KR20120032335A - Flower pot for cuttage - Google Patents

Abstract

PURPOSE: A flowerpot for the cuttage capable of easily packaging and carrying is provided to enable users to easily supply water or nutrients to the cuttage. CONSTITUTION: A flowerpot for the cottage comprises the following: a case(110) filled with water and soil; a partition plate(120) located inside the case for separating the internal space of the case; a tube(130) penetrating the partition plate, extended to the lower side of the partition plate; a protrusion formed on the bottom of the partition plate; a flange unit contacting the inner wall of the case; plural tube supporting holes formed on the flange unit; and plural water flowing holes formed on the protrusion.

Description

Cutting Pots {FLOWER POT FOR CUTTAGE}

The present invention relates to a potted plant for cutting, and more particularly, to a potted plant for cutting, which corresponds to a breeding method for cutting the branches, roots, leaves, etc. of plants and inserting them into the soil.

As the standard of living improves, landscaping trees such as plants and flowers are becoming more diversified, and in particular, the signs for species with unusual shapes such as trees, leaves and flowers are increasing. In order to multiply and cultivate high value added individuals such as landscaping water or lost water, it must be converted and improved to asexual breeding-oriented breeding rather than conventional breeding. Grafting, cutting, and harvesting have been applied to practice asexual breeding.

Cutting (揷 木, cuttage) is a breeding method of cutting off branches, roots, leaves, etc., which are part of a plant, and inserting them into sand, red soil, and weathered soil to make roots. The breeding method by cutting can reproduce the same individual as the mother tree at the same time. The cutting season is generally suitable for the rainy season of late February to March and evergreen to June to July.

The breeding method by cuttings can yield many seedlings at once, and since cuttings extract a part of the mother tree to create a new individual, it can genetically obtain the same seedlings as the mother tree. In addition, the breeding method by cutting is better for growing seedlings and shortening the time to flowering compared to the real seedlings, resistance to pests and insects, and the roots are relatively extended, so it is suitable for planting shallow cuttings in shallow pots.

However, the breeding method by cuttings requires management such as artificially creating an environment suitable for growing flowers or plants, and giving plant hormones or nutrients to fully exhibit the regeneration ability of the flowers or plants.

Therefore, in order to increase the success rate of cutting, the cutting environment should be optimized. Since cuttings for cutting have no roots, the moisture in the soil must be kept constant so that water can be absorbed well from the soil, and the humidity of the air needs to be higher than the surrounding environment so that the cutting does not dry out by the transpiration. In addition, root differentiation requires nutrition so that photosynthesis should be managed well, and the principle is not to supply other nutrients, but treatment of plant hormone rooting can increase the success rate of differentiation.

Existing cutting pots, however, are intended to seep into the soil by sprinkling or pouring water on top of cutting pots to supply moisture or nutrients to the cut plants.

However, it is difficult to always supply a certain amount of water in the case of the cutting planter of the type described above, and if the watering is not appropriate time, the insertion will dry and die. In particular, when the surface of the soil is exposed to sunlight, moisture is easily dried, so that sufficient moisture cannot be supplied to the root of the plant. In addition, because the water must be frequently watered, the management is cumbersome, and if too much water is supplied, the soil may overflow with the water to the top of the cutting pot and become dirty.

In addition, since the structure directly supplies water from the upper part of the soil, it was difficult to supply sufficient water and nutrients to the differentiation of roots of stems and stems and leaves.

An object of the present invention is to solve the above-mentioned problems of the prior art, to provide a potting plant for cutting water or nutrients easy to supply.

An object of the present invention, the case is filled with water and soil therein; A partition plate disposed in the case and separating an inner space of the case; It can be achieved by providing a potting plant for cutting comprising a; tube extending through the partition plate to the bottom of the partition plate.

That is, in this aspect of the present invention in providing water or nutrients to the cutting pot, rather than supplying water directly to the upper portion of the soil, but through the tube and the water storage unit partitioned by the partition plate; Nutrients are stored, allowing the water and nutrients to be absorbed through the bottom of the soil. However, the tube not only extends through the partition plate to the lower part of the partition plate, but also penetrates the side surface of the case and passes through the tube from the outside of the case to the space partitioned by the partition plate. It is also possible to feed nutrients directly.

