KR102571571B1 - Inoculation device for mushroom - Google Patents

Abstract

The present invention relates to a mushroom spawn inoculation device that enables inoculation of spawn in a sterilized state into a molded medium that has been sterilized by a worker located in an open work space,
In the present invention, a sterilization inoculation room having a sterilization inoculation space having one or more work holes entering the operator's arm; A transfer conveyor that moves in the longitudinal direction at the bottom of the sterilization inoculation chamber and sequentially passes the molded medium molded body seated therethrough along the sterilization inoculation space; A filtration chamber portion formed with a filtering treatment space formed with an air supply port through which external air is supplied and an exhaust port communicating with the sterilization inoculation space of the sterilization inoculation room; an air supply unit for forcibly supplying external air into the filtration processing space through the air supply opening of the filtration chamber unit; a sterilization filter layer disposed in the filtration processing space to filter external air supplied into the filtration processing space through an air supply unit so that sterilized external air is supplied into the sterilization inoculation space; and at least a frame structure providing installation spaces for the sterilization inoculation chamber, the transfer conveyor unit, and the filtration chamber unit.

Description

Mushroom spawn inoculation device {Inoculation device for mushroom}

The present invention relates to a mushroom spawn inoculation device, and more particularly, to a mushroom spawn inoculation device that enables inoculation of spawn in a sterile state into a molded medium that has been sterilized by a worker located in an open work space.

Starters are used in the artificial cultivation of mushrooms such as Ganoderma lucidum, enoki mushroom, pile mushroom, maitake mushroom, yellow enoki mushroom, and king oyster mushroom.

Spawn is a thing that facilitates handling by culturing secondary mycelia of mushrooms in a solid medium or liquid medium based on sawdust or chips, and is a plant, such as a species.

It is possible to harvest mushrooms by inoculating these seed fungi into the medium and going through the mushroom manufacturing process (cultivation process, development process, growth process).

In addition, in the inoculation process of the spawn, contamination by harmful bacteria is prevented by inoculating the spawn into the sterilized medium molding, and thus, in the field, an aseptic inoculation house requiring expensive equipment and a large space is constructed, and the aseptic inoculation house A worker who has finished disinfection inside enters directly and inoculates spawn molds into the cultured medium in an aseptic inoculation house sealed from the outside.

However, when a worker enters the aseptic inoculation house for a long time and performs spawn inoculation, not only does the worker's fatigue due to performing the spawn work in a closed place from the outside increase, but also the human body such as phenol or sulfur contained in the spawn Since workers are exposed to harmful substances for a long time, health problems may occur.

Japanese Patent Publication Hei 5-103542 KR 10-1122451 KR 10-2009-0036139

The object of the present invention, which was made to solve the above problems, is to sequentially pass through a sterilization inoculation room in which an aseptic state is continuously formed by positive pressure, while opening the culture medium molding, and spawning through the entrance of the opened culture molding medium. It is to provide a mushroom spawn inoculation device that allows mushroom spawn processes, including a spawn inoculation process of inoculating and a sealing process of resealing the medium molding inoculated with the mushroom spawn, to be performed in an exposed environment.

The above object is achieved by the following structure provided by the present invention.

Mushroom spawn inoculation device according to the present invention,

A sterilization inoculation room having a sterilization inoculation space having one or more work holes entering the operator's arm;

A transfer conveyor unit that moves in the longitudinal direction at the bottom of the sterilization inoculation chamber and sequentially passes the molded medium molded body seated therethrough along the sterilization inoculation space;

A filtration chamber portion formed with a filtering treatment space formed with an air supply port through which external air is supplied and an exhaust port communicating with the sterilization inoculation space of the sterilization inoculation room;

an air supply unit for forcibly supplying external air into the filtration processing space through the air supply opening of the filtration chamber unit;

a sterilization filter layer disposed in the filtration processing space to filter external air supplied into the filtration processing space through an air supply unit so that sterilized external air is supplied into the sterilization inoculation space; and

At least, it is characterized in that it is configured to include a frame structure providing an installation space for the sterilization inoculation chamber, the transfer conveyor unit, and the filtration chamber unit.

Preferably, an elastic opening and closing opening composed of a plurality of elastic cilia is disposed at an inlet formed at the rear of the sterilization inoculation space and at an outlet formed at the front.

More preferably, the side wall of the sterilization inoculation room includes one or more work holes that are entry and exit paths of the operator's arm that require entry into the sterilization inoculation space; A viewing window for visually observing the inside of the sterile inoculation space in which the spawn inoculation is performed is formed, respectively.

And, the frame structure is composed of a cart type in which a plurality of moving wheels are disposed at the bottom.

In addition, a pressure cuff is formed in each work hole to entirely cover the arm of a worker entering the sterilization inoculation space.

