KR102350714B1 - Mushroom Growth Container - Google Patents

Abstract

The present invention relates to a mushroom cultivation container for cultivating cordyceps, comprising: a neck having an inlet; and a body connected to the neck and into which a grain medium can be accommodated through the inlet, the body being a first connected to the neck and a second part connected to a part and a bottom, wherein the cross-sectional area of the second part gradually decreases as the distance from the first part increases, and the diameter ratio of the body and the neck is 19:14 to 17.

Description

Mushroom Growth Container

The present invention relates to a mushroom cultivation container.

Cordyceps, in a broad sense, refers to all kinds of mushrooms that parasitize insects, and about 300 to 400 species have been discovered around the world. About 80 species were discovered in Korea.

Representative insects that Cordyceps parasites are bees, ants, dragonflies, butterflies, cicadas, stink bugs, beetles, flies, and spiders. These insects are invaded in the state of eggs, larvae, pupae, and adults. Mushrooms produced by insects infected with Cordyceps Cordyceps have many beautiful colors such as red, yellow, purple, green, black, white, orange, and olive.

Cordyceps is very difficult to detect because of its small size and difficult habitat. They are usually found in natural areas with clean air, high humidity, and moderately shaded trees.

Cordyceps is a kind of mushroom named after it resides in the body of insects in winter and appears like grass in summer. Cordyceps Cordyceps, a type of fungus, is an insect parasitic medicinal mushroom that enters the body of a living insect. Insects infected with Cordyceps fungus do not rot even if they die until mushrooms appear, and the characteristic feature is that they retain their 'mummy'-like shape.

Japan and China are the countries where most recent animal experiments and clinical studies on Cordyceps Cordyceps are being conducted, but they are also being actively studied in Taiwan, the United States, and Europe, including Korea. Recent studies have shown that it has anti-cancer, immune enhancement, anti-fatigue, and anti-aging effects. Research results published in Japan and the United States also report that they have anticancer effects, immune enhancement, suppression of immune response after kidney transplantation, and blood sugar lowering effects.

Cordyceps cordyceps is consumed a lot among mushrooms, but the amount collected from nature is very small and cannot meet the demand. However, cordyceps has a slow growth rate and is very difficult to cultivate because it is a plant that cannot spray pesticides because it is sensitive to the external environment. Although successful in mass cultivation, it is known that the yield of cordyceps cultivation is low even in farms that have been cultivating it for a long time. That is, if 10 are cultivated and harvested, about 1 or 2 are contaminated or abnormal strains grow, which lowers the yield.

Currently, the most used methods for the cultivation of cordyceps are the larval pupa Cordyceps cultivation method, which is grown by directly inoculating the silkworm larvae, the brown rice + pupa chrysalis cordyceps cultivation method, which is grown by inoculating bacteria in a medium mixed with silkworm pupa powder and brown rice, and the cultivation It is a cultivation method in which germanium components are strengthened in the method, and it is common to inoculate in a sterile state and cultivate it on a flat plate or cultivate it in a bottle like other mushrooms.

In general, a bottle (hereinafter referred to as a container) used for mushroom cultivation consists of a body having a growth space, and a neck connected to the body and having an entrance. And unlike general sawdust medium, the medium using grains can be prepared as food after harvesting Cordyceps. However, there were many difficulties in small-scale farms without a dedicated dearmoring facility due to the narrow neck of the bottle.

Registered Patent No. 10-0804597 (2008.02.12.) Registered Patent No. 10-1396646 (2014.05.12.)

The present invention provides a container for mushroom cultivation that has a wide entrance and a narrow bottom, which makes it convenient to harvest Cordyceps and facilitates decontamination of the grain medium without a degassing machine, thereby enhancing convenience and economy.

A mushroom cultivation container according to an embodiment of the present invention is to grow Cordyceps Cordyceps, and includes a neck having an inlet, and a body connected to the neck and capable of receiving a grain medium inside through the inlet, the body comprising the a first part connected to the neck and a second part connected to the floor, wherein the cross-sectional area of the second part gradually decreases as the distance from the first part increases, and the diameter ratio of the body and the neck is 19: 14 to 17 All.

