KR20170081407A - Mushroom complete medium container ventilation and water supply is even possible - Google Patents

Abstract

The present invention relates to a mushroom culture container capable of uniform ventilation and water supply, and more particularly, to a pouch capable of venting and discharging gas at the center of a bottom lid coupled to a lower side of a container to which a mushroom culture medium is supplied, The present invention relates to a mushroom culture container capable of uniformly supplying moisture and uniform moisture to a mushroom culture medium so that moisture can be uniformly maintained in the mushroom culture medium through a water supply rod protruding upward from the center of the bottom lid.
The present invention relates to a mushroom culture container in which a mushroom culture medium (50) is supplied and a lid (20)
A coupling screw 11 is formed from the lower side to the outer side of the mushroom culture vessel 10 to which the mushroom culture medium 50 is supplied,
The threaded portion 44 engaging with the engaging screw 11 has a bottom lid 40 which is coupled to an inner diameter and has a pore 43 at the center and an engaging projection 42 formed on the upper side of the pore 43, ;
And a water supply rod 30 which is coupled to the coupling protrusion 42 and opens at the lower side and is sealed at the upper side and the moisture supply hole 32 is formed at a constant interval after the moisture supply member 31 is supplied to the inside .

Description

[0001] The present invention relates to a mushroom culture medium container capable of providing ventilation and water uniformity,

More specifically, the present invention relates to a mushroom culture container capable of ventilating and uniformly supplying moisture, and more particularly, to a pouch for venting and discharging gas at the center of a bottom lid which is coupled to a lower side of a container to which a mushroom culture medium is supplied, The present invention relates to a mushroom culture container capable of uniformly supplying moisture and uniform moisture to a mushroom culture medium so that moisture can be uniformly maintained in the mushroom culture medium through a water supply rod protruding upward from the center of the bottom lid.

Mushrooms are largely divided into mycelia and fruiting bodies. Fruiting bodies are divided into larvae and larvae. Mycelia is transformed into a reproductive growth stage in which mushrooms are produced after the mycelial growth of hyphae in various media. It is affected by temperature, light, and gas environment during the nutrient growth stage of mycelium. The optimum temperature for growth of nutritive hyphae is generally around 25 ℃, and the concentration of carbon dioxide within 10% and incubation in darkness promotes the growth of hyphae . The conditions under which fruiting bodies are produced after hyphae grow are very complicated, but they mainly promote the occurrence of external environmental conditions. Humidity is 90% or more and temperature is 10 ~ 20 ℃ when fruiting body is developed, but it is known that it differs depending on the type of mushroom or mushroom variety, and light also promotes the formation of fruiting body. In artificial cultivation, it is important to adjust the environmental conditions of mushroom to be suitable for cultivation and growth of mushroom.

Mushrooms are naturally grown in the natural environment and artificially cultivated, but artificial cultivation is widely used due to limitations in production due to environmental changes such as climate change. The method of artificial cultivation of mushrooms is somewhat different depending on the kind of the mushrooms. However, the method of cultivating the mushrooms by mixing them in a bottle or a plastic bag by mixing raw materials, cultivating the mushroom with the cotton waste and rice straw, Cultivation and encapsulation cultivation methods. Recently, a lot of mechanized bottle cultivation and encapsulation cultivation have been carried out to increase the efficiency of continuous production and facility throughout the year.

Generally, the bag cultivation is carried out by mixing a plurality of materials selected from sawdust and cottonseed, beet pulp, cottonseed, cowpeat, cornbone, rice husk, rice bran, etc., mixed with water to adjust the moisture content of the medium to about 65% It is filled with an opaque black plastic bag, sterilized and inoculated, cultured, grown and harvested.

However, during the mushroom cultivation process, the inoculated medium is repeated every day after the inoculation of the inoculated culture medium into the culture room. The culture medium is inspected for the environmental inspection and management from time to time, , Which is considered to be an organic stimulant, is formed by the stimulation of the mushroom. The culture of the seed culture, which is a nutrient growth process, requires dark culture that does not require light because of the characteristics of the mushroom mycelium.