As described above, in the present invention, while sequentially passing the medium molded material into a sterilization inoculation room in which an aseptic state is continuously formed by positive pressure, the opening process of the medium molded material and the spawn are introduced through the opening of the opened medium molded product A mushroom spawn inoculation device is proposed that allows a series of mushroom spawn processes, including a spawn inoculation process for inoculation and a sealing process for resealing the medium molding inoculated with the mushroom spawn, to be performed in an exposed environment.

Therefore, the worker enters the sterile inoculation space formed in the sterile inoculation room with only the arm part exposed to the outside, and inoculates the spawn by injecting the spawn into the introduced culture medium molding, thereby providing a pleasant working environment and the harmful effects remaining in the spawn. The occurrence of exposure of substances can be prevented.

And, since the present invention does not require the construction of an aseptic inoculation house requiring expensive facility costs and a large space, it is possible to reduce facility investment costs.

That is, the present invention solves various problems caused by the conventional worker entering directly into an aseptic inoculation house in a closed state from the outside and inoculating spawn with various harmful substances exposed to the spawn in a closed environment for a long time. possible.

1 and 2 are disassembly and coupling state diagrams showing the overall configuration of the mushroom spawn inoculation device proposed as a preferred embodiment in the present invention,
Figure 3 is a working state diagram showing the inoculation state of spawn through the mushroom spawn inoculation device proposed as a preferred embodiment in the present invention,
4 to 5 show the detailed configuration and operating state of the mushroom spawn inoculation device proposed as a more preferred embodiment in the present invention.

Hereinafter, a mushroom spawn inoculation device proposed as a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are disassembly and coupling state diagrams showing the overall configuration of the mushroom spawn inoculation device proposed as a preferred embodiment in the present invention, and FIG. 3 is a view through the mushroom spawn inoculation device proposed as a preferred embodiment in the present invention. It is a working state diagram showing the inoculation state of the spawn, and FIGS. 4 to 5 show the detailed configuration and operating state of the mushroom spawn inoculation device proposed as a more preferred embodiment in the present invention.

The mushroom spawn inoculation device 1 proposed as a preferred embodiment of the present invention is installed in an open work space and is configured to inject and inoculate spawn into the medium molded product 100, so that a conventional worker can inoculate spawn that is closed from the outside. Direct entry into the house solves all problems caused by inoculating the spawn into the molded medium.

The medium molded article 100 is configured in a form in which single trees and sawdust forming a medium are filled in a cultivation container that is opened and closed by an opening and closing cover.

The molded medium 100 to which the spawn is inoculated is sterilized through a steam sterilization process, and then put into the mushroom spawn inoculation device 1 according to this embodiment to inoculate the spawn by a worker, and the molded medium configured as described above (100) is generally inoculated with Ganoderma lucidum spawn.

As shown in FIGS. 1 to 3, the mushroom spawn inoculation device 1 continuously maintains an internal pressure relatively higher than that of the atmosphere, and a sterilization inoculation room in which a sterilization inoculation space 30a in a positive pressure state is formed due to a pressure difference in the atmosphere. (30) and; A transfer conveyor unit 20 disposed in the lower part of the sterilization inoculation room 30 in the longitudinal direction and sequentially supplying and discharging the seated medium molding 100 along the sterilization inoculation space 30a; It includes a frame structure 10 providing an installation space for each component including the sterilization inoculation room 30 and the conveyor unit 20.

The frame structure 10 is configured in the form of a cart with a plurality of moving wheels 11 disposed at the bottom thereof, and is easily moved to a required work space to perform spawn inoculation.

In addition, the transfer conveyor unit 20 is composed of a non-driven roll conveyor 22 in the first half and the second half exposed to the outside of the sterilization inoculation room 30, and the central portion formed on the bottom of the sterilization inoculation room 30 has a driving roller. It consists of a belt conveyor 21 through which the conveying belt is conveyed in the longitudinal direction by driving.

Therefore, when the operator places the sealed medium molded product 100 through the roll conveyor 22 formed in the second half, the seated medium molded product 100 moves in the longitudinal direction through the belt conveyor 21 while sterilizing the inoculation space ( 30a) and is finally discharged to the roll conveyor 22 formed in the first half.

In addition, in the front and rear of the sterilization inoculation room 30 disposed in the frame structure 10, the inlet portion 31, which is an entry path of the culture medium molded article 100 requiring spawn inoculation, and the culture medium molded article 100 after seed inoculation An exit portion 32, which is an exit path, is formed, respectively.

In this embodiment, elastic openings 33 in which a plurality of elastic cilia are aligned are disposed at the inlet 31 and the outlet 32 of the sterilization inoculation chamber 30, respectively, so that the molded medium is formed by the elastic openings 33. By configuring the inlet 31 and the outlet 32 of the sterilization inoculation space 30a into which the 100 enters and exits flexibly, harmful bacteria or foreign substances are introduced through the inlet 31 and the outlet 32. The phenomenon of being introduced into the sterilization inoculation space 30a is prevented.