The soil filling part and the water storage part are respectively disposed on the upper and lower parts of the partition plate. The water reservoir is an empty space formed by the partition plate and the case, and water and nutrients are supplied to the water reservoir through the tube. Inserts for cutting can be arranged in the soil filling part.

The partition plate may have a protrusion that is convex downward. Soil is also filled in the protrusion, so that the area where the soil is disposed and the area where water or nutrients are stored by the partition plate.

The partition plate may include a flange portion in contact with an inner wall surface of the case. The flange portion fixes the partition plate to the case and partitions an area where soil and water are stored.

The partition plate may include a plurality of tube support holes formed in the flange portion, and the tube is inserted into and supported by the soil above the partition plate.

The protrusion may have a plurality of holes. Since the perforation hole is formed in the shape of a hole in the lower side and the side of the protrusion, it can be manufactured integrally with the partition plate. In addition, the projecting portion in which the perforation hole is formed may be manufactured in a mesh form and may be combined with the flange portion.

The protrusion may be a transparent material through which water can pass. That is, the protrusion may be implemented with a permeable material through which water can pass instead of having the perforation hole. The permeable material is a permeable membrane in the form of a semi-permeable membrane, and is made of a fiber material such as a non-woven fabric having excellent permeability to prevent the passage of soil contained in the case and to allow only water and nutrients to pass therethrough.

In addition, the protruding portion may include the permeable hole and a transmissive paper having a transmissive material therein.

The tube may have a tube inlet having a tapered shape in which the cross-sectional area of one end opening surface thereof gradually increases.

The tube may have a tube outlet whose other end passes through the tube support hole and is positioned in the water storage unit.

The cutting planter may further include a cover disposed on the upper portion of the case.

The cover may have a vent hole.

The vent may be located at the center of the cover.

The cutting pot for planting may further include a water storage unit formed by a space between the case and the protrusion of the partition plate when the partition plate is inserted into the case.

 Soil mixed with vermiculite and expanded pearlite is additionally disposed on the partition plate, and the soil is hardened by using an adhesive and can be dissolved by water.

Cutting pot for cutting according to the present invention because the roots and stems of the plant is planted in the soil filling of the pot, the plant survival time is prolonged, by the differentiation of the root, the flower or plant coronary period is long and according to the management method It can continue to grow.

In addition, it is easy to pack and carry, and it contains water and nutrients in the pot, so it is easy to continuously supply water and nutrients to flowers or plants.

1 is a block diagram of a potted plant for cutting according to the present invention,
2 is a plan view of a partition plate disposed in the cutting pot for cutting according to the present invention,
Figure 3 is a side view of the partition plate disposed in the cutting pot for cutting according to the present invention,
Figure 4 is a side view of a temporary example of the cutting pot for cutting the water is provided with the above-mentioned projecting portion in accordance with the present invention,
Figure 5 is a side view of an embodiment of a planter for cutting plantings are provided with a perforation hole in the form of a mesh in accordance with the present invention,
Figure 6 is a flow chart showing the cutting step cultivation according to the present invention.

Hereinafter will be described in detail with reference to the accompanying drawings the structure of the cutting pot for cutting and the cultivation method of the cutting plant according to the present invention.

1 is a block diagram of a cutting pot 100 for cutting according to the present invention. The cutting planter 100 includes a case 110, a partition plate 120, a tube 130. The soil filling unit 140 and the water storage unit 150 are disposed above and below the partition plate 120, respectively. The cutting planter 100 may further include a cover 160. The soil filling unit 140 is disposed with an insertion number 170 for cutting.

The case 110 has an empty space formed therein, filled with water and soil, and has an open top. Corresponding to the main body of the cutting pot 100 for cutting and can be made of a plastic material that is harmless to plant growth, such as polyethylene, PVC, etc. The shape is not limited to cylindrical, triangular or square or various other various forms It may have a cross section.

