JP4727150B2 - Shiitake fungus bed cultivation method and container - Google Patents

Description

  The present invention relates to a cultivation method during or after completion of shiitake mushroom bed and a technique characterized by a cultivation container used for carrying out the method.

As a technique for cutting a part of a cultivation bag to expose only the upper surface of the fungus bed, storing water between the fungus bed and the cultivation bag by water supply, and generating mushrooms from the upper surface of the fungus bed, Patent Document 1 Prior art 1) has been proposed. Until this technology was developed, a method (normal cultivation method) was used to remove mushroom beds that had been cultivated from the cultivation bag and place them on the cultivation shelf in an exposed state to generate mushrooms from the entire surface of the fungus bed. During the process, the fungus bed was dried, causing problems such as a reduction in the quality of mushrooms and a decrease in the amount of mushrooms. Although the problem in these normal cultivation methods has been solved by the prior art 1, since the cultivation bag used in the culture is continuously used for a long time even during the generation process, the bag is cracked and the prior art One objective may not be achieved. Moreover, in the prior art 1, since the upper part of the bag containing the bacteria bed is spread too much due to the water supply and proper management cannot be performed, it takes time and effort to attach a band-like part to this part and fix the upper part of the bag. . Furthermore, at the later stage of cultivation, pests such as mushrooms and mites are likely to occur on the upper surface of the fungus bed and the portion not submerged between the bag and the fungus bed, causing problems such as causing food damage.

In order to solve these problems, Patent Literature 2 (hereinafter referred to as Prior Art 2) devised a cultivation method using a generating water tank that can accommodate a large number of fungal beds. However, since the facilities are large and the cultivation cost is high, it cannot be used easily.
Patent No.3087171 JP 2000-316379 A

  Therefore, the present invention was made to eliminate such difficulties of the prior arts 1 and 2, and the fungus bed during or after the cultivation was once removed from the cultivation bag and transferred to a dedicated cultivation container for management. The technology to carry out the cultivation is provided, and the cultivation container for direct use in the method is provided.

  In order to achieve the above object, the shiitake fungus bed cultivation method according to claim 1 is characterized in that, in the step of culturing or after the completion of culturing, the exposed microbial bed from which the cultivation container is removed is opened only to the upper surface in another container. It is characterized by the fact that it is housed alone in a state where the fungus bed and the container are filled with water or an aqueous solution to suppress the occurrence of mushrooms from the side and bottom of the fungus bed, and promote the occurrence of mushrooms from the top of the fungus bed. To do.

  The shiitake fungus bed cultivation container according to claim 2 accommodates the exposed fungus bed from which the cultivation container has been removed alone or in a state where only the upper surface is released in another container during or after the cultivation. In the shiitake mushroom bed cultivation method characterized by suppressing the occurrence of mushrooms from the side and bottom of the fungus bed by filling the gap between the fungus bed and the container with water or an aqueous solution, and promoting the occurrence of mushrooms from the top of the fungus bed It is an apparatus to be used, and is a cultivation container main body (1) having a projecting support (2) having elasticity for fixing the accommodation bacteria bed for fixing the accommodation bacteria bed to the container. And

  The shiitake fungus bed cultivation container according to claim 3 is a protruding fungus bed installation base for providing a gap so that water can be filled between the fungus bed and the container bottom in the cultivation container main body (1). 3).

  The shiitake fungus floor cultivation container according to claim 4 is provided with a drainage outlet or a water supply / drainage connection opening (4) on one side or both sides of the bottom side of the cultivation container in order to draw water into and out of the cultivation container main body (1). Features.