In addition, in the process of transferring the seed culture to the growth chamber, cutting the upper surface of the bag medium with scissors or knives, or cutting the bottom of the bag, the transparent plastic bag exposes the whole of the medium to light, , The distribution of nutrient nutrients for production of fruiting bodies and the occurrence of malformed mushrooms lead to a decrease in yield as well as a remarkable deterioration in quality. Black plastic bags provide optimal conditions for seed culture but can not confirm the contamination of germs in culture Secondary contamination occurs in the whole culture room and the growth chamber, and mushroom generation is delayed because the foot for the generation of mushroom does not stimulate by the light of the organism.

There are many technical differences between mushroom cultivation and mushroom cultivation, which are important for cultivation of mushroom, and various methods for producing high quality mushroom by increasing the yield by excellent seed culture have been studied, and accordingly, many mushroom cultivation methods have been known .

However, since the culture bag is a consumable one, it is expensive to manufacture the bag compared to the conventional bag. Especially, when the mycelium is cultivated during the culture of the seed culture, 2, and thus the emission effect is easy to be discharged to the upper surface through the seedling seedlings formed vertically after the seedling rod in the bag, so that the reuse of the conventional cap is effective and economical.

This encapsulation cultivation method has a problem in that the yield is low because the mushroom cultivation is not accurately formed, and when the bag is used once, the cost increases, environmental pollution problems, and repeated reusable mushroom culture containers are required.

Recently, the mushroom culture container used in the present invention is supplied with the culture medium, and then the lid is coupled so as to be ventilated on the upper side. As time elapses, the water in the upper side is moved to the lower side, The growth of the mushroom and the harvesting of the mushroom were problematic because the medium did not provide a uniform state due to the drawback that the moisture was increased on the dry side and the lower side.

In addition, since the lower side of the mushroom culture container is clogged, in order to separate the mushroom culture media, it is necessary to remove the lower part of the container and then to supply the mushroom culture medium stored therein. Therefore, It was very difficult to use.

Literature 1. Utility Model No .: 2011-0005618 (Published on June 8, 2011) Document 2. Patent Registration No. 0804597 (registered on Feb. 12, 2008) Literature 3. Patent registration No. 1319655 (registered on October 10, 2013) Literature 4. Utility Model Registration No. 0461644 (registered on July 20, 2012)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a mushroom culture apparatus capable of easily discharging a mushroom culture medium by connecting a bottom lid to a lower side of a mushroom culture vessel, So that the ventilation and discharge of the ventilation duct can be facilitated.

Another object of the present invention is to make the water content of the bottom of the mushroom medium circulate upward through a water supply rod erected upright at the center of the bottom lid so that the moisture content of the mushroom medium is uniformly wholly.

The present invention provides a mushroom culture container to which a mushroom culture medium is supplied and a lid is attached to the upper side,

A mushroom culture container having a mushroom culture container,

A threaded portion engaging with the engaging screw is coupled to an inner diameter of the threaded portion, a pore is formed at the center of the threaded portion, and a coupling protrusion is formed on the upper side of the pore;

And a moisture supply rod coupled to the coupling protrusion, the lower side thereof being opened, the upper side being sealed, and a moisture supply hole being formed at regular intervals after the moisture supply member is supplied to the inside.

The present invention relates to a method for producing a mushroom culture medium, comprising the steps of: (a) combining a bottom lid with a bottom lid of a mushroom culture container to easily bond and separate the lid; The ventilation and discharge of CO 2 gas can be easily performed, and the growth conditions of the mushroom can be easily performed, thereby improving the productivity.

In the present invention, the water supply hole of the water supply rod provided upright in the center of the bottom lid is formed to be longer as it goes from the lower side to the upper side, and the moisture content of the bottom is stored upward, Uniformity of growth conditions of mushrooms to maintain the growth conditions of mushrooms uniformly, thereby improving productivity.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a separated state
Fig. 2 is a cross-sectional view showing the separation state of the present invention
3 is a perspective view showing an assembled state of the present invention.
4 is a front sectional view showing an assembled state of the present invention
5 is a plan sectional view showing an assembled state of the present invention
FIG. 6 is a perspective view showing a state in which a container and a lid are separated from each other according to the present invention;
7 is a cross-sectional view of a main portion showing a state of separation of a container and a lid according to the present invention
Fig. 8 is a cross-sectional view of a main part showing a state of engagement between a container and a lid according to the present invention
9 is a cross-sectional view of a state in which the water supply rod is separated from the bottom lid of the present invention
10 is a cross-sectional view of the bottom cover of the present invention with the water supply rod
11 is a plan sectional view of the bottom cover of the present invention in a state where a water supply rod is coupled
12 is a sectional view of a state for producing mushroom by supplying a mushroom culture medium into the container of the present invention

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a separator according to a preferred embodiment of the present invention, FIG. 2 is a cross-sectional view illustrating a separator according to the present invention, FIG. 3 is a perspective view illustrating an assembled state of the present invention, Fig. 5 is a plan sectional view showing an assembled state of the present invention. Fig.

