such as cedar, cypress, and pine trees, which are not only economical in the future but also beneficial to the natural environment such as flood prevention. It is thought that artificial planting targeting species should be more active.

Economical hardwood species include, for example, lilies, beech, oak, etc. These hardwood seedlings can be seeded for a certain period of time in the seedlings to be self-supporting and planted in forests to reduce the probability of failure.

On the other hand, when raising hardwood seedlings, most of them supply the nutrient solution and water by spraying irrigation method using the connection port in which a number of individual ports are integrally connected. There is a problem in that a lot of waste of nutrient solution and water is not only inefficient but also does not produce uniform seedlings because of the uniform growth.

The present invention was devised to solve the above problems, the object of the present invention is to provide a pot for seedlings suitable for cultivating various hardwood seedlings, such as lilies, beech, oak, etc., having excellent economical efficiency, This spray irrigation is inadequate, so that the nutrient solution and water are not sprayed on the leaf surface by drip irrigation, so that each individual port is supplied at a uniform density so that it can produce hardwood seedlings of uniform quality without causing waste of nutrient solution and water. In addition, the nutrient solution and water supplied to each individual pot are uniformly supplied over the entire circumference of the root to produce high quality hardwood seedlings having excellent growth after planting.

In order to achieve the above object, the present invention has a plurality of individual ports spaced vertically and horizontally, and a ditch hose is formed in a space between each individual port, and a ditch in which a flow path branches to each individual port is formed. In seedling pots; The ditch is formed to communicate with each other in a lattice form in the space between the individual ports. The ditch is positioned higher than the upper surface of each individual port so that the nutrient solution and water supplied from the drip hose communicate with each individual port without staying in the ditch. The flow path is inclined downward toward the individual ports, and the side walls of each individual port provide a seedling port for hardwoods formed spirally toward the bottom of the side wall.

In the present invention, the outer side of the connection port has a side wall formed to close the side of the ditch so that the nutrient solution and water introduced into the ditch from the drip hose do not flow to the outside, and the step is lower than the flow path formed on all sides of the individual port. A plurality of radially formed to disperse the flowing nutrient solution and water so that the nutrient solution and water supplied from the flow path is uniformly supplied to all the topsoil inside the port without flowing down the bottom side of the port as it is.

When the cultivation of various broad-leaved tree seedlings in which spray irrigation is inadequate due to large foliar cultivation in the seedling pot, the nutrient solution and water are supplied to the top soil immediately by the drip irrigation to prevent waste of nutrient solution and water. The ditch is formed higher than the upper surface of the pot, and the ditch is formed on all sides of the individual port, and the flow path inclined from the ditch to the individual port is formed so that the nutrient solution and water are uniformly supplied to each individual port without stagnation in the ditch. Of course, since the spiral step is radially formed on the side wall of each individual port, the nutrient solution and water supplied to the individual port do not flow down immediately on the wall of the port, so as to wet the entire top of the soil uniformly. Practical to grow and to produce strong hardwood seedlings Has a phosphorus effect.

1 is a perspective view showing a seedling port for hardwood according to the present invention,
2 is a plan view of the seedling pot shown in FIG.
3 is a cross-sectional view taken along the line A-A of FIG.
4 is a bottom view of the seedling pot according to the present invention,
5 is a perspective view showing a state in which the hardwood seedlings are planted in the seedling pot according to the present invention is supplied with nutrient solution and water.

In the seedling port of the present invention, as shown in Figures 1 to 5, a plurality of individual ports 11 are spaced apart vertically and horizontally, the drop hose (h) is located in the space between each individual port (11) The groove 12 is formed, and the flow path 13 branches into the individual ports 11 in the groove 12.

In the present invention, the groove 12 is formed to be in communication with each other in a lattice form in the space between each individual port 11, the groove 12 is located higher than the upper surface (10a) of each individual port (11). Thus, the nutrient solution and the water supplied from the drop hose h can be supplied to the flow path 13 connected to each individual port 11 without remaining in the ditch 12.