It is coupled to the neck and further includes a cover for closing the inlet, and at least a portion of the inner perimeter of the cover and the outer periphery of the inlet are spaced apart from each other, and an air flow portion may be formed between the cover and the periphery of the inlet.

The cover part, the cover body covering the inlet and wrapping the outer perimeter of the inlet at a distance, a protrusion formed between the inner perimeter of the cover body and the outer perimeter of the neck and arranged at intervals along the circumferential direction of the cover body, the protrusion It may include a locking projection that protrudes in the direction of the outer circumference of the neck is caught on the locking jaw of the neck.

The air flow portion may be formed between adjacent protrusions.

The protrusion may be in contact with a portion of the upper surface and the outer circumference of the neck.

The body may be made of polypropylene.

According to an embodiment of the present invention, since the lower body diameter is gradually reduced, that is, the lower body is narrowed, it is possible to prevent a high temperature phenomenon that occurs during mycelial growth, thereby forming an optimal growth space, so that the cordyceps mushroom harvest is increased can do.

According to an embodiment of the present invention, the diameter of the neck having the inlet and the diameter of the body do not occur significantly. Accordingly, after harvesting Cordyceps mushrooms, the grain medium used as food can be withdrawn with minimal damage. Accordingly, the commercial quality of the grain medium may be increased.

According to an embodiment of the present invention, the grain medium can be withdrawn from the growth space through the wide inlet, so that the grain medium can be withdrawn in an optimal product state even in a small farm where a degassing machine is not disposed. As a result, the profits of small-scale farms increase, and economic efficiency as well as convenience can be released.

1 is a perspective view showing a mushroom cultivation container according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of Figure 1;
Figure 3 is a cross-sectional view showing the interior of Figure 1;
4 is an enlarged view of part A of FIG. 3 ;
5 is an enlarged view of part B of FIG. 3 ;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. Throughout the specification, like reference numerals are assigned to similar parts.

Then, a mushroom cultivation container according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5 .

1 is a perspective view showing a mushroom cultivation container according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of FIG. 1 , FIG. 3 is a cross-sectional view showing the inside of FIG. 1 , and FIG. 4 is an enlarged portion A of FIG. 3 FIG. 5 is an enlarged view of part B of FIG. 3 .

1 to 5 , the mushroom cultivation container 100 according to this embodiment includes a body 110 and a cover 120 comprising a neck 111 and a body 112 , and the inlet is By making it wider and narrower at the bottom, it is convenient to harvest Cordyceps, and it improves convenience and economy by facilitating the decontamination of the grain medium without a degassing machine.

According to this embodiment, the body part 110 and the cover part 120 may be made of polypropylene. Polypropylene, which is similar to ethylene and has one more carbon atom, which is abundantly obtained from natural gas, is polymerized to produce polypropylene, which is transparent and more resistant to refraction than polyethylene. Such polypropylene is strong in chemical resistance, mechanical properties, thermal properties, electrical properties, particularly alkali, and has high transparency.

The body part 110 includes a neck 111 and a body 112 . The neck 111 and the body 112 are integrally formed, and a growth space 110a is formed therein. The neck 111 has an inlet 111a, and a grain medium (not shown) may be accommodated into the growth space 110a through the inlet 111a. The outer periphery of the neck 111 is formed with a locking jaw (111b).

The body 112 includes a first portion 112a connected to the neck 111 and a second portion 112b connected to the bottom 112c. Here, the cross-sectional area of the second part 112b gradually decreases as it moves away from the first part 112a. Accordingly, the second portion 112b is formed in a curved and inclined shape.

Therefore, in the case of a conventional mushroom cultivation container, the body portion is formed in a cylindrical shape without a change in diameter, and high temperature failure may occur in mycelial growth. It can reduce the high temperature disorder. Accordingly, the environment for the growth of Cordyceps cordyceps can be maintained in an optimal condition. Accordingly, the yield of Cordyceps mushroom cultivation can be increased.

Here, the first part 112a of the neck 111 and the body 112 has a predetermined diameter. The diameter ratio of the body 112 and the neck 111 may be 19: 14 to 17. That is, the neck 111 has a diameter of 73% to 89% of the diameter of the body 112 . Here, when the diameter of the neck 111 is less than 73% of the diameter of the body 112, it is damaged when the grain medium is taken out, and there is a problem in that the marketability is reduced. If the diameter of the neck 111 exceeds 89% of the diameter of the body 112, the design of the mushroom cultivation container may be deteriorated, and the diameter of the cover part 120 also increases due to the increase in the diameter of the neck 111, so that the mushroom cultivation container is manufactured cost increases accordingly.

