KR20230160657A - Composition for pot seedling by using coffee waste, manufacturing kit and method therefor - Google Patents

Abstract

A composition for producing pot seedlings using coffee grounds, a production kit, and a production method thereof are disclosed. In the above, the composition for producing pot seedlings according to an embodiment of the present invention is characterized in that it includes coffee grounds, a natural material mixture, and aggregate.

Description

Composition for creating pot seedlings using coffee waste, manufacturing kit and manufacturing method thereof {COMPOSITION FOR POT SEEDLING BY USING COFFEE WASTE, MANUFACTURING KIT AND METHOD THEREFOR}

The present invention relates to pot seedlings, and more specifically, to a composition for producing pot seedlings using coffee grounds, a production kit, and a production method thereof.

Plants are producers of the ecosystem, supplying oxygen through photosynthesis, providing plant matter such as leaves, fruits, and grass to herbivores, the primary consumers, to sustain the species, and are the basis of the ecosystem, including carnivores that prey on herbivores. It plays a role.

Forests comprised of these plants occupy approximately 10% of the total area of the Earth and approximately 30% of the land area, and are a major habitat for living things, preserving biodiversity and having a significant impact on the water cycle and the creation and preservation of soil. It is an important factor. In addition, forests serve as lungs that absorb 45.6 million tons of carbon per year in Korea, while providing benefits as valuable economic resources in the forestry field such as wood and mushrooms, and as a space for relaxation for citizens such as hiking and recreational forests. .

However, forests and forests are being destroyed by development and forest fires. Taking the Uljin-Samcheok forest fire in March 2022 as an example, a vast forest of approximately 21,000 ha was burned. The problem is that these forest fires are constant, not intermittent. For example, according to recent statistics, an average of 470 forest fires occur per year. As a result, over the past 55 years, approximately 380,000 ha of forests have been destroyed by forest fires, which is approximately 6% of the country's land area. Meanwhile, as the frequency and scale of forest fires are increasing, disasters caused by large-scale forest fires are becoming a serious problem worldwide.

When a forest fire occurs, not only is the vitality of the forest lost, but it also causes property damage and human casualties to private homes and forestry facilities adjacent to the mountain area. In other words, the rhizosphere soil, which is formed by layers of fallen leaves of trees and plants, is also burned. The humus and humus layer, which is made up of the leaves of deciduous trees in the rhizosphere soil, is the best fertilizer made in nature and is the best fertilizer for plants. Soil is an important element of a forest, as it has a significant impact on the growth of forests and provides space for soil microorganisms to thrive.

However, when a forest fire occurs, the organic matter in the topsoil layer and the microorganisms that penetrate and distribute plant roots into the ground to absorb nutrients and moisture are destroyed. Therefore, the forest fire not only burns away plants, but also destroys seedlings or seeds for recovery. Even if planted, there is not enough nutrients for plants to grow, and it becomes a dead land where plants cannot grow smoothly. As a result, after a forest fire, it takes about 100 years or more for the area to be restored to soil where plants can grow smoothly.

In addition, if the humus layer and bark-shaped pieces of wood are burned away, raindrops may directly contact the soil during rainfall, which may affect soil loss and the occurrence of landslides after a forest fire. In particular, the occurrence of landslides after a forest fire may occur. When the roots die, they lose the strength they held on to the soil, which can cause landslides.

Uljin, Gyeongsangbuk-do is the largest habitat in Korea for mountain goats, a natural monument. It is estimated that about 10,000 ha, or half of the mountain goat habitat, has been destroyed due to forest fires. Forest fires cause serious damage not only to forests but also to animals living in the forests, and to plants and animals. It takes at least 5 to 10 years for plants such as woody plants to grow into the shrub layer that mountain goats seek as food, and artificial feeding must continue to be done to preserve endangered species until restoration.

Meanwhile, there are two ways to restore forests destroyed by forest fires: artificial afforestation (planting seedlings) and natural restoration (neglect).

The Korea Forest Service, local governments, private organizations, and companies usually try to restore forests by planting seedlings (trees), but there are problems with this artificial reforestation method.

Seedlings are transplanted to forest fire-affected areas through processes such as excavating, seeding, tying, planting, packaging, and loading the roots of trees growing in the ground. Basically, since the roots are cut, they are likely to die after being transplanted. There is a problem with a high probability.

The chance of survival for seedlings increases only when their roots are established in the newly moved soil. This requires supplying a large amount of water to ensure that the roots and soil of the seedlings adhere without any gaps. However, most forest fires occur in mountainous areas on slopes. Because of this, it is difficult to supply sufficient water. Therefore, even if seedlings are planted, it is difficult to supply water as described above, which inevitably lowers the survival rate.

In addition, in order to prevent the survival rate from decreasing, continuous maintenance is necessary, such as ensuring that sufficient water is continuously supplied even after planting the seedlings.

Meanwhile, planting seedlings is subject to many seasonal restrictions, and although there are differences for each species, the appropriate planting time is determined individually.

In general, seedling transplants are carried out on a limited basis in early spring and late fall, before or after the leaves appear. However, in the case of summer transplantation, it is easy for the plant to lack moisture due to the period of active transpiration, so not only do the roots of the plant need to be made at least 5 cm larger than those for spring or fall transplantation, but also pruning and leaf transplantation are necessary. Inhibition of transpiration is required through additional work such as sweeping, spraying transpiration inhibitors, and planting in shaded areas after digging.

Likewise, forest fires occur all year round, but the planting season for restoration is limited, making it difficult to carry out restoration activities effectively.

In addition, seedlings are bulky, so they are not easy to carry and move, and their management is difficult, as they must be stored to prevent the roots from drying out during the transportation process. In addition, equipment such as shovels and gloves is required to plant seedlings even after moving.

Because of these characteristics of seedlings, forest restoration projects are being carried out focusing on coniferous trees such as pine trees.

Coniferous trees have a higher seed germination rate than broad-leaved trees, have relatively less restrictions on seasonal planting times, and have higher survivability.

However, about 20% of the resin in coniferous trees is a volatile substance of the terrapin type, which releases a lot of heat energy when a forest fire occurs. Because of these oils, when a coniferous tree catches fire, powerful flames shoot upward, and if the wind is strong, embers can fly up to about 500 meters. It is vulnerable to forest fires as it blows away and creates new ignition points.

In addition, dense coniferous forests are vulnerable to pests and diseases such as pine wilt nematode. Accordingly, local governments are spending a lot of national budget on coniferous forest management, such as carrying out quarantine activities for trees infected with wilt disease and controlling the movement of such pine trees.

On the other hand, even if a forest fire breaks out in broad-leaved trees, the embers tend to spread along the layer of fallen leaves on the ground, making it relatively easier to extinguish forest fires compared to conifers. Therefore, it is necessary to reforest forests with broad-leaved trees that are resistant to forest fires, such as oak and cherry trees, which have moisture-rich leaves. In particular, efforts are needed to build fire prevention lines with broad-leaved trees in areas adjacent to residential areas and along roads.

In addition, as the average annual precipitation in Korea increases, broad-leaved trees can be considered more suitable for forest restoration than coniferous trees, which are relatively vulnerable to typhoons and torrential rain.

However, broad-leaved trees have a relatively low germination rate compared to conifers, and due to their characteristics of having wide leaf blades, the survival probability is very low even when planted as seedlings, so the planting period is more limited than that of conifers. In addition, as mentioned above, relatively more maintenance is required compared to coniferous trees, such as the process of pruning branches to reduce the number of leaf flies in order to reduce moisture transpiration as much as the cut roots.

Only about 30% of domestic mixed forests are relatively stable against forest fires, and although the Korea Forest Service is increasing the planting of broad-leaved trees, coniferous forests still account for about 40%, so alternative forests and forest restoration that focus on broad-leaved trees are required.

One of these alternatives is to restore the forest using seeds rather than using seedlings.

Seeds are seeds that come from plants, are small in size and light, and their supply price for forest afforestation is relatively cheaper than that of seedlings. Therefore, when considering not only the size of the vast area damaged by forest fires and the cost of transplanting seedlings, but also the time required for forest landscape and vegetation restoration (more than 25 years), settlement of wild animals (35 years or more), and soil restoration (100 years or more), etc. , it is more suitable to use seeds rather than seedlings as mentioned above.

Seeds naturally germinate when it rains and grow into trees. They are small and light, making them easy to carry and transport to their destination. In addition, when seeds are planted to restore forest fire-damaged areas, unlike seedlings, follow-up management is not necessary, and forest restoration can be attempted throughout the four seasons without restrictions on planting time, and there is also an advantage in creating a mixed forest using seeds of various tree species.

In nature, seeds made from trees and scattered by birds or wind do not germinate immediately, but seeds that fall to the ground are covered by organic matter such as fallen leaves over time, and only when appropriate germination conditions are met can they germinate and grow into trees. . In addition, germination conditions are different for each tree species, and the appropriate planting depth in the ground is different depending on conditions such as moisture and soil composition, and whether the seed characteristics are photogermination or dark germination. Simply sowing or planting the seeds germinates well and effectively creates a forest. This is not being restored.

In addition, the storage of seeds is difficult, as light, temperature, water, oxygen, harmful factors, etc. must be controlled and managed, and the germination rate varies greatly from seed to seed, so germination conditions and characteristics must be taken into consideration.

Because it is difficult to create and plant a germination environment according to the characteristics of the seeds of each tree species, forest restoration work using seeds has not been carried out in the past. However, research and development on forest restoration methods and materials using seeds is being conducted. Attempts are being made.

As one of these attempts, pots have been used for plant seedlings in the past, but the pots are flowerpot-shaped plastic pots made of plastic materials, etc., so in order to germinate seeds and plant them in the field, it is inconvenient to remove the plastic pot and plant it. there was. In addition, conventional ports are not rectangular ports with multiple ports integrated, but individually used plastic ports are thin (approximately 0.1 mm) and small in size, so it is difficult to recover them in the field, so the remaining ports are rather damaged. It has become a source of contamination in the field, and has become a source of contamination that is more difficult to recover, especially as it is torn by rotary blades such as tractors, managers, or cultivators.