The case 110 may be made of a transparent plastic material so as to know the watering time from the outside to see the amount of water inside, the top is open as an opening while the bottom is not provided with a separate perforation hole In form. In addition, the surface of the case 110 may be color-treated to adjust the amount of light transmitted therein, thereby suppressing the occurrence of algae inside the case 110.

The partition plate 120 is disposed in the case 110 to partition an internal space of the case 110.

2 is a plan view of the partition plate 120 disposed in the cutting planter 100 according to the present invention, Figure 3 shows a side view of the partition plate 120, the partition plate 120 to the bottom A convex protrusion 121, a flange portion 122 contacting the inner wall surface of the case 110, and a plurality of tube support holes 123 formed in the flange portion 122 are provided.

The partition plate 120 is disposed inside and fixed to the case 110 by the protrusion 121 and the flange portion 122 disposed on the bottom surface of the lower portion of the case 110. The soil filling unit 140 and the water storage unit 150 are partitioned by the partition plate 120. The protrusion 121 corresponding to the inside of the partition plate 120 is filled with soil and serves to supply water to the upper soil by capillary action.

The protrusion 121 may be provided with a water hole 124 through which water can pass, Figure 4 is a cutting pot for cutting (100) provided with the water hole 124 in the protrusion 121 according to the present invention. Is a side view of a temporary example.

The perforation hole 124 may be formed at the bottom and side of the protrusion 121 in the form of a circular or square hole in the protrusion 121, the diameter of the case 110 should be smaller than the diameter of the soil particles inside the case (110) do. The shape of the perforation hole 124 is not limited to the circular shape may be implemented in the form of a square hole. The water permeable hole 124 prevents the soil contained in the case 110 from moving to the water storage unit 150 separated from the partition plate 120, while the water from the water storage unit 150 And nutrients are allowed to move inside the partition plate 120. Since the perforation hole 124 is formed in the protrusion 121, the partition plate 120 including the protrusion 121 and the flange 122 may be integrally manufactured.

Figure 5 is a side view of an embodiment of a cutting pot for cutting with a mesh-shaped hole (124) in the protrusion 121 according to the present invention. The protrusion 121 in which the perforation hole 124 is formed may be manufactured in the form of a mesh to be combined with the flange portion 121. The material of the mesh may be a wire mesh or cloth such as hemp or silk, and the mesh grid formed by the material prevents soil particles from passing through.

The protrusion 121 may be a transparent material through which water can pass. That is, the protrusion 121 may be formed of a transparent material through which water can pass instead of having the perforation hole 124. Referring to FIG. 3, unlike FIG. 4 to FIG. 5, the projection 121 does not include the perforation hole 124, and absorbs water or nutrients into the water storage unit 150 through the protrusion 121. In order to do this, the protrusion 121 may be made of a transparent material. The permeable material is a permeable membrane in the form of a semi-permeable membrane, for example, made of a fibrous material such as a non-woven fabric having excellent permeability and permeation to prevent passage of soil contained in the case 110 and permit only passage of water and nutrients. It is supposed to.

In addition, the protruding portion 121 may include the permeation hole 124 and a transmissive paper having a transmissive material therein may be disposed in the partition plate 120. Soil filled in the inside of the partition plate 120 by the permeable paper may be prevented from leaking into the water storage unit 150 by the water permeable hole 124 of the protrusion 121.

The flange portion 122 serves to fix the partition plate 120 inside the case 110. Since the flange portion 122 is fixed in contact with the inner wall surface of the case 120, it may take the shape of a circle, a square or the like according to the shape of the case 110. The flange portion 122 should be a material capable of maintaining a constant strength while preventing corrosion by water in the case 110, for example, may be made of plastic.

The tube support hole 123 is formed in the flange portion 122 and serves to support the tube 130 with respect to the soil filling part 140 as a hole into which the tube 130 is inserted and inserted. . According to the plan view of the partition plate 120 of FIG. 2, four tube support holes 123 are disposed on the circumference of the flange portion 122, but are not necessarily limited thereto. Can be variously modified.