The diameter of the neck 111 is formed at a level of 73% to 89% of the diameter of the body 112 , so that the diameter of the neck 111 and the body 112 does not differ significantly. Therefore, the diameter of the neck 111 of the mushroom cultivation container according to this embodiment is formed wider than the diameter of the neck of the mushroom cultivation container used in the prior art, without using a degassing machine and without damaging the grain medium in the growth space 110a can be taken out Accordingly, the marketability of the grain medium used as food may be increased.

The cover part 120 is coupled to the neck 111 to open and close the inlet 111a. An air flow portion 124 is formed between the cover portion 120 and the neck 111 . The growth space 110a is connected to the outside through the air flow unit 124 so that air can circulate. By air circulation, the growth space 110a can create an optimal growth environment, so that the commercial value of Cordyceps cordyceps can be increased.

The cover part 120 includes a cover body 121 , a protrusion 122 , and a locking protrusion 123 .

The cover body 121 is disposed at the inlet 111a to surround the outer circumference and upper surface of the neck 111 . Here, the inner circumference of the cover body 121 and the outer circumference of the neck 111 are spaced apart from each other. Here, on the inner circumference of the cover body 121 , a protrusion 122 for supporting the cover body 121 protrudes in the direction of the outer circumference of the neck 111 . At this time, the protrusion 122 is in contact with the upper surface of the neck 111 and a portion of the outer circumference. With the support of the protrusion 122 , the outer circumference of the neck 111 and the inner circumference of the cover body 121 may maintain a predetermined distance, and the air flow unit 124 is formed between the adjacent protrusions 122 .

At the lower end of the protrusion 122 , a locking projection 123 protruding in the direction of the neck 111 is formed, and the locking projection 123 is caught on the locking jaw 111b. As the locking projection 123 is caught on the locking jaw 111b, the cover part 120 is fixed to the body part 110 .

Accordingly, the diameter difference between the neck 111 and the body 112 having an inlet does not occur significantly, and the lower diameter of the body 112 has a gradually reduced shape, so it is very suitable for cultivating Cordyceps cordyceps, especially without degassing. Even in a small farmhouse, a batch of grains can be easily withdrawn into the growth space 110a through the wide entrance 111a, thereby reducing costs and conveniently used for cultivation.

Although preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the

100: mushroom cultivation container 110: body part
110a: growth space 111: neck
111a: entrance 111b: jamming jaw
112: body 112a: first part
112b: second part 112c: bottom
120: cover part 121: cover body
122: protrusion 123: locking projection
124: air flow unit

Claims (5)

The entrance is wide and the bottom is narrow, so that the harvest of cultivated Cordyceps cordyceps is convenient and the decontamination of the grain medium can be done without a degassing machine.
A main body comprising a neck having an inlet, and a body connected to the neck and capable of receiving a grain medium into a growth space formed therein through the inlet, and
A cover portion coupled to the neck to close the inlet
including,
At least a portion of the inner perimeter of the cover and the outer perimeter of the inlet is spaced apart from each other and an air flow portion is formed between the cover and the outer perimeter of the inlet,
The cover part,
A cover body covering the inlet and wrapping the outer perimeter of the inlet at a distance;
A plurality of protrusions protruding from the inner circumference of the cover body in the direction of the outer circumference of the neck and formed at intervals along the circumferential direction of the cover body, and
A locking projection that protrudes from the protrusion in the direction of the outer circumference of the neck and is caught on the locking jaw of the neck
including,
The protrusion is in contact with the upper surface of the neck and a portion of the outer circumference, and the air flow portion is formed between the adjacent protrusions,
The diameter ratio of the body and the neck is 19: 14 to 17,
The body includes a first portion connected to the neck and a second portion connected to the floor, the cross-sectional area of the second portion gradually decreasing as it goes away from the first portion, and the second portion is inclined to a curved surface. formed with
Mushroom growing container. delete delete delete delete

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