In order to solve the above problems, ground pots were developed using peat such as peat moss as the main material and molded into circles or angles. Compared to plastic pots, which do not allow air to pass through, these pots have the advantage of being able to allow good air circulation and good root growth, and being able to plant seedlings without having to remove the pot after inserting the seedling medium and seeds inside.

However, conventional ground cover pots are made of fiber and have improved breathability compared to plastic pots, but there are limitations. Although the fibers that make up the ground cover retain moisture and help activate roots, their durability is very weak due to their material characteristics. There was a problem with the planting process.

However, although the conventional ground cover pot is made of fiber and has improved breathability compared to plastic pots, it has its limitations. Although the fibers that make up the ground cover retain moisture and help activate the roots, it is still difficult to exfoliate like a conventional plastic pot. Alternatively, there is a limitation of having to dig up the soil where the pot is to be planted using a machine such as a tractor and then plant it. This can be seen as the cause of low durability due to the material characteristics of the GP port.

Korean Patent Publication No. 10-2016-0091671 (Publication date: 2016.08.03.) Korean Patent Publication No. 10-2020-0095958 (Publication date: 2020.08.11.)

One object of the present invention is to provide a composition using coffee grounds for generating pot seedlings that contain seeds therein and can be planted directly in the soil without separate equipment.

Another object of the present invention is to provide a kit for manufacturing the coffee bean pot seedlings.

Another object of the present invention is to provide a method for producing the coffee bean pot seedlings.

The technical problems to be achieved in the present invention are not limited to the above technical problems, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below.

A composition for producing pot seedlings according to an embodiment of the present invention to solve the above-mentioned problems includes coffee waste, a natural material mixture, and aggregate.

According to one embodiment of the present invention, the coffee grounds may be dried to have a moisture content of 5 to less than 20% by weight.

According to one embodiment of the present invention, the coffee grounds may be mixed with at least one type of predefined microorganism in a predetermined ratio to form a medium.

According to one embodiment of the present invention, vegetable organic matter may be added to the formed medium.

According to one embodiment of the present invention, the vegetable organic matter may include rice straw, seed cake, sawdust, and salt water.

According to one embodiment of the present invention, the natural material blend includes dextrin, gluten, hydroxypropyl cellulose, pectin, wood fiber, dimethyl sulfoxide, sodium alginate, aloe gel, casein, modified starch, carnauba wax, and carboxymethyl. At least one from the group consisting of cellulose, xanthan gum, talc, guar gum, hydroxypropylmethylcellulose, plasticizer, calcium carbonate, calcium lactate, polyvinylpyrrolidone, ammonium alginate, agar, citric acid, sodium silicate, gum arabic, and starch. More than one species may be selected.

According to one embodiment of the present invention, the aggregate may include coal ash.

According to one embodiment of the present invention, the coffee grounds may have had caffeine removed.

A coffee waste pot seedling manufacturing kit according to an embodiment of the present invention includes a mold portion for accommodating pot seedlings produced including coffee waste, natural material mixture, and aggregate; a first case coupled to one surface of the mold part and including a protrusion to form a groove for seed insertion on the one surface of the coupled mold part; and a second case that is coupled to the other surface of the mold part and fixes the mold part.

A method for producing pot seedlings according to an embodiment of the present invention includes the steps of drying coffee grounds and forming a medium; Adding vegetable organic matter to the formed medium and maturing it to remove impurities from the coffee grounds; Mixing a natural adhesive blend and aggregate with the coffee waste from which the impurities have been removed; Adding water to make dough and molding it to create pot seedlings; Drying and hardening the generated pot seedlings; and forming a seed insertion hole and inserting the seed into the formed seed insertion hole.

According to various embodiments of the present invention, the following effects can be provided.

According to the present invention, it is possible to provide pot seedlings that can be planted directly in the soil without separate equipment.

According to the present invention, pot seedlings can be formed using a composition using coffee grounds and a mixture.

According to the present invention, it is possible to provide a pot seedling with greatly improved portability and mobility.

According to the present invention, it is possible to prevent damage to seeds settled inside the pot seedlings during the planting process as well as convenience in planting through pot seedlings with a predetermined strength.

According to the present invention, it is possible to easily satisfy the germination conditions of various seeds, and by using the physical property of being easily decomposed through contact with moisture after planting, the seeds can be easily harmonized with the soil in which they are planted, thereby helping the growth of the seeds. You can.

However, the effects that can be achieved through the present invention are not limited to this.

Figure 1 is a diagram illustrating a coffee bean pot seedling containing seeds according to an embodiment of the present invention.
Figure 2 is a diagram illustrating the process of planting coffee bean pot seedlings containing seeds in soil according to an embodiment of the present invention.
Figure 3 is a diagram illustrating a coffee bean pot seedling production kit according to an embodiment of the present invention.
Figure 4 is a flow chart showing a method of manufacturing coffee bean pot seedlings according to an embodiment of the present invention.
Figure 5 is a diagram illustrating a manufacturing kit according to an embodiment of the present invention.
Figure 6 is a diagram illustrating the appropriate number of seeds considering the germination rate of the seeds in relation to the present invention.
Figure 7 is a diagram showing germination using coffee bean pot seedlings according to the present invention.
Figure 8 is a diagram illustrating a manufacturing kit according to another embodiment of the present invention.
Figure 9 is a diagram illustrating the protection of coffee bean pot seedlings with seed insertion holes formed after soil planting according to an embodiment of the present invention.
Figure 10 shows a seed being inserted into a coffee bean pot seedling according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. The detailed description set forth below in conjunction with the accompanying drawings is intended to illustrate exemplary embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced.

These embodiments are provided solely to ensure complete disclosure of the present invention and to fully inform those skilled in the art of the scope of the invention, and that the present invention shall be defined by the scope of the claims. It's just that.

In some cases, in order to avoid ambiguity in the concept of the present invention, well-known structures and devices may be omitted, or may be shown in block diagram form focusing on the core functions of each structure and device. In addition, the same reference numerals are used to describe the same components throughout this specification.

Throughout the specification, when a part is said to "comprise" or "including" a certain component, this means that it does not exclude other components but may further include other components unless specifically stated to the contrary. do.

In addition, the term "... unit" described in the specification means a unit that processes at least one function or operation, and this may be implemented as hardware, software, or a combination of hardware and software. Furthermore, the terms “a” or “an”, “one”, and similar related terms may be used in the singular and plural in the context of describing the present invention, unless otherwise indicated herein or clearly contradicted by the context. It can be used in a meaning that includes.

In addition, specific terms used in the embodiments of the present invention are provided to aid understanding of the present invention, and unless otherwise defined, all terms used herein, including technical or scientific terms, refer to the present invention. It has the same meaning as generally understood by those with ordinary knowledge in the technical field to which it belongs. The use of these specific terms may be changed to other forms without departing from the technical spirit of the present invention.

Hereinafter, various embodiments according to the present invention will be described with reference to the attached drawings, as follows.

In this specification, pot seedling using coffee grounds containing seeds according to the present invention, a manufacturing kit for producing the pot seedlings, and various embodiments of the manufacturing method are disclosed. do.

The present invention relates to pot seedlings into which plant seeds made of coffee waste are inserted so that they can be planted by hand without equipment. To be described in more detail, plant seeds are placed inside coffee waste pot seedlings in the form of piles made of coffee grounds and vegetable mixture. By including it, you can plant plants by simply plugging them in without any equipment such as a shovel, and the coffee bean pot seedlings, which are hard like bricks, melt and decompose as moisture is supplied, creating good conditions for the seeds inside to germinate. At the same time, it is about coffee bean pot seedlings with plant seeds inserted, which play a role in supplying nutrients for the initial growth of seeds.

The coffee bean pot seedling of the present invention is not divided into the pot, the seedling medium inserted therein, and the plant seed, but is an integrated concept, and the pot seedling itself acts as a pot while providing nutrition to the plant. It is an all-in-one pot that serves as topsoil and contains plant seeds.

As a result of repeated research while considering the future direction and considering efficiency and effectiveness, we used coffee grounds that had been discarded as general waste to create a product that is environmentally friendly and inexpensive, and has a shape and strength that can be easily and conveniently planted without any additional tools. In addition, when exposed to moisture, it decomposes and becomes a form in which plants can grow, and because the characteristics of seeds that are difficult to germinate can be solved with the physical properties and internal structure of the coffee bean and the mixture, it is highly portable and mobile in the production area. Even broad-leaved trees that were difficult to plant as seedlings can be planted, there is no need for maintenance such as separate watering, and by creating a forest with a variety of plants including herbaceous plants, it has the advantages of both artificial and natural afforestation. A new concept of plant seed insertion type coffee waste planting tool that did not exist before was developed.

Hereinafter, the term “seed” described in this specification refers to a seed or seed derived from a plant, and there is no particular limitation on the species or variety of the seed.

In this specification, the term "coffee waste" may refer to the by-product remaining after extracting coffee liquid from coffee beans and processing it according to an embodiment of the present invention, which will be described later. Accordingly, in this specification, the To aid understanding and convenience of explanation, ??coffee grounds' and ??coffee grounds' may be used together, but may be expressed with different meanings. For example, in the case where ??coffee grounds' is used in this specification, the terms will be used as described later. As shown, while it represents general coffee grounds before removing impurities such as caffeine, 'coffee grounds' may represent processing to remove the impurities from coffee grounds according to an embodiment of the present invention. Therefore, , the coffee waste according to the present invention may have different physical properties from conventional coffee grounds. Therefore, even if hereinafter referred to as just coffee waste, it may refer to the coffee waste according to the present invention.

In this specification, “pot seedlings” may refer to coffee grounds containing seeds processed for planting according to the present invention. At this time, unlike conventional pot seedlings, the pot seedlings according to the present invention may have a certain strength so that they can be planted in the soil without the help of a separate device. In addition, the pot seedlings according to the present invention may have the property of naturally decomposing when in contact with or exposed to moisture such as water after planting. In this sense, pot seedlings according to the present invention can be differentiated from pot seedlings according to the prior art.