The tube 130 penetrates through the partition plate 120 and extends below the partition plate 120. The tube 130 is a passage for supplying water and nutrients when cultivation using the plant for cutting after cutting, inserted into the tube support hole 123 to pass through the soil filling unit 140 and the insertion It serves to support 170 for the soil filling unit 140. The tube 130 is shaped like a straw, and the material may be polyethylene-based plastic. The tube 130 may be manufactured to be equal to the diameter of the tube support hole 123 so that the tube 130 may be inserted into and fixed in the tube support hole 123.

That is, in providing water or nutrients to the cutting pot 100, the water is not directly supplied to the upper portion of the soil, but the tube to the water storage unit 150 partitioned by the partition plate 120 Water and nutrients are stored through 140, and the water and nutrients are absorbed through the lower part of the soil. However, the tube 140 not only extends through the partition plate 120 and extends to the lower portion of the partition plate 120, but also penetrates the side surface of the case 110 from the outside of the case 110. It is also possible to directly supply water and nutrients to the space partitioned by the partition plate 120 through the tube 130. When water and nutrients are supplied from the outside of the case 110, water and nutrients may be directly supplied to the water storage layer 150 inside the case 110 without opening the cover 160. .

The tube 130 has a tube inlet 131 having a tapered shape in which the cross-sectional area of one end thereof gradually increases. In addition, the tube 130 has a tube outlet 132 whose other end is located in the water storage unit 150 through the tube support hole 123. The tube outlet 132 serves to discharge water or nutrients to the water storage unit 150, and may be manufactured integrally with the same diameter as the tube 130 as shown in FIG.

Since the tube outlet 132 is located in the water storage unit 150, water or nutrients are not directly supplied to the leaves or stems of the insert 170, but are injected through the tube inlet 131 to the tube. The water is stored in the water storage unit 150 formed under the case 110 through the outlet 132, the permeable hole 124 or the permeable material formed in the protrusion 121 of the partition plate 120 Absorbed into the soil filling unit 140 is supplied to the root.

Soil of the soil filling unit 140 is located inside or above the partition plate 120, Vermiculite (Vermiculite) and a mixture of expanded pearlite (Perlite) as an auxiliary material to increase the drainage and breathability, adhesive It is hardened by use and is dissolved by water.

When the vermiculite is heated with minerals containing three moisture of hygroscopic water, intermediate water and crystalline water, it expands by about 6 to 30 times due to peeling and expansion due to the pressure of water generated in the crystal. It is good, and it is used as a top soil material or fertilizer of pollen, and it is sterile by heat treatment and has high porosity, so it keeps moisture and keeps it out. In addition, the nutrient preservation ability is high, because it is a sterile state of acyclic cultivation for acyclic hydroponic cultivation, it can be used as a seed material for germination, cutting, seed capsules.

The expanded pearlite is prepared by mixing and swelling the pearlite at a high temperature and then mixing to an appropriate particle size. The expanded pearlite contains 70% or more of silicic acid (SiO ₂ ), which is non-toxic and odorless, and is an inorganic material having a pH of about 7.0. It contains voids, and when mixed with soil, improves drainage and breathability.

The soil filling unit 140 includes a first soil filling unit 141 disposed inside the protrusion 121 and a second soil filling unit 142 disposed above. Water and nutrients of the water storage unit 150 is absorbed into the first soil filling unit 141 through the permeable material of the protrusion 121 of the partition plate 120 or the permeable hole 124, and again Absorbed into the second soil filling unit 142, it is supplied to the stem and leaves through the root of the insert (170). The size of the particles of the mixed material disposed in the soil filling unit 140 is the size of the particles disposed in the first soil filling unit 141 which is the lower end in consideration of the size of the diameter of the perforation hole 124 2 is preferably larger than the size of the particles disposed in the soil filling unit 142.