In addition, on both sides of the sterilization inoculation room 30 where the operator is located, a viewing window 34 for visually checking the inside of the sterilization inoculation space 30a and an arm of the operator located outside the sterilization inoculation room 30 are entered. Work holes 35 are formed.

At this time, the work hole 35 is provided with a pressure sleeve 36 that wraps the entire arm of the operator who has entered the sterilization inoculation space 30a through each work hole 35, and sterilizes along the work hole 35. The inflow of fine dust or harmful bacteria remaining on the arm of a worker entering the inoculation space 30a into the sterilization inoculation space 30a is prevented.

Preferably, a pressure band for compressing the operator's wrist is placed at the end of the pressure cuff 36 so that foreign substances or harmful bacteria are introduced into the sterilization inoculation space 30a through the space between the arm and the work hole 35. prevent entrainment.

Therefore, workers enter the arm into the sterilization inoculation room 30 through the work hole 35 and open the entrance of the culture medium molding 100 sequentially passing through the sterilization inoculation space 30a of the sterilization inoculation room 30, , After inoculation by injecting the spawn into the molded medium 100 through the opened inlet, a series of processes according to the spawn inoculation of resealing the inlet are performed.

On the other hand, in the present invention, when the worker enters the sterilization inoculation space 30a through the work hole 35 and inoculates spawn such as Ganoderma lucidum spawn into the medium molding 100 entered, the sterilization inoculation room ( By continuously injecting sterilized external air into the sterilization inoculation space (30a) of 30) to form a positive pressure sterilization structure so that the sterilization inoculation space (30a) forms a sterilization state of positive pressure, the sterilized medium molding (100) Stable inoculation of spawn is possible without contamination by harmful bacteria inside.

The positive pressure sterilization structure proposed in this embodiment is a filtering treatment space 40a in which an air supply port 41 through which external air is supplied and an exhaust port 42 communicating with the sterilization inoculation space 30a of the sterilization inoculation room 30 are formed. ) And the filtration chamber portion 40 is formed; an air supply unit 50 forcibly supplying external air into the filtration processing space 40a through the air supply opening 41 of the filtration chamber unit 40; and the sterilized air in the sterilization inoculation space 30a of the sterilization inoculation room 30 through the exhaust port 42 by permeating and filtering external air supplied through the air supply port 41, disposed in the filtering treatment space 40a. It includes a sterile filter layer 60 that allows continuous injection.

Preferably, the filtration chamber unit 40 is arranged to be stacked on top of the sterilization inoculation room 30, and is in vertical communication with the sterilization inoculation space 30a of the sterilization inoculation room 30 disposed below through the exhaust port 42. It is configured to, and the air supply port 41 is formed on the side of the filtration chamber unit 40.

In addition, an air supply unit 50 for forcibly supplying external air into the filtration processing space 40a of the filtration chamber unit 40 is disposed in the air supply port 41, and the air supply unit 50 performs filtration. The external air supplied to the space 40a is continuously supplied into the sterilization inoculation space 30a of the sterilization inoculation room 30 disposed at the lower side through the exhaust port 42, so that the sterilization inoculation space 30a has a positive pressure through air supply pressurization. form a state

At this time, the sterilization filter layer 60 disposed at the exhaust port 42 of the filtration chamber unit 40 is a HEPA filter whose removal performance has been proven to be 95% to 99% of particles of 0.3 μm or more in size, such as fine dust, bacteria, and viruses. (HEPA FILTER), it promotes stable removal of fine dust, bacteria, and viruses remaining in the external air supplied.

Therefore, the external air supplied to the filtration treatment space 40a through the air supply port 41 passes through the sterilization filter layer 60 while removing residual foreign substances and bacteria, and as a result, the sterilization inoculation space of the sterilization inoculation room 30 ( In 30a), sterilized external air is continuously supplied.

Thus, the worker enters the sterilized inoculation space 30a in which a sterilized state is formed by the external air of the sterilized state supplied continuously in the open working environment, and enters the sterilization inoculation space through the transfer conveyor unit 20. After opening the inlet of the medium molded article 100 passing sequentially in (30a), inoculating the spawn by inoculating the opened inlet into the medium molded article 100, and then resealing the opened inlet, a series of spawn inoculations conduct the process.

Therefore, the present invention reduces work fatigue due to the long-term operation of mushroom inoculation in an aseptic inoculation house sealed from the outside by a conventional worker, and various harmful components such as sulfur, phenol, and chemical gases harmful to the human body are reduced. It is not directly exposed to the contained spawn, and in particular, it is possible to solve various problems caused by constructing an aseptic inoculation house that requires expensive facilities and a large space.