Figure 1 is a diagram illustrating a coffee bean pot seedling containing seeds according to an embodiment of the present invention.

Figure 2 is a diagram illustrating the process of planting coffee bean pot seedlings containing seeds in soil according to an embodiment of the present invention.

In Figure 1, a coffee bean pot seedling 100 containing seeds is shown.

The pot seedlings 100 are formed by molding the composition according to the present invention, that is, the processed coffee grounds. At this time, a manufacturing kit such as that in FIG. 3, which will be described later, can be used for the molding.

The coffee waste composition for producing pot seedlings according to the present invention will be described as follows.

The coffee waste composition can be formed using a mixture with coffee waste so that the pot seedlings into which the plant seeds according to the present invention are inserted can be planted directly in the soil without separate equipment, as shown in (a) of Figure 2. . After planting, as shown in (b) of FIG. 2, seeds can be germinated. At this time, the mixture may include at least one of, for example, an adhesive blend made of natural materials, aggregate, water, etc.

The coffee waste composition can be produced by mixing 60 to 45% of coffee grounds, 6 to 22% of an adhesive blend such as natural materials, 29 to 40% of aggregate, and 3.2 to 13% of water.

In the above, the coffee grounds can be used after removing impurities and undergoing a processing process according to the present invention, rather than being used as such. The detailed process is described in detail in the manufacturing method of FIG. 4.

In the above, adhesive formulations such as natural materials include dextrin, gluten, hydroxypropyl cellulose, pectin, wood fiber, dimethyl sulfoxide, sodium alginate, aloe gel, casein, modified starch, carnauba wax, carboxymethyl cellulose, xanthan gum, At least one selected from the group consisting of talc, guar gum, hydroxypropylmethylcellulose, plasticizer, calcium carbonate, calcium lactate, polyvinylpyrrolidone, ammonium alginate, agar, citric acid, sodium silicate, gum arabic, starch, etc. You can. In this case, the adhesive blend made of natural materials may be included in an amount of 10 to 60 parts by weight based on 100 parts by weight of coffee grounds, and is preferably mixed in an amount of 15 to 50 parts by weight.

According to an embodiment, the adhesive blend of the natural materials, etc. is composed of polyvinylpyrrolidone, agar, guar gum, carboxymethyl cellulose, modified starch, sodium alginate, wood fiber, pectin, xanthan gum, gluten, calcium lactate, and sodium silicate starch. At least one type selected from the group may be selected. In this case, the adhesive blend made of natural materials may be included in an amount of 18 to 48 parts by weight based on 100 parts by weight of coffee grounds, and is preferably mixed in an amount of 22 to 45 parts by weight.

According to another embodiment, the adhesive blend of the natural materials, etc. may be at least one selected from the group consisting of xanthan gum, sodium alginate, and calcium lactate. In this case, the adhesive formulation, such as natural material, may be included in an amount of 22 to 50 parts by weight based on 100 parts by weight of coffee grounds.

As a material that can be used in the above-mentioned formulation, pectin is a carbohydrate polymer that has a strong tendency to react with calcium, and is used as a coagulant and thickener in foods and can help increase bonding strength. Starch and gluten are mixed with water, and water can enter between the starches to act as a plasticizer, and gel-type paste can act as an adhesive. Casein can be used by dissolving with sodium hydroxide or sodium carbonate and is widely used in food manufacturing due to its high emulsifying and water holding properties. Calcium lactate is a calcium salt fortifier that is widely used to fortify foods with calcium and can help control acidity. Sodium alginate is a hygroscopic food additive that increases the adhesiveness or viscosity of food, improves emulsion stability, and can help improve physical properties and texture. Carboxymethylcellulose is non-toxic, hydrophilic, and adhesive, so it is used in fabric glue, dye paste, and adhesives. It is also used as a stabilizer for ice cream and jam. It is stable against heat and light, increases viscosity retention, and prevents mold and rot. there is. Xanthan gum does not decrease viscosity due to pH, and compared to other thickeners, xanthan gum has good viscosity, with no significant decrease in viscosity even when mixed with acidic or alkaline substances, and can help gradually increase viscosity depending on concentration. Guar gum is a polysaccharide composed of galactomannan, which is soluble in cold water, has excellent viscosity at the pH of coffee grounds, and has a viscosity that is versatile enough to be used in many food applications. Polyvinylpyrrolidone binds to chemicals and plays a role in reducing toxicity and irritation. It is soluble and helps maintain the effects of additives. Starch is a polysaccharide, an eco-friendly material that can be obtained from various plants, and is characterized by high hygroscopicity and swelling power. The swelling power of such starch can be further increased by oxidation by sodium hydroxide, etc., and corn starch, potato starch, etc. can be used. Starch can help improve structural strength while increasing viscosity through a cross-linking reaction with carboxymethylcellulose.

Depending on the embodiment, the adhesive mixture such as the natural material may be mixed with coffee grounds at a ratio of 1:5 to 1:2.5.

For example, when two types of sodium alginate and xanthan gum are selected as a mixture of the natural materials, etc., the mixing ratio may be 1 part sodium alginate and 2 xanthan gum. However, the present invention is not limited to the selected species and their mixing ratios.

In the above, sand, stone powder, etc. can be used as the aggregate, and in the present invention, in particular, coal ash made by rapidly cooling the ash remaining after burning coal in a thermal power plant, etc. can be mainly used. The coal ash, like plant ash, is a type of ash derived from plants and contains various mineral components.

The aggregate may be, for example, eco-stone, or coal ash left over from burning coal in a thermal power plant, but is not limited thereto.

In the above, coal ash includes fly ash and bottom ash, either of which can be used. Ash is basically rich in iron and manganese, which are helpful for plant growth, and is porous, so it can serve as pores for roots to breathe.

In the above, water can be used for mixing the coffee grounds composition at a ratio of 3.2 to 13%.

According to an embodiment, the coffee waste composition may be formed by mixing 12 kg of coffee grounds, 8 kg of aggregate, 2.6 kg of natural mixture, and 1.1 kg of water in a mixing ratio. However, the present invention is not limited to this.

Meanwhile, depending on the embodiment, the coffee waste composition according to the present invention may vary in the composition ratio of the pot seedlings, that is, the mixing ratio of coffee grounds, vegetable extract, water, etc., in consideration of the characteristics and circumstances of the soil in which the pot seedlings will be planted. Chemical fertilizer ingredients such as lime, phosphoric acid, and potassium may be mixed in proportions as needed.

The above-described or later-described materials or composition ratios thereof are an example according to the present invention, and the present invention is not limited thereto.

As shown in FIG. 1, the pot seedling 100 may have a predetermined shape so that a person can plant the pot seedling in the soil without additional equipment. The predetermined shape may have an overall cylindrical shape, but may have a wide upper surface and a narrow lower surface so that the pot seedlings can be easily planted in the soil and the insertion direction can be easily identified. According to an embodiment, the area of the lower surface may be less than 1/2 or 1/3 of the area of the upper surface, but the present invention is not limited thereto. Depending on the embodiment, the predetermined shape may include a cone, a triangular pyramid, etc. In the above, the upper surface of the pot seedling may be formed through molding, carving, or polishing to facilitate planting by applying pressure to the point or surface that touches the soil as much as possible. Meanwhile, the shape or structure of the pot seed may be implemented in a form other than the above-described form based on various reasons such as manufacturing conditions and mold structure in addition to the above-mentioned reasons.

Meanwhile, as shown in Figure 1, the height of the coffee bean pot seedlings may be about 5 to 20 cm, and the diameter of at least one of the upper and lower surfaces may be 3 to 20 cm. Additionally, the weight of the coffee bean pot seedlings may be 100 to 1000 g. However, this is an embodiment of the present invention, and is not limited to this, and is appropriate in consideration of portability or convenience of storage in a storage space such as a box during delivery or movement so that anyone, regardless of age or gender, can conveniently plant coffee bean pot seedlings in the soil. can be decided.

In addition, when the pot seedling according to the present invention is planted in the soil without separate equipment, the seeds contained inside the pot seedling can be seated at the desired depth, that is, they may be exposed to the outside and damaged before reaching the depth, or they may be damaged until the desired depth. It can have appropriate hardness so that problems such as not being able to reach the target do not occur.

As shown in Figure 2, when planting seedlings or seeds, it was inconvenient to adjust the planting spacing by visually checking the stem of the plant or the soil trunk into which the seed was inserted, but in the present invention, a plant seed insertion type coffee bag pot Due to the physical and uniform shape of the seedlings, visual estimation and measurement are convenient, making it easy to control the planting spacing.

Figure 3 is a diagram illustrating a coffee bean pot seedling manufacturing kit (hereinafter referred to as a “manufacturing kit” for convenience) according to an embodiment of the present invention.

Referring to FIG. 3, the manufacturing kit may include a first mold part 321, a second mold part 322, a first case 331, and a second case 332.

The first mold part 321 and the second mold part 322 are combined and seated in the first case 331. The internal space of the first mold part 321 and the second mold part 322 seated in the first case 331 can accommodate the coffee grounds mixture 310. The shape of the coffee waste mixture 310 accommodated in this way can be determined according to the shape of the internal space of the first mold part 321 and the second mold part 322, and hardening can be achieved.

The second case 332 is coupled to the other surface of the first mold part 321 and the second mold part 322 coupled to the first case 331, and the combined first mold part 321 and the second mold part 322 are coupled to the first case 331. It may act to harden the coffee waste mixture 310 accommodated in the internal space of the mold portion 322.

Depending on the embodiment, the second case 332 may be excluded from the manufacturing kit of the present invention. However, in the second case 332, there is a risk of foreign substances or insects entering the coffee grounds mixture 310 contained in the internal space of the first mold part 321 and the second mold part 322, It may be a required configuration.

Depending on the embodiment, when the first case 331 is formed at a predefined height, the second case 332 may be excluded from the manufacturing kit of the present invention. For example, if the first case 331 accommodates up to 1/2 to 1/3 of the total height of the combined first mold part 321 and the second mold part 322, the first mold part 321 There may be no problem in curing the coffee waste mixture 310 contained in the internal space of 321 and the second mold part 322, and in this case, the second case 332 may be unnecessary.