The water storage unit 150 is formed by a space between the case 110 and the protrusion 121 of the partition plate 120 when the partition plate 120 is inserted into the case 110. do. Water or nutrients contained in the water storage unit 150 may be injected through the tube 130 after pre-injecting or filling the soil before the soil is filled in the case 110. have.

The cover 160 may be disposed on an upper portion of the case 110 and may include a vent hole 161. The cover 160 has a dome shape, and maintains the temperature and humidity of the air inside the case 110 higher than the surroundings, thereby serving to provide an environment favorable for the cultivation of the cutout 170. The vent hole 161 is formed in a circular shape in the center of the cover 160, so that the surrounding air is supplied into the case 110. The shape of the cover 160 is not limited to the circular dome shape as shown in FIG. 1, and the shape of the cover 160 may be freely modified according to the shape of the case 110 or the size of the insert 170. In addition, the vent hole 161 is not limited to being located at the center portion of the cover 160, but may be disposed so that a plurality of vent holes 161 are formed in the cover 160.

In the case of cutting, the proper temperature is about 25 ° C, the appropriate humidity is about 85 ~ 90%, because the low humidity, the shovel 170 is dry, if the humidity is high, the shovel 170 may be corrupted. .

The insert 170 corresponds to a plant for cutting, a portion of the root and stem is inserted into the second soil filling unit 142, the remaining stem and leaves are located above the second soil filling unit 142. do. The shape of the insert 170 is not limited to the embodiment of FIG. 1, but may be variously modified.

The cuttings 170 are distinguished as follows according to the type of organ or cutting of the plant. First, leaf shovel (葉 揷) is to use the leaves of the plant as a breeding material, it is used to breed herbaceous plants and greenhouse plants, which have a lot of renewable power. Among the leaf tissues, the use of leaf disease is carried out using African violet, begonia, peperomia, and leaf lobes, which can be classified into rubber tree, hydrangea, camellia, etc. by using Sansevieria, aloe, rex begonia, and leaf buds. Next, a light shovel (莖 揷) can be divided into a greenery shovel, a mating shovel, a dormant shovel according to the maturity of the branch by cutting the branches into a length of about 10cm, that is, cut into 3 to 4 nodes and inserting them on the shovel. The greenery shovel is a flexible branch that is growing in early spring. The leaf must be cut in half, and camellia, tooth tea, maple, larva, magnolia, etc. A shoji shovel is a kind of shovel that grows when the branch is hardened after the summer has stopped growing. There are four seasons, azawa, holly, and ginkgo. Dormant shovels use branches when they are dormant in late autumn or early spring. For evergreen conifers, it is advantageous to pick up the cuttings at low temperatures, including stag (rose rose), jacaranda, elderwood, fig, wisteria, quince. Finally, root shovel is a method of cutting and cutting roots of plants that are difficult to root. For example, the persimmon tree is not rooted at all by the usual method, but can be easily reproduced by the root shovel, and the regeneration is strong in proportion to the root thickness. From late March to mid-April, roots are cut to about 1cm thick from the main column, cut into 10cm lengths, and planted obliquely in the soil. There are famous trees, wisteria, persimmon, and lilac. The rooting promoting material of the insert 170 is an auxin hormone, and since auxin is contained in seeds and buds in large quantities, an infant cutting using an annual seedling as an insert is advantageous.

Figure 6 shows a flow chart showing the cutting cultivation step (S100) according to the present invention, the specific cutting sequence of the cutting number 170 is as follows.

Cutting inserting step (S100) cutting step of cutting the tip portion or the lower end portion of the branch of the plant to soak in water to absorb water (S110); An insert placement step (S120) to form a space for insertion of the insertion into the soil and to place the insertion into the soil; It includes a temperature maintaining step (S130) of closing the cover and maintaining the temperature and humidity until the roots of the insert.

The cutting cultivation step may further include a transplanting step (S140) for transplanting the root-generating plant in another pollen.

The first step (S110) is the cutting preparation step, so that the end portion of the branch of the herbaceous plant or woody plant grown in that year or the hardened portion of the lower end portion is cut so that the water is sufficiently absorbed. After cutting the light upper part of the cut eggplant, you can prepare it by leaving two leaves.The length of the eggplant is about 10cm, and the tip of the cut eggplant is cut 45 ° and then peeled only 2cm in the opposite direction. .