  The shiitake fungus floor cultivation container according to claim 5 is characterized in that the height of the cultivation container main body (1) can be adjusted as a double structure such as a slide-type panel constituting the side surface of the cultivation container main body. And

In the present invention, the shiitake fungus floor cultivation container and the cultivation method using the container are methods for continuing cultivation by replacing the dedicated cultivation container during or after completion of cultivation. There is no incomplete fungus bed. Yield is increased because moisture can be controlled stably. Moreover, since the entire surface can be easily submerged (submerged in the fungus bed), there is a pest control effect of pests, and the number of pests generated is small. Profitability in actual cultivation increases because quality degradation due to pests on mushrooms can be prevented.
In addition, the microbial bed is not lifted by water by the support and is housed in individual containers, so there is no need for large equipment and accidents such as avoiding bags.
The shiitake fungus bed cultivation container according to claim 3 prevents the fungus bed and the bottom of the container from coming into close contact with each other and making it difficult for water to enter the fungus bed bottom.
The shiitake fungus bed cultivation container according to claim 4 can be managed in a unified manner by connecting a plurality of cultivation container main bodies using the water supply / drain connection port (4).
The water supply and drainage can be automated.
The shiitake fungus bed cultivation container according to claim 5 changes the height of the container by sliding the panel, and submerges the entire fungus bed by immersing the upper surface part of the fungus bed in water or an aqueous solution for a certain time as necessary. can do. Further, by adjusting the height of the side surface of the cultivation container, mushrooms can be generated not only from the upper surface of the fungus bed but also from the exposed portion of the upper side surface.

Embodiments of the present invention will be described with reference to FIGS. 1, 2, 3, 4, 5, 6, and Tables 1 and 2.
1 and 2 show a perspective view and a plan view of an embodiment of a cultivation container showing one embodiment of the present invention. 14 cm long × 22 cm wide × 7-20 cm height inside acrylic container body, flexible plastic bed support (2) made of flexible plastic is attached to the upper four corners at an angle of 45 degrees, Furthermore, two 1-cm-high fungus bed installation bases (3) are attached to the bottom at an interval of 6 cm. In the above, the materials of the main body, the support for fixing the microbial bed, and the microbial bed mounting base are not limited to the described materials as long as the purpose can be achieved. In addition, the fungus bed fixing support can be installed at a portion other than the four corners to achieve the object.
The angled fungus bed fixing support (2) has a function of preventing the fungus bed inserted into the cultivation container main body (1) from floating due to water absorption.

FIG. 3 shows a perspective view of an embodiment of a cultivation container with a water supply / drain connection port, and FIG. 5 shows a perspective view of a cultivation situation in which individual cultivation container bodies are coupled. FIG. 3 forms a configuration in which a water supply / drainage connection port (4) is attached to one or both sides of the bottom side surface of the cultivation container shown in FIG. A pipe having an outer shape of 13 mm is attached, and a hose is connected thereto to supply or drain water or an aqueous solution into the cultivation container body. Moreover, it becomes possible to connect each cultivation container main body as shown in FIG. 5 by attaching a water supply / drain port to both sides of the cultivation container main body side surface.
The structure with the water supply / drainage connection port (4) is capable of supplying / draining all the cultivation containers at once without supplying / draining the cultivation container main body (1) individually. Make it possible to form.

A method for generating mushrooms using the cultivation container (height 20 cm) will be described with reference to FIGS. 4 and 5. Considering the cultivation container and cultivation method, the cultivation conditions were compared with those of Prior Art 1. Table 1 shows the results of the number of bacteria generated per fungus bed and the number of insects captured.

In Table 1, Kitaken No. 600 was used as an inoculum. Sterilized, cooled and inoculated by a conventional method and cultured at 20 ° C. ± 1 ° C. for 100 days and further at 25 ° C. from day 101 to day 105 (weight 2700 g, width 20 cm × length 12 cm × height 17 cm) Was taken out of the bag, exposed, placed in the above-described cultivation container, and fixed with the support (2) for fixing the fungus bed. Water was supplied from the water sprinkling or water supply / drainage connection port (4) to fill the gap between the fungus bed and the cultivation container main body. Normally, water was supplied to such an extent that the upper surface of the fungus bed was not buried in water, but was adjusted so that the upper surface of the fungus bed was submerged as needed. After placing the fungus bed in the cultivation container, watering was performed every day, and the temperature control after completion of the culture was adjusted to 13 ° C. in the morning and evening and 20 ° C. during the day. Mushrooms were generated only from the upper surface of the fungus bed. Examination of the number of insect pests captured in the test space was performed using a commercially available adhesive sheet (shelf hanging insect trap adhesive sheet).
As a result, according to the method of the present invention, the number of shiitake mushrooms generated and the weight generated were both large, and the weight per shiitake mushroom was 24 g in the control example and 26 g in the present invention, 1.1 times. In addition, the present invention was significantly less in the number of insects captured, which contributed to quality improvement.