A protrusion may be provided in one area of the inner lower surface of the first case 331. At this time, the protrusion may be used to form a groove for inserting seeds into the coffee grounds mixture 310. Accordingly, the height of the protrusion may be lower than or opposite to the height of the first case 331.

Meanwhile, one surface of the first mold part 321 and the second mold part 322, which are coupled or seated so that the protrusions formed on the first case 331 can act, are designed to accommodate the protrusions when combined. A groove may be formed.

Referring to FIG. 3, the outer peripheral surfaces of the first mold part 321 and the second mold part 322 are largely composed of two parts, and the first part is a part coupled to the first case 331. The outer peripheral surfaces of the first mold part 321 and the second mold part 322 and the inner space of the first case 331 may be formed to a size that allows them to contact each other.

Meanwhile, the second part is a part that is coupled to the second case 332, and similarly, the sizes of the outer peripheral surfaces of the first mold part 321 and the second mold part 322 and the inner space of the second case 332 are different from each other. It can be formed to a size that can be touched.

Referring to FIG. 3, the size of the first case 331 is larger than the size of the second case 332. However, it is not limited to this and may be the opposite, and the size of the two cases may be the same.

The inner circumferences of the first mold part 321 and the second mold part 322 may be formed to have a constant slope from the upper part where it is coupled with the second case 332 to the lower part where it is coupled with the first case 331. . Referring to Figures 1 and 3, the coffee bean pot seedlings are cylindrical or conical in shape with a wide upper part and a narrow lower part, and the coffee bean mixture accommodated in the internal space of the first mold part 321 and the second mold part 322 ( 310) can be hardened and the shape of the internal space can be determined to have the same structure. However, the present invention is not limited to this. As described above, the shape of the coffee bean pot seedlings may vary, and the inner circumferences of the first mold part 321 and the second mold part 322 may be determined according to the shape determined accordingly.

Depending on the embodiment, a groove is formed on the outer circumferential surface of at least one of the first mold part 321 and the second mold part 322, rather than the protrusion formed on the above-described first case 331, or a protrusion is formed on the inner circumferential surface. to form the seed insertion hole. The groove formed on the outer peripheral surface above has a penetrating structure and is intended to enable a seed insertion hole to be formed on the received coffee grounds mixture 310 later using a specific device. At this time, the groove may have a flat structure, but the mechanism for forming the seed insertion hole is tilted so that the seed insertion hole is formed inside the coffee grounds mixture 310 while having a predetermined slope rather than being horizontal to the coffee grounds mixture 310. It can be formed so that it can be inserted with. At least one such groove or protrusion may be formed. When a plurality of grooves or protrusions are formed, their positions may be determined depending on the characteristics of the seed. Meanwhile, these grooves or protrusions may be provided in a continuous form with a predetermined size so that the user can arbitrarily form a seed insertion hole depending on the variety. In addition, at least one groove and protrusion may be formed simultaneously on at least one of the first mold part 321 and the second mold part 322.

Depending on the embodiment, the protrusion formed on the first case 331 may be formed on the second case 332 or may be formed on both cases simultaneously. Alternatively, after the second case 332 is finally coupled to one surface of the first mold part 321 and the second mold part 322, the upper surface of the second case 332 is detachable to form a seed insertion hole. Or, at least one groove may be formed. Through these grooves, the user can use a predetermined tool to form a groove into which seeds will be inserted at a desired location in the coffee grounds mixture 310.

In the present invention, coffee grounds mixture 310 or various other materials can be used to fill the groove formed along the seed insertion hole, and a separate stopper can also be used. Through this, it is possible to prevent the seeds inserted into the coffee bean pot seedlings from being separated from them before or during the planting process.

According to the present invention, the first mold part 321 and the second mold part 322 have a structure that can be coupled to each other, so that the coffee grounds mixture 310 can be produced without the above-described first case 331 or second case 332. It is also possible to form a coffee waste composition by receiving and curing.

According to another embodiment, according to the present invention, the first mold part 321 and the second mold part 322 are implemented as an integrated piece, so that the coffee waste can be removed without the above-described first case 331 or second case 332. The mixture 310 may be received and cured to form a coffee waste composition.

In the embodiments of forming the coffee grounds composition without the first case 331 or the second case 332, the upper and lower surfaces of the first mold part 321 and the second mold part 322 are used to insert seeds. It may have a structure such as a groove on the outer surface or a protrusion on the inner surface.

In Figure 8, a coffee bean pot seedling manufacturing kit according to another embodiment of the present invention is shown.

Depending on the embodiment, in the case of a cylindrical coffee bean pot seedling, a plant seed insertion hole having a depth of 0.3 to 5 cm and a diameter of 0.1 to 2 cm may be formed at the upper end in the opposite direction to the general insertion direction. The plant seed insertion hole is not limited to a specific location such as the top, side, or bottom of the coffee bean pot seedling, but may be provided in a vertical or curved direction, such as in a portion of the outer peripheral surface of the coffee bean pot seedling, toward the center of the coffee bean pot seedling.

Depending on the embodiment, the shape of the hole is generally circular, but is not limited to a specific shape such as a triangle or square, and the shape of the hole can also be formed in various forms, such as being formed vertically or widening or narrowing toward the center of the coffee bean pot. A space may be provided into which plant seeds can be inserted. In addition, seeds are usually placed in a separate space provided inside, but if necessary, they can be manufactured by attaching seeds to the outer circumference of the coffee bean pot seedlings or by using the coffee bean pot seedlings and seeds separately.

Depending on the embodiment, the length and width of the coffee bean pot seedling are flexibly adjusted according to the size of the plant seed inserted into the coffee bean pot seedling, and in the same context, the size of the plant seed insertion hole is not limited to the above size. It can be manufactured by adjusting the width and shape length flexibly.

In addition, the seed size of the plant and the size of the coffee bean pot seedlings presented above are not proportional, and in the case of coffee bean pot seedlings produced not only for forest fire damage recovery purposes, but also for urban parks and flower beds and for home use, the required moisture content and fertilizer are Depending on needs such as amount or planting spacing, it can be made larger or smaller than the size of the seed.

Depending on the embodiment, the size of the coffee bean pot seedling not only changes compared to the size of the plant seed, but can also be flexibly adjusted depending on the soil quality of the soil in which it is planted, the climatic characteristics of the planting area, and the season. As an example, in the case of a dry climate such as a desert, functions such as increasing water holding capacity can be intentionally adjusted by increasing the thickness and size of the coffee bean pot seedlings.

Depending on the embodiment, if the soil contains a lot of sand composed of particles with a thickness of 0.05 to 2.0 mm, drainage and breathability may be high, but water retention and holding capacity are insufficient. In particular, as vegetation disappears due to forest fires, moisture evaporation from the land is reduced. If the height may interfere with the smooth growth of vegetation, the coffee bean pot seedlings can be intentionally adjusted for the purpose of increasing the size of the coffee bean pot seedlings and assisting in moisture retention.

In addition, in areas with large seasonal changes, for example in Korea, where the four seasons are distinct, the thickness and size of coffee bean pot seedlings may be increased to provide more moisture for spring planting than for fall planting. Some of the shapes may change flexibly depending on the shape.

Meanwhile, the above-described coffee waste pot seedling manufacturing kit not only produces coffee waste pot seedlings, but can also be used as an educational material for classes related to art and environment in the educational field such as elementary schools through simplification and practical use of the production process.

Figure 6 is a diagram illustrating the appropriate number of seeds considering the germination rate of the seeds in relation to the present invention.

The number of seeds inserted into the coffee waste pot seedlings according to the present invention may be, for example, 1 for woody plants and 1 or more for herbaceous plants.

At this time, the germination rate of the inserted seed can be increased through seed coating. However, for the purpose of the situation, for example, when 100% germination is required, a plurality of seeds may be inserted even in the case of woody plants according to the germination rate for each plant seed shown in FIG. 6.

Referring to Figure 6, there may be deviations depending on the condition of the seeds collected, but for example, by inserting four or more seeds of sea pine with a germination rate of 88.0% into the coffee bean pot seedlings, there is a probability close to 100% of germination. You can decide as much as possible.

However, in the above method, if several plants germinate at the same time, their growth may worsen over time due to competition between them, and as they grow and become lignified, they may merge or attach to each other, making it difficult to use wood in the future. As economical usability may be low, the inserted plant seeds should be minimized as much as possible, but considering the seed coating and/or characteristics of each plant seed, the position such as insertion depth and nutritional components can be mixed according to the characteristics of each seed.

Depending on the embodiment, the location of the seeds included in the coffee bean pot seedlings may vary depending on the characteristics of the seeds.

In general, seeds are sown at a depth of about 2 to 3 times the size of the seed, but in the present invention, different seed insertion depths can be adjusted for each type of seed by considering the germination conditions of the seed such as light germination and dark germination. there is. For example, in the case of photogermination, the rate or probability of exposure to light can be increased by adjusting the insertion depth so that it is inserted at a close depth in the direction opposite to the planting direction, based on the cylindrical coffee bean pot seedlings. It can be done. Conversely, in the case of female germination, the coffee bean pot seedlings can be inserted at a depth close to the same direction as the planting direction using a similar principle so that they are not exposed to light or are exposed to a minimum of light.

Depending on the embodiment, the insertion depth of the seed inside the coffee bean pot seedling may be proportional to the size of the seed, as in the case of photogermination, there are generally many fine or ultrafine seeds, but the seed size must be Even though it is small, it may not be inserted at a shallow depth. In addition, even for seeds of the same type, the insertion location and number may vary depending on the TZ test or apparent specific gravity measurement results, post-ripening time, salt test results, etc. For example, in the case of light germination, there may be deviations depending on the appropriate planting depth for each seed, such as insertion at a depth of 0.02 to 7 cm or more. Meanwhile, the depth difference between dark germination and light germination may be 0.1 to 10 cm or more.

Depending on the embodiment, the depth deviation according to the characteristics of each seed may not necessarily be determined to be exposed to light as described above by referring to photogermination. For example, tobacco seeds are light-germinating seeds, but they can germinate (dark germination) even in the dark if exposed to high temperatures or treated with chemicals such as kinetin or nitrate.