The second step (S120) is the spacing arrangement step, pour some water into the cutting pot 100 for softening the soil, and then form a space to insert the insertion into the soil, while pouring the remaining water while looking at the water level give. Eggplant prepared in the first step (S110) is inserted into the cutting planter 100 for a depth of about 2 ~ 3cm, the space to be inserted into the insertion hole to prevent the friction when cutting by drilling holes such as wooden chopsticks.

The third step (S130) is the temperature maintenance step, the cover 160 is closed and placed in a sunny window, it is advantageous to have a half shade through the surrounding shade in the strong sun, the temperature is 25 ° C. The degree is adequate. The half-shape can be maintained through a shading film of about 40-50% above about 40-50 cm from the cutting. Since it takes about 3 to 6 weeks for the roots to develop, wait until the roots are rooted, without pulling them out in advance, unless the insert 170 is dry.

The fourth step (S140) is the transplanting step, by transplanting the plant in which the root is generated in another pot, or leave the plant in the pot for cutting 100 to supply nutrition.

In the cutting cultivation step (S100) by inserting the thimble hardened with glue in the lower part of the insert (170) to insert the cutting can increase the success rate of the cutting, the thimble by adding the rooting promoter and fungicide 170) may be absorbed by the roots.

Types of rooting promoters include indole acetic acid (IAA), indolebutyl acid (IBA), naphthalene acetate (MAA), and the like, and dilute and wet the rooting promoter on the cut surface of the lower part of the cutout 170. There is a law. In addition, the environment inside the case 110 is high in temperature and humidity, suitable for germ growth, and gray mold disease is likely to occur. Therefore, before inserting, cutting and inserting the disinfectant powder with the rooting promoter in the cut and wound areas of the cutting unit 170, and using a captan 10% powder as a disinfectant, it is more necessary in the case of long rooting period .

Therefore, the potted plant for cutting according to the present invention is planted in the soil filling part of the root and stem of the plant, so that the survival of the plant is prolonged, the coronary period of the flower or plant by the differentiation of the root and the management method It can grow continuously accordingly. In addition, it is easy to pack and carry, and because it contains water and nutrients in the pot, it is easy to continuously supply water and nutrients to flowers or plants.

100: Cutting Pot
110: case 120: partition plate
121: protrusion 122: flange
123: tube support hole
130: tube 131: tube inlet
132: tube exit
140: soil filling unit 141: first soil filling unit
142: second soil filling unit
150: water storage unit
160: cover 161: air vent
170: cutting

Claims (11)

A case filled with water and soil inside;
A partition plate disposed in the case and separating an inner space of the case;
Cutting plant pots comprising a; extending through the partition plate to the lower portion of the partition plate. The method of claim 1,
The partition plate
Cutting plant pots, characterized in that provided with a convex protrusion to the bottom. The method of claim 1,
The partition plate
Cutting plant pots characterized in that it comprises a flange portion in contact with the inner wall surface of the case. The method of claim 3,
The partition plate
Cutting plant pots, characterized in that it comprises a plurality of tube support holes formed in the flange portion. The method of claim 2,
The protrusion
Cutting plant pots, characterized in that provided with a plurality of perforations. The method of claim 2,
The protrusion
Cutting plant pots, characterized in that the permeable material through which water can pass. The method of claim 1,
The tube is
And a tube opening having a tapered shape in which the cross-sectional area of one end thereof is gradually increased. The method of claim 1,
Cutting plant pots further comprising a cover disposed above the case. The method of claim 8,
The cover planter for cutting, characterized in that provided with a ventilation hole. 10. The method of claim 9,
The ventilation hole cutting plant, characterized in that located in the central portion of the cover. The method of claim 1,
Soil mixed with vermiculite and expanded pearlite is additionally arranged on top of the partition plate,
The soil is hardened using an adhesive, cutting planter, characterized in that dissolved by water.

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