The mushroom discharge container 10 is formed by injection molding with a synthetic resin such as a cylindrical synthetic resin, a downwardly threaded engagement screw 11 is formed on the lower side, and a bottom lid 40 is threadedly coupled to the lower side.

The lid 20 is coupled to the upper side of the mushroom culture container 10 to seal the upper side thereof.

The bottom lid 40 has a screw 44 formed on an inner diameter thereof and is screwed to the coupling screw 11. A water supply rod 30 is coupled to the center of the bottom lid 40 to circulate moisture therein, Is maintained.

FIG. 6 is a perspective view showing a state where a container and a lid are separated from each other according to the present invention, FIG. 7 is a sectional view of a main part showing a state of separation between the container and a lid of the present invention, and FIG. Sectional view of the main part.

The mushroom culture container (10) comprises a mushroom culture container (10) having a protruding body (12) vertically protruding upward from an upper side thereof so as to be reduced in diameter.

An engaging groove 14 is formed on the upper side of the protruding body 12 and an arc-shaped elastic protrusion 13 protrudes above the engaging groove 14.

A lid 20 is coupled to the upper side of the mushroom culture container 10 to seal the upper side of the mushroom culture container 10. The lid 20 is formed with a protruding ring 21 downwardly to surround the elastic protrusions 13, The inner circumference of the elastic projection 13 is formed with a coupling step 22 in the diagonal direction so as to be fixed to the coupling groove 14 and then the locking projection 23 is formed on the inner side of the inner side of the projection ring 21, (13).

FIG. 9 is a cross-sectional view showing a state in which the water supply rod is separated from the bottom lid of the present invention, FIG. 10 is a sectional view of the state in which the water supply rod is coupled to the bottom lid of the present invention, FIG. 2 is a cross-sectional view of a state in which a plurality of light emitting elements are combined.

A pore 43 is formed at the center of the space 41 and is provided with a coupling protrusion 43 on the upper side of the pore 43, (42) is projected.

The water supply rod 30, which is coupled to protrude upward from the inner or outer diameter of the coupling protrusion 42, has a shape in which the lower side is opened and the upper side is closed and the water supply hole 32 is formed at a constant interval, The mushroom culture medium 50 is formed so as to be supplied with water by ventilation.

FIG. 12 is a cross-sectional view of a mushroom culture apparatus for producing mushroom by supplying a mushroom culture medium to the inside of a container of the present invention. A mushroom culture medium 50 is supplied to the inside of the mushroom culture vessel 10, Is provided with a humidifying member 31 which is made of any one of cotton, cloth, silk thread, and the like and is capable of containing water, so that the lower moisture is supplied to the upper side.

The mushroom culture container 10 for injection molding with polyethylene (PE) or polypropylene (PP) according to the present invention having such a constitution has a structure in which a coupling protrusion 42 at the center of the bottom lid 40 on the lower side, The water supply rod 30 filling the member 31 is engaged and then the thread 11 joined to the threaded portion 44 is threadedly coupled to seal the lower portion of the mushroom discharge container 10.

A mushroom culture medium 50 in which a plurality of materials are mixed while being mixed with a predetermined amount is supplied from above the mushroom culture container 10 and then the lid 20 is covered with the projecting ring 21 to ride on the elastic projections 13 So that the upper side of the elastic protrusion 13 is coupled and fixed along the latching jaw 23 while the coupling jaw 22 is fixed to the coupling groove 14.

The mushroom culture medium 50 is prepared by inoculating and culturing the seeds, culturing, growing and harvesting the seeds. After the seeds are inoculated into the mushroom culture medium 50, the mushroom culture medium 50 is transferred to a culture room to produce mushrooms while maintaining the temperature and humidity according to growth conditions. .

The mushroom culture medium 50 is initially supplied in a state in which a uniform moisture is maintained in the mushroom culture container 10 and is transferred to a culture room in a standing state to produce mushrooms. While the upper side is provided with a dry state.