Depending on the embodiment, the type of seed inserted into the coffee bean pot seedling is not limited, and includes a wind spread cloth, an animal spread cloth, a dehiscent extrusion cloth, and a water flow spread cloth. ), all seed types can be included, including acorn fruit-like droplets. For example, in areas affected by forest fires, sessile plants such as pine trees, which are relatively easy to disperse seeds as sessile organisms, can be grown effectively through coffee bean pot seedlings. In general, animal-dispersed or dehiscence-dispersed seeds can be preferentially included. , but is not limited thereto. In other words, the seeds inserted into coffee bean pot seedlings are not based on their type, and the type and species of seeds inserted and planted may vary depending on the altitude, topography, climate, etc. of the location where the coffee bean pot seedlings are to be planted.

Depending on the embodiment, the type of seed inserted into the coffee bean pot seedling is not limited to woody plants but may also include herbaceous plants, and may also include lichens and ferns. Therefore, it is possible to restore a forest close to a natural forest in an ecologically balanced manner by using various plant species such as flowers in addition to trees.

In addition, various plants, such as hydrophytic plants (sun-growing plants), mesophytes (semi-shade-loving plants), and shady-loving plants (shade-loving plants), classified according to the intensity of light, can be planted through coffee bean pot seedlings. However, depending on the light intensity, the insertion position, that is, the height, in the coffee bean pot seedling may be different. Therefore, it is possible to create a healthy forest with dense vegetation with different characteristics for each tree species.

In addition, plants with various characteristics, such as hydrophytic plants (sun-growing plants), mesophytes (semi-shade plants), and necrophytic plants (shade-loving plants), classified according to the intensity of light, can be planted simultaneously in the soil through coffee bean pot seedlings. Specifically, depending on the light intensity, the position at which the coffee bean pot seedlings are inserted into the soil, such as a mountain, that is, the arrangement, can be varied. Therefore, it is possible to create a healthy forest with dense vegetation with different vegetation characteristics depending on the light intensity.

On the other hand, since woody plants take a long time to grow, planting herbaceous plants through coffee bean pot seedlings during the resulting gap period can produce a short-term restoration effect, further reducing the risk of landslides in areas where forest fires occur compared to seedlings.

Depending on the embodiment, the coffee bean pot seedlings according to the present invention can be used not only for forest restoration purposes in forest fire-damaged areas, but also for vegetation creation in agriculture and forestry fields, parks and flower beds, etc.

The coffee waste pot seedling according to the present invention can create an internal space for plant seeds to fit the germination conditions by injecting and compressing the dough made by mixing and stirring the above coffee grounds and mixture through a production mold.

Plant seeds inserted into the coffee bean pot seedlings may, if necessary, be treated for pest control to prevent pests and diseases, and may be treated to modify the seed's appearance to increase productivity.

The coffee bean pot seedlings can be cured using a wet, high-temperature drying method to reduce breathability, serve as an insulator for seeds, and create crack-free coffee bean pot seedlings to enhance seed storage.

The coffee bean pot seedlings can be hardened by wet, high-temperature drying or freeze-drying to reduce breathability, serve as an insulating material for seeds, and create coffee bean pot seedlings without cracks to enhance seed storage. In addition, when producing the coffee bean pot seedlings using a pot seedling production kit, they can be produced by drying at room temperature.

After inserting the plant seeds into the inner space of the coffee waste pot seedlings customized to the germination conditions of each seed through the above process, the dough is added and dried and hardened or cork is molded into a cork shape and the coffee waste pot seedlings are finished with a finishing material such as dried coffee waste. It can also be manufactured so that the seed insertion hole formed in is closed.

For example, referring to Figure 9, after planting the coffee bean pot seedlings into which the seeds according to the present invention are inserted into the soil, as shown, in order to minimize the effect on seed germination, such as seed damage due to impurities, etc., a cork stopper is installed. etc. can be used.

In addition, Figure 10 shows seeds being inserted into coffee bean pot seedlings.

Furthermore, in order to preserve the coffee bean pot seedlings and the seeds inserted inside the coffee bean pot seedlings, if necessary, apply vegetable oil or varnish to the surface of the coffee bean pot seedlings, or place them in a plastic bag such as polyethylene, a zipper bag, or vacuum packaging. You can also perform tasks such as sealing.

Figure 4 is a flow chart showing a method of manufacturing coffee bean pot seedlings according to an embodiment of the present invention.

FIG. 5 is a diagram illustrating to help understand the manufacturing process when manufacturing a kit for educational purposes, unlike the process using machines and devices as shown in FIG. 4.

In step S101, the coffee grounds are dried.

At this time, before the drying step, coffee grounds collected from cafes, local governments, businesses, etc. can be sieved to filter out straws and tissues.

The sieved coffee grounds can be dried to have a moisture content of less than 5 to 20% by weight. Depending on the embodiment, if the storage period is short, the drying plant may be omitted and the next step may be performed immediately.

In step S102, a medium is formed.

At this time, the medium is for removing caffeine from coffee grounds, and as described above, at least one type of microorganism selected from microorganisms such as lactic acid bacteria, yeast , Actinomycetales, filamentous fungus, Pseudomonas fulva, and photosynthetic bacteria is used in step S101. It can be formed by mixing dried coffee grounds in a ratio of 0.1:100 to 1:10.

In step S103, vegetable organic matter is added to the medium formed in step S102.

At this time, the vegetable organic matter may include rice straw, rice straw, sawdust, salt water, etc., as described above.

In step S104, the medium added to the vegetable organic matter in step S103 is aged.

At this time, the maturation may be performed at a temperature of 18 to 35° C. for about 3 to 10 days or more after supplying moisture to the medium, that is, coffee grounds mixed with microorganisms.

After going through step S104, impurities, that is, caffeine, can be removed from the coffee grounds.

In step S105, the coffee grounds from which caffeine has been removed through step S104 are dried again to remove moisture and sterilize.

In step S106, the dried coffee grounds are separated and selected.

At this time, step S106 is to separate and select the dried coffee grounds into uniform particle sizes of a predefined threshold (e.g., 3 mm or less) using a means such as a vibrating sieve (machine). .

In step S107, the natural adhesive blend and aggregate are mixed into coffee grounds of uniform size through step S106.

At this time, the adhesive mixture of the natural material may be made of at least one material selected from natural materials such as agar, guar gum, calcium lactate, sodium alginate, and xanthan gum. Additionally, the aggregate may be, for example, coal ash.

Step S107 is a process of uniformly mixing aggregates such as coffee waste, natural adhesive mixture, and coal ash.

In step S108, moisture is added to the mixed coffee waste composition and converted into clay.

At this time, the clay conversion can be accomplished by kneading after adding water to a mixture of coffee waste, an adhesive mixture made of natural materials, and aggregate at a ratio of 1:0.22 to 1:0.5.

At this time, you can use a kneader, etc. to mix the dough uniformly and viscously.

Afterwards, the clay-based dough is measured and inserted into a mold, silicone mold, or mold made by 3D printing.

In step S109, coffee bean pot seedlings are formed.

At this time, the coffee bean pot seeds can be formed to be uniform by increasing the compressive strength using equipment such as a hydraulic press such as a hand press, a vise, and a mold.

At this time, the coffee bean pot seeds can be formed uniformly and firmly by increasing the compressive strength using equipment such as a hydraulic press such as a hand press, a vise, and a mold.

In this process, a space into which plant seeds can be inserted can be created using equipment such as a hydraulic press such as the hand press, a vise, and a mold.

In this process, a mold that protrudes from an overall plate shape in the form of a protrusion on the outer circumferential surface is created using equipment such as a hand press to create a space for plant seeds to be inserted through equipment such as a hydraulic press, vise, etc. It can be compressed to create a space for plant seeds to be inserted.

In step S110, the formed coffee bean pot seedlings are dried.

At this time, methods such as wet high temperature drying, freeze drying, and room temperature drying may be used for the drying. For example, the wet high temperature drying may be performed at, for example, 40 to 90°C. The room temperature drying may take a certain amount of time. Through this S110 step drying process, the coffee bean pot seedlings can be hardened to have rigidity.

In step S111, a seed insertion hole is formed after the drying process in step S110.

Plant seeds or/or coated plant seeds, etc. can be inserted into the dried coffee bean pot seedlings through the seed insertion hole formed in this way, and materials that fix the position of the seeds can be added.

In step S111, the seed insertion hole can be formed by processing using a drill or the like after the drying process of step S110.

If the seed insert hole in step S109 is formed before drying in step S110, the seed insert hole forming step in step S111 may be omitted.

At step S112 (engraving step), the plant variety, company name, and trademark can be engraved by engraving or embossing using a laser marking machine, laser engraving machine, or sculptor.

In step S113 (seed insertion step), plant seeds or/and coated plant seeds are inserted into the dried coffee waste pot seedlings, and topsoil or dried coffee waste powder is used to prevent damage to the seeds and enable future germination. You can fill the remaining space by adding ingredients.

In step S114, finishing work is performed.

At this time, the finishing can be done by using a cork, a stopper made of coffee grounds, or the like on the coffee bean pot seedlings into which the plant seeds are inserted.

Afterwards, the desiccant and coffee bean pot seedlings can be packaged using vacuum packaging, plastic packaging, etc., or paper boxes.

Meanwhile, referring to FIG. 5, the first case 331 is first placed, and the molds 321 and 322 are combined and inserted into the fixing groove on the first case 331.

Afterwards, the dough made by mixing the coffee waste and the mixture with water is put into the mold.

After the injection, the first case 331 coupled with the molds 321 and 322 is turned over to form a seed insertion hole through the protrusion formed on the first case 331.

Thereafter, at least one seed is inserted through the formed seed insertion hole, and the second case 332 is coupled to perform a drying or curing process.

Thereafter, at least one seed is inserted through the formed seed insertion hole, the second case 332 is combined, and the dough around and the outer peripheral surface of the seed insertion hole rises in the process of forming the seed insertion hole through the first case 331. is compressed and flattened, and the inserted seeds are compressed and covered so that they do not escape to the outside.