In addition, in the present invention, the flow path 13 is formed to be inclined downward toward the individual ports 11, and the sidewalls 11a of each individual port 11 have stepped portions 12b protruding into the individual ports at the bottom of the side walls. It is formed spirally toward.

In the accompanying drawings, the individual ports 11 are arranged in four horizontal rows and five vertical rows, and each consists of a twenty sphere connection port. However, the present invention is not limited thereto, and four spheres, six spheres, nine spheres, 12 spheres, 16 spheres, 20 Of course, it is possible to manufacture a port of various standards such as the number of spheres and more.

The seedling port 10 according to the present invention is usually mass-produced by injection molding or vacuum molding by a synthetic resin material, and the individual port 11 can be continuously stacked up and down to be transported and stored in large quantities. Is formed in a cone form that the diameter becomes smaller toward the bottom, the shape of the individual port 11 can be produced in a variety of polygonal forms including a square in addition to the cone as shown in the drawings, of course. .

In addition, in the present invention, the outer side of the seedling port 10 is formed so that the side wall 12a is equal to the height of the groove 12 so as to close the side of the groove 12, the step 11b is an individual port 11 A plurality is radially formed so that the nutrient solution and water which flow down to the lower part of the flow path 13 formed in all four sides of () are disperse | distributed.

Although not shown in the drawings in the present invention, a hole for aeration may be formed in the upper surface 10a of the seedling port 10, the air is supplied to the root to grow in the port as the air flows through the hole It is desirable to make it possible.

In addition, although the upper surface 10a of the seedling port 10 in the present invention may be manufactured in a simple plane, the water or nutrient solution dropped on the upper surface 10a is naturally formed to be inclined downward toward each individual port 11. It is more desirable to be able to flow into the port.

The advantage of the seedling pot according to the present invention is that the ditch formed on the top of the pot is formed higher than the top of the pot, so the nutrient solution and water supplied from the drip hose do not stay in the ditch and flow into each individual port immediately through the branched flow path. Due to the prolonged stagnation of the nutrient solution in the ditch, it is possible to prevent contamination of the port or propagation of bacteria, and since the ditch is formed to communicate with each other in the form of lattice in the longitudinal direction, it is possible to install the drop hose in only one direction. Since water and nutrient solution can be distributed and supplied, it is possible to produce a uniform broad-leaved seedling without uniformity in each individual port during growth, and another advantage is that each individual port The supplied nutrient solution and water do not flow down the port wall. So give evenly moisten the roots and growth of the Sao having done so uniformly that can produce sturdy plants.

In addition, since the pot of the present invention can minimize the waste of nutrient solution and water, the leaf surface is wider, and thus the cost can be greatly reduced than the production method of the hardwood seedlings by spray irrigation, and the growth of seedlings by drip irrigation It has the practical effect of producing strong hardwood seedlings without causing waste of nutrient solution.

10: seedling seed pot 10a: the upper surface
11: Individual port 11a: Side wall
11b: step 12: ditch
12a: sidewall 13: flow path
h: drip hose

Claims (3)

A plurality of individual ports 11 are spaced apart vertically and horizontally, and a ditch 12 in which a drop hose h is located is formed in a space between each individual port 11. In the seedling pot 10 in which the groove | channel with which the flow path 13 branched was formed in 11;
The grooves 12 are formed to be in communication with each other in a lattice form in the space between each individual port 11, the grooves 12 are to be positioned higher than the upper surface (10a) of each individual port 11 is supplied from the drop hose The nutrient solution and water do not stay in the ditch 12 but are supplied to the flow path 13 communicated to each individual port 11, and the flow path 13 is formed to be inclined downward toward the individual port 11, and each individual The side wall (11a) of the pot (11) is a hardwood seedling pot, characterized in that the stepped (12b) protruding inward of the individual port is formed spirally toward the lower side of the side wall. The method according to claim 1,
The outer side of the seedling pot 10 is a hardwood seedling pot, characterized in that the side wall (12a) is formed to close the side of the groove (12). The method according to claim 1,
The step (11b) is a broad seedling seedling pot, characterized in that a plurality of radially formed so as to disperse the nutrient solution and water flowing down to the lower portion of the flow path (13) formed in the four sides of the individual port (11).

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