Next, a method for generating mushrooms using the cultivation container (height 7 cm) will be described with reference to FIG. Considering the cultivation container and cultivation method, the cultivation conditions were compared with those of Prior Art 1. Table 2 shows the results of the number of bacteria generated per fungus bed and the number of insects captured.

In Table 2, as in the case of Table 1 above, Kitaken 600 was used as the inoculum. Sterilized, cooled and inoculated by a conventional method and cultured at 20 ° C. ± 1 ° C. for 100 days and further at 25 ° C. from day 101 to day 105 (weight 2700 g, width 20 cm × length 12 cm × height 17 cm) Was taken out of the bag and placed in an exposed state, and one was placed in the above-described structured cultivation container, and the side of the fungus bed was fixed with the support (2) for fixing the fungus bed. Water was supplied from the water sprinkling or water supply / drainage connection port (4) to fill the gap between the fungus bed and the cultivation container main body. After placing the fungus bed in the cultivation container, watering was performed every day for about 1 to 3 floors, and the temperature control after completion of the culture was adjusted to 13 ° C. in the morning and evening and 20 ° C. during the day. Mushrooms were generated from the upper and side surfaces of the fungus bed.
As a result, both the number of shiitake generation and the generation weight increased according to the method of the present invention.

  The present invention has no incomplete water supply due to cracks in the bag during or after the cultivation, can stably control moisture, has an effect of exterminating pests, and adheres to mushrooms. It can be used as a cultivation method and container for shiitake mushroom bed that can be used for profitability in actual cultivation.

The perspective view of embodiment of the cultivation container which shows one Example of this invention The top view of the embodiment in the top cultivation according to the present invention Perspective view of embodiment of cultivation container with water supply and drainage connection port The perspective view of the embodiment in the top cultivation concerning the present invention The perspective view of the cultivation situation which connected each cultivation container main part The perspective view of the embodiment in the top cultivation concerning the present invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cultivation container main body 2 Bacteria bed fixation support 3 Bacteria bed installation stand 4 Water supply / drainage connection port 5 Shiitake

Claims (4)

In the process of culturing or after completion of culturing, the exposed bacterial bed from which the cultivation container has been removed is housed alone in a state where only the upper surface is released in another container, and water or an aqueous solution is placed in the gap between the bacterial bed and the container. An apparatus used in a shiitake fungus bed cultivation method characterized by suppressing the occurrence of mushrooms from the side and bottom of the fungus bed by satisfying and promoting the occurrence of mushrooms from the upper part of the fungus bed,
A shiitake fungus bed cultivation container, which is a cultivation container main body (1) having a protruding support (2) having elasticity for fixing the contained fungus bed to the container.
Shiitake mushroom according to claim 1, wherein the cultivation container body (1) is provided with a protruding fungus bed installation base (3) for providing a gap so that water can be filled between the fungus bed and the container bottom. Fungus bed cultivation container. The shiitake mushroom bed cultivation container according to claim 1 or 2 , further comprising a drainage port or a water supply / drainage connection port (4) on one or both sides of the bottom of the side surface of the cultivation container so that water can be taken into and out of the cultivation container body (1). . The cultivation container main body (1) made the state which can adjust height as a panel which comprises the side surface of a cultivation container main body as a double structure, such as a slide type | mold, The state as described in any one of Claims 1-3 . Shiitake fungus bed cultivation container.

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