Thereafter, the first case 331 and the second case 332 are removed, and the molds 321 and 322 are removed from the moisture-containing coffee bean pot seedlings.

Thereafter, by performing a drying or curing process at room temperature, pot seedlings using the completed coffee waste composition can be obtained.

A more detailed description of the method for removing impurities (i.e., caffeine) from coffee grounds in the above process is as follows.

More than about 10,000,000 tons of coffee grounds, which are used as a material for the composition of the present invention, are generated worldwide every year, and according to data from the National Assembly Research Service, about 150,000 tons of coffee grounds are generated annually in Korea as well, and each year for disposal thereof, A cost of approximately 35 billion won is incurred.

There are attempts to recycle coffee grounds in various fields such as deodorants, manure, bricks, and pencils, but they are considered insufficient in terms of quality to replace everyday consumer products made of commonly used materials such as existing chemical products and plastics. You can. As a result, the majority of cafes are still disposing of waste in large volume-based bags as general waste.

Nevertheless, coffee waste is a resource that can be used as an excellent fertilizer and material. Therefore, in this specification, the ingredients and physical properties of coffee grounds are used as a material for pot seedlings containing seeds that can be used to restore forests damaged by forest fires according to the present invention, and this will be described below.

According to one embodiment, in the present invention, impurities contained in coffee grounds, especially caffeine, can be removed as follows and used as coffee grounds.

A medium can be formed by mixing at least one of coffee grounds, rice bran, seed cake, rice water, etc. in a predetermined ratio.

Caffeine contained in the coffee grounds can be removed by supplying moisture to the medium formed in this way and aging it for a predetermined period of time at a predefined temperature.

Microorganisms may be used in the above process. At this time, the microorganisms may include lactic acid bacteria, yeast , Actinomycetales, filamentous fungus, Pseudomonas fulva, photosynthetic bacteria, etc., and at least one or more of the microorganisms may be selected and used.

In the above, the coffee grounds may be coffee grounds dried to a water content of less than 5 to 20% by weight.

In the above, the predetermined ratio may be a ratio of 0.1:100 to 1:10 between the material and the coffee grounds, but is not limited thereto.

In the above, the predefined temperature may be, for example, 18 to 35°C, but is not limited thereto.

In the above, the predetermined period may be, for example, 3 to 10 days or more, but is not necessarily limited thereto.

The decaffeinated coffee waste processed through the coffee waste fermentation process can be used immediately, and if it needs to be stored, it is advisable to dry it and store it with a moisture content of around 10%.

According to the present invention, pot seedlings made from coffee waste from which caffeine has been removed using the above microorganisms have a faster growth rate (e.g., twice) compared to pot seedlings made from coffee waste without it.

In addition, when using pot seedlings made from coffee grounds from which caffeine has not been removed, leaf withering of the plants and weakening of the water force are observed, indicating that the growth of the plants is hindered.

As described above, in pot seedlings using a coffee waste composition containing plant seeds according to the present invention, until they are planted in the soil and decomposed by exposure to moisture, the fine powder of coffee waste has low breathability and insulation properties, so that the seeds While improving storage, seeds can be inserted into the composition according to the germination conditions for each seed species, thereby increasing the germination rate. In addition, pot seedlings using the coffee waste composition according to the present invention not only have a predefined strength or hardness so that they can be conveniently planted in the soil without a separate tool such as a shovel, but also naturally decompose when moisture is supplied by rain, etc. The physical properties change so that plant seeds can germinate, and the high moisture content and uniform moisture supply of the coffee waste composition with decomposition and changed physical properties can promote the germination of plant seeds, and the mixed ingredients used in the coffee waste composition can be used as fertilizer. It can play a role in increasing the growth power of plants.

In the above, the strength or hardness is, for example, a compressive strength of at least 5 to 10 N/mm ² (preferably, 8 N/mm 2). It may be defined as above, but is not necessarily limited thereto. This strength can be determined, for example, by considering the strength to enable a person to easily plant coffee bean pot seedlings in the soil without separate equipment such as a shovel or pickaxe.

Figure 7 (a) shows that both coniferous trees (left) and broad-leaved trees (right) are growing well through coffee bean pot seedlings, and Figure 7 (b) shows plants and coffee growing on general topsoil (left). A comparison of the growth of seeds through bak pot seedlings is shown, and Figure 7 (c) shows the growth of seeds (left) of coffee bak pot seedlings that did not ferment microorganisms and the seeds of coffee bak pot seedlings that fermented the microorganisms (right). ) shows the growth of. In particular, in Figure 7 (c), it can be seen that the leaves of the seeds contained in the coffee bean pot seedlings that did not ferment microorganisms turn yellow and dry during the growth process.

Meanwhile, through the pot seedlings having the predetermined strength determined as above, the user can not only easily plant them in the soil, but also prevent the seeds contained therein from being broken or damaged during the planting process. In addition, due to the physical property of the pot seedlings being decomposed upon contact with moisture, they can also serve as fertilizer for plant seed germination and can be adapted to germination conditions.

This coffee waste composition can be used in various fields such as bricks, pencils, and flower pots, as well as pot seedlings described in the present invention.

The coffee bean pot seedlings according to the present invention have physical properties that decompose when moisture is absorbed after planting, making them similar to soil soil, and have superior breathability compared to conventional ground cover pots.

In addition, the coffee waste pot seedling according to the present invention retains moisture for a long time due to the physical properties of the coffee waste and the mixture, and can help the expansion of young roots sprouted from seeds and strengthen water washing based on the characteristics of the coffee waste powder with small particles and fine particles. It has a more improved effect than the conventional GP port.

In addition, the coffee waste pot seedlings according to the present invention have a predetermined strength and are significantly improved in durability compared to conventional ground cover pots. For this reason, not only the convenience of planting, but also the convenience of storing and moving the plants are excellent.

Depending on the embodiment, the coffee grounds, which mainly constitute the coffee waste pot seedlings, are coffee by-products remaining after grinding coffee beans made by roasting green beans from which the outer skin, pericarp, inner skin, and silver skin have been removed from the coffee fruit, and then extracting them at home or in a cafe. , It is composed of high carbon content of about 50.0%, contains no salt, and is rich in protein and mineral components, which helps the growth of plant seeds. Specifically, it contains carbohydrates including glucan and galactomannan, crude fat, crude fiber, It contains many useful ingredients such as crude protein and first ash. In addition, coffee grounds also contain a large amount of phenolic compounds and lipid components, including lignin, which can help the germination and growth of plants.

Depending on the embodiment, in step S107, if the natural adhesive is used in excess of the preset range, germination may be hindered due to uneven disintegration due to moisture after planting, and strong Friction and adhesion may cause deterioration in the quality of the outer surface of coffee bean pot seedlings. Conversely, if the leading edge adhesive is used below the preset range, the strength of the coffee bean pot seedlings may decrease and the moisture and air sealing ability to protect the seeds may also decrease.

Meanwhile, the ratio of the adhesive blend of natural materials, the blend of coffee waste and aggregate, and water is mixed at a weight ratio of 100:5 to 30, but it is preferable to mix at a weight ratio of 100:7 to 25 or 100:9 to 20. This may vary depending on the drying state of the coffee grounds, and if necessary, there may be differences in the ratio of water mixed depending on the fertilizer and material strengthening material added to the coffee bean pot seedlings, and if mixed and kneaded outside the above range. This is because the strength may become uneven, the processability may be poor, such as clumping, and the degree of deformation of the coffee bean pot seedlings due to moisture evaporation during the drying process may become severe, making it difficult to preserve seeds or plant them in the soil. am.

Referring again to Figure 3, the mold used in the mass production and manufacturing process can be manufactured from alloy steel, aluminum, gypsum, urethane, plastic, wood, etc., and the coffee waste dough formed through the above process has a specific shape like clay. It is easy to mold to make, so it is convenient to shape it by pressing or compressing it by hand. When compressing, if you increase the compression strength, you can obtain stronger coffee bean pot seedlings.

Depending on the embodiment, in the coffee waste pot seed molding step, the molds 321 and 322 may be manufactured as an integrated or separate type, as described above, and may also be manufactured as household and educational molds, which will be described below.

Depending on the embodiment, in the coffee waste pot seed molding step, the molds 321 and 322 may be manufactured as an integrated or separate type, as described above, and may be used as home and educational molds, etc., which will be described below.

The molds 321 and 322 are made of a material that is elastic or flexible, so that even after the clay-based dough is put into the molds 321 and 322, the molds 321 and 322 can be molded into various shapes before hardening by utilizing the characteristics of the molds 321 and 322 themselves. there is.

The molds 321 and 322 are made of a material that is elastic or flexible, so that when the coffee bean seedlings containing moisture are removed for drying after the clayd dough is introduced into the molds 321 and 322, the molds 321 and 322 are elastic. Alternatively, it can be easily removed and separated by taking advantage of its flexibility.

Depending on the embodiment, in the process of producing coffee bean pot seedlings using a mass production and manufacturing process or an educational production kit, when making a plant seed insertion hole in a coffee bean pot seedling, the size and length of the insertion hole made depending on the species of the seed. With a deviation, the plant seed insertion hole is not manufactured using molds and devices such as molds 321 and 322 and hand presses, but the seeds are inserted using objects or objects such as straws and chopsticks that can be inserted at least a certain depth in the direction of the center of the coffee bag pot seedling. An insertion port may be formed.

Depending on the embodiment, when making a plant seed insertion hole in a coffee bean pot seedling, there is a difference in the size and length of the insertion hole made depending on the species of the seed, and the first case 331 for educational purposes and the hand press in the mass production process are used. Rather than making a plant seed insertion hole with a device such as a device, the seed insertion hole can be formed using an object or object that can be inserted at least a predetermined depth in the center direction of the coffee bean pot seedling, such as a straw or chopsticks, before the drying process.