However, the humidifying member 31 supplied to the water supply rod 30 draws moisture in the mushroom medium 50 through the lower water supply hole 32, and the moisture again flows through the humidifying member 31 And then discharged to the mushroom culture medium 50 through the upper water supply hole 32 to maintain a uniform moisture content as a whole.

Therefore, since the mushroom culture medium 50 maintains a uniform moisture content as a whole, it is possible to normally harvest by the growth.

The pores (43) provided at the center of the upper part of the space (41) of the bottom lid (40) provide a ventilation effect between the outside and the inside to smoothly supply air by ventilation, Since the emission of the CO2 gas generated in the medium 50 can be normally performed, it provides the best environment in which the mushroom can grow so that the mushroom production can be increased and the high quality mushroom can be produced.

The water supply hole 32 is formed to have a smaller length on the lower side of the water supply rod 30 and a longer length on the upper side so that the lower side water can smoothly move upward and maintain a uniform moisture content as a whole .

The lid 20 provides a stable engagement state by engaging the engaging jaws 22 with the engaging grooves 14 when the projecting ring 21 rides on the elastic projections 13 and the upper side of the engaging projections 13 is engaged So that sealing is performed at the jaw 23.

The bottom lid 40 is provided with an air supply and a gas removal through the pores 43 and a space 41 is formed at the bottom so that the operation through the pores 43 is smoothly performed. Can be supplied to the mushroom culture medium 50 by combining the mushroom culture medium 50 with the engagement screw 11 on the lower side of the mushroom culture container 10 and the bottom lid 40 can be easily and quickly The mushroom culture medium 50 can be easily discharged.

Since it is not necessary to cut off the mushroom culture container 10 at the time of feeding and discharging the mushroom culture medium 50, it is possible to re-supply the mushroom culture medium 50 and reuse it.

The present invention solves the unevenness of the internal moisture caused by the supply of the mushroom culture medium so that the moisture at the lower side is moved upward to uniformly humidify the whole, and the air supply and gas discharge are smoothly performed, The present invention provides a very useful invention capable of providing the above-

10: Mushroom culture container 11: Coupling screw
12: protruding body 13: elastic projection
14: coupling groove 20: lid
21: protruding ring 22:
23: hanging jaw 30: water supply rod
31: humidifying member 32: water supplying hole
40: floor cover 41: space
42: engaging projection 43: pores
50: mushroom badge

Claims (5)

A mushroom culture container in which a mushroom culture medium (50) is supplied and a lid (20) is coupled to an upper side,
A coupling screw 11 is formed from the lower side to the outer side of the mushroom culture vessel 10 to which the mushroom culture medium 50 is supplied,
The threaded portion 44 engaging with the engaging screw 11 has a bottom lid 40 which is coupled to an inner diameter and has a pore 43 at the center and an engaging projection 42 formed on the upper side of the pore 43, ;
And a water supply rod 30 which is coupled to the engaging projection 42 and opens at the lower side and is sealed at the upper side and the moisture supply hole 32 is formed at a predetermined interval after the moisture supply member 31 is supplied to the inside Mushroom vials that can be supplied with uniform ventilation and moisture.
The method according to claim 1,
The bottom lid 40 is formed with a pore 43 at the upper center of the space 41 formed in a round shape so as to project upward from the lower side and a coupling protrusion 42 is formed on the upper side of the male hole 43 Which is capable of providing uniform ventilation and water uniformity.
The method according to claim 1,
The water supply rod 30 is closed at the upper side and opened at the lower side to be fitted into the engaging projections 42. The water supply rod 30 is filled with the humidifying member 31 and the water supply hole 32 is formed at regular intervals. Wherein the mushroom culture medium (50) is formed so as to be longer toward the upper side than the mushroom culture medium (50) located at the lower most side, so that moisture is supplied by ventilation to the mushroom culture medium (50).
The method according to claim 1,
The lid 20 coupled to the upper side of the mushroom culture container 10 is formed with a protruding ring 21 protruding downward to form a coupling protrusion 22 which surrounds the elastic protrusion 13 and is fixed to the coupling groove 14 And a hooking step (23) in which the elastic protrusion (13) is located on the upper side of the inner diameter of the protruding ring (21).
The method according to claim 1,
The water supply rod 30 is closed at the upper side and opened at the lower side and is fitted in the coupling protrusion 42. The moisture supply rod 30 is made of any one of yarn types such as cotton, (31) is filled in the container.

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