Depending on the embodiment, the drying method of the coffee bean pot seedlings is a wet, high-temperature drying method, which minimizes the difference in moisture and dryness between the inside and outside of the coffee bean pot seedlings while curing it to lower breathability and provide seed insulation and coffee bean pot seedlings without cracks. You can strengthen the storage of seeds by making them, and if necessary, you can freeze-dry them to make coffee bean pot seeds with a smoother surface and less chance of cracking, and dry them by freezing the moisture contained in the dough and vaporizing it with a vacuum. In addition, when it is necessary to quickly produce a large amount of coffee waste pot seedlings, the thickness of the coffee waste pot seedlings can be formed relatively thin and dried at room temperature.

Depending on the embodiment, it can be manufactured by inserting a plant seed into the seed insertion hole and then sealing the plant seed insertion hole of the coffee waste pot seedling with a cork or a finishing material made of coffee waste material molded and dried with the above dough. In the above, cork is a plant's protective tissue that is produced by the division of the cork cambium. In particular, the cell wall is thick due to the deposition of a polymer of fatty acid called suberin, is difficult for water or gas to pass through, and has high thermal insulation and elasticity so that plant seeds germinate before planting. It is suitable for delaying.

Additionally, in addition to the above method, the dough may be dried and hardened after being finished by adding it at least once.

Depending on the embodiment, in order to preserve the coffee bean pot seedlings and the seeds inserted therein, vegetable oil and varnish are uniformly applied to the surface of the coffee bean pot seedlings, or, if delivery and storage are necessary, after production of the coffee bean pot seedlings. It can be sealed with a plastic bag such as polyethylene, a zipper bag, or a vacuum seal. By inserting a moisture absorbent during the sealing, damage to coffee bean pot seedlings, which may be decomposed by moisture, can be prevented before planting.

By inserting a moisture absorbent during the sealing, damage to coffee bean pot seedlings, which may be decomposed by moisture, can be prevented before planting, and the seeds are prevented from being exposed to moisture, thereby increasing the lifespan and preservation of the seeds.

Depending on the embodiment, in these embodiments, the material of the coffee waste pot seedling according to the present invention may be a new type that is not known in the past and may employ a material that has strength but is decomposable under predetermined conditions. Therefore, the present invention is not limited by the materials disclosed in this specification.

Depending on the embodiment, the coffee bean pot seedlings have the same strength as a brick through the above ratio, so that they are easy to insert into the soil, but when completely saturated with moisture, for example, they can be decomposed within at least about 1 to 2 hours, and can be used in the open field. If exposed to moisture due to precipitation after planting, it may decompose within about 8 to 15 hours at the most, and if water is supplied separately after planting coffee bean pot seedlings in the soil without precipitation, it may disintegrate within at least about 14 to 20 hours. It can be broken down to provide air to the plant's seeds and allow them to take root. However, the present invention is not limited to the above values. For example, since the decomposition has many variables depending on the soil environment and climate vegetation distribution in which the coffee bean pot seedlings are planted, there may be variations in the speed and extent of the decomposition, but the coffee bean pots are planted as hard as a stone. When seedlings are exposed to moisture quickly or continuously, their strength weakens and they decompose, blending with the soil in which they are planted, allowing plants to grow well.

Meanwhile, depending on the embodiment, the decomposition rate can be arbitrarily adjusted, and in that case, the size and mixing ratio described above may vary. Additionally, depending on the characteristics of the seed, the decomposition time for each seed may be adjusted using its combination and size.

Depending on the embodiment, the coffee bean pot seedlings can germinate simply by being exposed to moisture due to precipitation or planted soil, without separate maintenance or moisture supply. Specifically, after moisture supply, coffee When seeds inserted into pot seedlings meet the optimal growth temperature for germination, they germinate naturally and grow into plants.

In order to intentionally increase the temperature suitable for germination, it is possible to easily adjust the temperature for growth by adding insulating materials such as peat moss or sawdust, but it is difficult to realistically control the temperature in an environment where germination is difficult, such as winter. As a result, they germinate and grow as the season or temperature of the planted environment changes.

Depending on the embodiment, the coffee waste pot seedlings are composed of fine particles of porous coffee grounds, and have a high moisture content due to their unique physical properties, making it easy for seeds to germinate by steadily supplying moisture to seeds in extremely dry conditions due to damage from forest fires. Conditions can be formed. In addition, the coffee bean pot seedlings make it easy for seeds to take root after germination due to the fine particle size and high fixation force. In addition, coffee grounds not only retain moisture well, but also have excellent breathability due to the tissue characteristics of plant cells, creating smooth conditions for plants to grow.

The pores in the form of decomposed coffee bean pot seedlings and coffee bean pot seedlings obtained by mixing coffee bean with the coffee bean to be described later have a property in which the water can be temporarily stored and maintained due to the surface tension of water, and this capillary water allows plants to grow. It can absorb moisture smoothly, allowing plants to grow smoothly even in situations where transpiration is high due to trees burning in a forest fire and being directly exposed to direct sunlight. This is especially true when the area where the forest fire occurred has soil with good drainage, such as sand. Coffee grounds can play a big role in the survival of plants.

Depending on the embodiment, the coffee bean pot seedlings into which the plant seeds are inserted have high adaptability and survival because they grow while taking root, unlike seedlings with damaged roots. Although there may be differences in growth depending on the year of the seedlings, it is more certain. It is a way to restore areas affected by forest fires and can play a big role in effectively creating forests.

Depending on the embodiment, broad-leaved trees, which are resistant to forest fires and landslides, have very limited disadvantages, such as the transplanting period for seedlings is only 2 months on average between February and March or October and December due to their wider leaves and vigorous growth compared to conifers. However, since broad-leaved trees that are difficult to plant as seedlings can be planted without time restrictions through the coffee bean pot seedlings into which plant seeds according to the present invention are inserted, there is an advantage in efficiently creating a mixed forest.

In addition, there is an advantage in that broad-leaved trees, which have a high probability of dying when planted as seedlings, can be planted effectively based on a high survival rate by planting them in the form of seeds through coffee bean pot seedlings.

Depending on the embodiment, the mixing ingredients may be appropriately selected depending on the soil quality or vegetation conditions of the place where the coffee bean pot seedlings are planted and installed. Depending on the nature of the soil into which the coffee bean pot seedlings are inserted, stone powder, sawdust, or soil may be included as needed to increase strength. Depending on the embodiment, in the case of small-grained clay consisting of particles of about 0.01 to 0.05 mm or less, water retention capacity and holding capacity are good and nutrients such as K, Mg, H, and Na are relatively rich, but drainage and ventilation are poor, so You can mix soil, green clay, sand, rockwool, etc., and because microorganisms can multiply excessively, you can include microbial inhibitors, etc., according to the need for chemical knowledge that can improve the soil quality through general knowledge. The interior of the coffee bean pot seedlings The ingredients can be adjusted flexibly due to their physicochemical properties.

In addition, the coffee bean pot seedlings may be composed of coffee bean as the main ingredient to form organic fertilizers, or they may be made into by-product fertilizers by adding lees or adding nitrogen, phosphoric acid, etc. for the purpose of strengthening the roots of plants. there is.

Depending on the embodiment, zeolite in powder form of 100 to 400 mesh, coco peat, etc. pulverized to a size of 0.7 to 2 mm may be mixed with the coir residue. In the above, zeolite and coke peat may be mixed in a weight ratio of 1:5 to 3.5:1, and mixed with coffee waste and plant extract mixture in a ratio of 50:1 to 5:1 to maintain uniform moisture. You can do it.

For example, in accordance with some soil damaged by a forest fire that occurred in Uljin in March 2022, coffee bean pot seedlings were made with 50 to 90% by weight of coffee bean and plant extract blend, 5 to 30% by weight of peat moss, 1 to 5% by weight of perlite, 7 1 to 20% wood fiber measuring 2 to 25 mm, 3 to 10% by weight powdered zeolite and ground cocopity, 1 to 2.5% vermiculite and 0.1 to 1% fertilizer, 0.01 to 3% yucca extract, 0.1 to 1% humic acid. %, 0.2 to 1% by weight of oak charcoal, 1 to 3% by weight of auxiliary materials, and 0.05 to 1% by weight of wood vinegar, and can be manufactured with excellent breathability, absorbency, water retention capacity, and cation exchange capacity.

Such mixing according to the needs of the soil is not a major skill, but can be changed depending on the situation by anyone with general chemical knowledge. The main content of the present invention is to increase the germination rate of seeds by utilizing the physical properties of coffee grounds, while also This is about coffee bean pot seedlings, which are easy to insert plant seeds into and plant without any additional operations or processes. Generally, excellent germination and seed germination rates can be seen in the soil with just the coffee bean pot seedlings themselves without adding any additional materials, but it forms the best germination conditions. This can be said to show that various things can be combined according to the soil situation to achieve this.

In various embodiments, coffee bean is the main ingredient among the compounds constituting the coffee bean pot seedlings, but since it is a material that is generally easy to obtain in urban areas where cafes are located or where coffee consumers are concentrated, the coffee bean pot seedlings are used as coffee bean pot seedlings. Coffee waste is used to produce coffee waste. It is generally made from coffee waste, but it is not limited to coffee waste, and beer waste - a by-product of alcohol production by removing starch and sugar from barley - or rice husk powder, soybeans, rapeseed, cottonseed, and peanuts. Sesame seeds, small pieces of wood such as sawdust, or peat moss, a carbonized organic material, can be used to replace coffee grounds to make plant seed insertion type pot seedlings.

Sesame cake is used with the same meaning as oil cake, and is a general term for the residue produced by extracting oil from plant seeds. Coffee waste also borrows the name of oil cake to refer to coffee grounds. Accordingly, the material of the coffee waste pot plant can be produced using any oil foil in addition to coffee grounds.

Depending on the embodiment, the coffee bean pot seedlings, which are mainly composed of coffee grounds, serve as an insulating material and buffer zone to insulate the seeds in winter, but if necessary, the above rice husk, sawdust, peat moss, etc. are added to the mixture when producing the coffee bean pot seedlings. This can further increase insulation properties. In addition, during the production of coffee waste pot seedlings, rice husks, etc. are not added to the mixture, but are separately attached to the outer circumference of the coffee waste pot seedlings or added to the inside of the plant seed insertion hole of the coffee waste pot seedlings, thereby increasing insulation properties and preventing plant seeds from entering the winter. You can increase the germination rate by preventing loss of vitality or loss of vitality due to temperature changes and cold.

Coffee grounds have a strong scent and high retention capacity, so when pot seedlings are planted in the open ground with plant seeds inserted, they cut the roots of the plant's rhizosphere and disturb the sense of smell of moles, which are harmful birds that hinder growth. It can have a repellent effect. Moles have deteriorated vision but have developed senses of touch, hearing, and smell, so they are very sensitive to smells. They have a habit of hunting by detecting the movement and smell of earthworms that have fallen into their burrows, so the above-mentioned coffee bean pot seedlings are exposed to precipitation, etc. As it decomposes and is absorbed into the soil, the olfactory repellent effect can be seen.

Depending on the embodiment, in order to enhance the effect of eliminating moles' sense of smell through the strong scent of coffee grounds, when garlic peel is crushed and added by 1% to 30% to the mixture of coffee waste pot seedlings, the strong scent of garlic and coffee grounds are removed. It has an auxiliary role and function in driving away moles by creating an environment that moles olfactorily avoid through its strong scent, making it difficult for moles to find food.

Depending on the embodiment, the coffee bean pot seedlings can be produced with minimal functionality at home or school, etc. through an educational plant seed insertion production kit. The production kit may consist of a small case, two separate molds, a large case, plant seeds, coffee grounds according to the above mixing ratio, and mixed powder.

Depending on the embodiment, in consideration of the fact that work immersion deviations occur during production for children and people with developmental disabilities, the mold has an individual mold separation structure and a mold combination structure. Specifically, you can use a separate production kit that can produce one coffee bean pot seedling, and even in the case of a production kit made of three or more, considering concentration and learning ability, you can produce three or more at the same time. It is possible to produce only two pieces, so it is structured to increase productivity while taking into account the work variations of children and people with developmental disabilities.

According to the embodiment, as shown in FIG. 8, in consideration of the fact that work immersion deviations occur during production for children and people with developmental disabilities, etc., an individual mold separation structure and a mold combination structure are used. Specifically, you can use a separate production kit that can produce one coffee bean pot seedling, and even in the case of a production kit made of three or more, considering concentration and learning ability, you can produce three or more at the same time. It is possible to produce only two pieces, so it is structured to increase productivity while taking into account the work variations of children and people with developmental disabilities.

According to the embodiment, the educational plant seed insertion type pot seedling production kit is a design inspired by fast-growing bamboo, and is designed with the hope that coffee bean pot seedlings will grow quickly and restore the forest. It is designed with various color points to help people with developmental disabilities and It is designed to stimulate children's curiosity, and is designed using only curves to minimize injuries in situations other than those used for making coffee bean pot toys, and has a straight anti-slip feature on some of the outer surfaces of the small and large cases. It is characterized by forming a total of 4 lines, 2 each, to increase work efficiency in the process of making slippery dough.

Depending on the embodiment, in addition to producing coffee bag pots for educational purposes, the kit itself can be used for various purposes, such as interior objects in cafes, etc., through various productions and arrangements.

Depending on the embodiment, the cone-shaped fixing groove formed in the small case serves to fix two separate molds, and also serves to create a space for seeds to enter the coffee bean pot seedlings, and the cone-shaped fixing groove It is characterized by a hole through the bottom of the two separate molds drilled into the shape to discharge more moisture than the recommended amount for the dough.

Depending on the embodiment, the large case serves to compress the coffee grounds and the mixture, and after inserting the seeds, it serves to cover the seeds by compressing the dough protruding from the fixing groove of the small case.

Depending on the embodiment, in order to plant a large amount or quickly plant coffee bean pot seedlings, a seeding machine or seedling transplanter, such as a mechanical device or device used in the agricultural field, may be used. The above devices are devices used to sow seeds without having to bend one's stomach, or to sow seeds quickly and uniformly in large quantities.

The coffee bean pot seedling of the present invention is also a pot seedling with plant seeds inserted inside, and rather than a seeder for sowing small seeds, it is a device that quickly puts bulky things such as pepper seedlings or seed potato seedlings into the soil holes provided in the soil. It's closer to using it. Using these seeders, they can be quickly inserted and planted in areas affected by forest fires.

As described above, in terms of structure, the coffee waste planting device containing plant seeds according to the present invention has fine powder of coffee waste, has low breathability and insulation, improves seed storage, and seeds inside the pot seedlings. Seeds can be inserted to suit the germination conditions for each species, increasing the germination rate. In addition, it has a certain strength so that it can be planted easily and conveniently in the ground without tools such as a shovel, but when moisture is supplied by rain, etc., the physical properties change so that the plant seeds can germinate by naturally decomposing, and the decomposition and physical properties change. The high moisture content and uniform moisture supply of this changed coffee bean pot seedling can promote the germination of plant seeds, and the mixed ingredients such as coffee bean can act as fertilizer to increase the growth power of plants.

In terms of efficiency, the coffee waste planting device containing plant seeds according to the present invention is more than 1/2 cheaper than the forest planting seedlings of the Korea Forest Service, allowing the above-mentioned coffee waste pot seedlings to restore a larger area of forest at less cost. It is possible, and according to the needs of each seed, the external appearance of the seed is modified and treated for pest control, and useful microorganisms, various nutrients, oxygen supplies, etc. are added, and through sterilization, seeds resistant to pests and diseases are added to the coffee bean pot seedlings to grow into plants. There is a high possibility that it will grow into a plant naturally without additional work or follow-up maintenance by simply plugging it into the ground in a shape such as a stick. It is small and light, making it convenient for packaging and shipping in large quantities, and can be stored in remote areas such as high-altitude mountains. It is convenient to carry, store, and plant.

In terms of effectiveness of the coffee waste planting device containing plant seeds according to the present invention, broad-leaved trees that are difficult to plant as seedlings can be planted in forest fire-damaged areas through coffee waste pot seedlings, and even woody and herbaceous trees such as conifers and broad-leaved trees can be planted in volume, Various types of plant seeds can be planted without restrictions on timing or management, creating a forest with ecological balance. The short-term restoration effect of herbaceous plants in the gap between long-term restoration of woody plants reduces the risk of landslides in areas where forest fires occur compared to seedlings. Unlike seedlings, which are highly likely to die, they grow roots and have high adaptability and survival. Unlike seedlings, they can be planted all year round without restrictions on planting time, allowing immediate restoration work to be done in the event of forest fires that occur year-round.

In terms of utilization of the coffee waste planting device containing plant seeds according to the present invention, it can be planted easily and conveniently regardless of gender or age, thereby reducing participation restrictions and entry barriers in forest restoration projects, and in addition to forest restoration such as forests, agriculture and forestry It can be used for plants in fields, etc., and it is also used to create vegetation in parks and flower beds, so the coffee waste planting device has high plant and economic versatility, and is used to adjust the appropriate planting interval of plants in forest restoration, agriculture, and forestry fields. Unlike identification by plant stems, etc., spacing adjustment is convenient due to its clear shape, and chemical components can be freely included depending on soil conditions, but in general, the coffee bean pot seedlings are composed mainly of natural ingredients that are not harmful to the human body, so they are safe. In addition to the use of planting plants, the process of producing the above coffee bean pot seedlings can be simplified and practical through the above production mold, so they can be used and applied as topics and materials for environmental and art classes in the educational field such as elementary schools. Highly versatile.

In addition to the use of planting plants, the process of producing the coffee waste pot seedlings can be simplified and practical through the coffee waste pot seedling production kit and mold, and can be used as a subject and material for environment and art classes in the educational field such as elementary schools. It has high versatility and application.

Those skilled in the art related to the embodiments of the present invention will understand that the above-described material may be implemented in a modified form without departing from its essential characteristics. Therefore, the disclosed methods should be considered from an explanatory rather than a restrictive perspective. The scope of the present invention is indicated in the claims, not the detailed description of the invention, and all differences within the equivalent scope should be construed as being included in the scope of the present invention.

100: Coffee waste pot seedlings
310: Coffee waste mixture
321: first mold part 322: second mold part
331: first case 332: second case

Claims (10)

A composition for creating pot seedlings, including coffee grounds, natural material blends, and aggregates. According to paragraph 1,
The coffee grounds are,
The composition is dried to have a moisture content of 5 to less than 20% by weight. According to paragraph 2,
A composition in which the coffee grounds are mixed with one or two or more types of predefined microorganisms in a predetermined ratio to form a medium. According to paragraph 3,
A composition in which vegetable organic matter is added to the formed medium. According to paragraph 4,
A composition wherein the vegetable organic matter includes rice straw, seed cake, sawdust, and salt water. According to clause 5,
The natural material blend includes dextrin, gluten, hydroxypropylcellulose, pectin, wood fiber, dimethyl sulfoxide, sodium alginate, aloe gel, casein, modified starch, carnauba wax, carboxymethyl cellulose, xanthan gum, talc, and guar gum. , hydroxypropylmethylcellulose, plasticizer, calcium carbonate, calcium lactate, polyvinylpyrrolidone, ammonium alginate, agar, citric acid, sodium silicate, gum arabic, and starch. A composition selected from the group consisting of at least one or more. According to clause 6,
A composition wherein the aggregate includes coal ash. According to paragraph 1,
The coffee waste is a composition from which caffeine has been removed. A mold portion that accommodates the pot seedlings produced including coffee grounds, natural material blends, and aggregates;
a first case coupled to one surface of the mold part and including a protrusion to form a groove for seed insertion on the one surface of the coupled mold part; and
A coffee bean pot seed manufacturing kit comprising a second case that is coupled to the other side of the mold portion and fixes the mold portion. In the pot seedling manufacturing method,
Forming a medium after drying coffee grounds;
Adding vegetable organic matter to the formed medium and maturing it to remove impurities from the coffee grounds;
Mixing a natural adhesive blend and aggregate with the coffee waste from which the impurities have been removed;
Adding water to make dough and molding it to create pot seedlings;
Drying and hardening the generated pot seedlings; and
A method of producing pot seedlings comprising forming a seed insertion hole and inserting seeds into the formed seed insertion hole.