In particular, in the present invention, as shown in FIGS. 4 and 5, the filtration chamber unit 40 is configured to maintain a constant air supply pressure at all times to form a positive pressure in a constant pressure state in the sterilization inoculation space 30a, thereby sterilizing While forming a stable sterilization state in the inoculation space 30a, in the process of introducing the spawn through the inlet of the medium molding 100 introduced into the sterilization inoculation space 30a, the spawn is sterilized by wind speed and pressure in the inoculation space ( 30a) to prevent diffusion within.

To this end, in this embodiment, the volume of the filtration processing space 40a is increased or decreased by a change in internal pressure according to the amount of external air supplied through the air supply port 41 in the filtration chamber unit 40. (43) is arranged in an elevating structure so that external air flowing into the sterilization inoculation chamber 30 through the sterilization filter layer 60 formed in the filtration chamber unit 40 is supplied to the sterilization inoculation space 30a at a constant pressure. do.

At this time, the elevation equalization piece 43 has a pressure equalization guide surface 43a inclined downward toward the inside of the air supply port 41 through which external air is supplied through the air supply unit 50, and the filtration processing space 40a ) is configured such that the volume gradually decreases from the air supply port 41 toward the inside by the pressure equalization guide surface 43a, so that the external air supplied into the filtration treatment space 40a through the air supply port 41 is uniform in amount and It passes through the sterilization filter layer 60 disposed below with a uniform pressure and is introduced into the sterilization inoculation space 30a.

More preferably, an elevation spring 44 is disposed in the filtration treatment space 40a to upwardly support the elevation equalization piece 43, so that the elevation equalization piece 43 has a height set in the filtration chamber portion 40. In the elevated state, the air is moved up and down elastically in the filtration treatment space 40a according to the amount of external air supplied through the air supply port 41 so that a constant pressure equalization is formed in the filtration treatment space 40a.

That is, the elevating and balancing piece 43 disposed in the filtration processing space 40a elastically rises and falls according to the amount of external air supplied to the filtration processing space 40a through the air supply opening 41, and is disposed at the bottom The amount of external air supplied in the sterilized inoculation space 30a is uniformly formed, and as a result, as the amount of external air supplied in the sterilization inoculation space 30a decreases, a positive pressure state is properly formed in the sterilization inoculation space 30a. Otherwise, excessive wind speed and wind pressure are generated in the sterilization inoculation space 30a due to an increase in the amount of external air, so that the seed cells introduced into the culture medium molded article 100 are scattered in the sterilization inoculation space 30a.

1. Mushroom spawn inoculator
10. Frame structure 11. Moving wheels
20. Transfer conveyor unit 21. Belt transfer conveyor
22. Roll Conveyor
30. Sterile Inoculation Room 30a. sterile inoculation space
31. inlet 32. outlet
33. Elastic opening 34. Sight window
35. Worker 36. Compressor
40. Filtration chamber section 40a. Filtration treatment space
41. Supply port 42. Exhaust port
43. Elevating equalization piece 43a. pressure equalization guide surface
44. Colossus Spring
50. Air supply unit 60. Sterile filter layer
100. Badge molding

Claims (5)

A sterilization inoculation room having a sterilization inoculation space having one or more work holes entering the operator's arm;
A transfer conveyor unit that moves in the longitudinal direction at the bottom of the sterilization inoculation chamber and sequentially passes the molded medium molded body seated therethrough along the sterilization inoculation space;
A filtration chamber portion formed with a filtering treatment space formed with an air supply port through which external air is supplied and an exhaust port communicating with the sterilization inoculation space of the sterilization inoculation room;
an air supply unit for forcibly supplying external air into the filtration processing space through the air supply opening of the filtration chamber unit;
a sterilization filter layer disposed in the filtration processing space to filter external air supplied into the filtration processing space through an air supply unit so that sterilized external air is supplied into the sterilization inoculation space; and
At least, a frame structure providing an installation space for the sterilization inoculation chamber, the transfer conveyor unit, and the filtration chamber unit,
An ascending and descending pressure equalization piece that increases and decreases the volume of the filtration treatment space by a change in internal pressure according to the amount of external air supplied through the air supply port in the filtration chamber unit is arranged in an ascending structure,
The elevation equalization piece has a pressure equalization guide surface inclined downward toward the inside from the air supply port through which external air is supplied through the air supply unit, so that the filtration treatment space gradually increases in volume from the air supply port to the inside by the pressure equalizer guide surface. configured to reduce
An elevation spring is disposed in the filtration processing space to upwardly support the elevation equalization piece, and the elevation equalization piece is elevated to a height set in the filtration chamber unit. A mushroom spawn inoculation device characterized in that it is configured to elastically rise and fall in the space to form a constant pressure in the filtration treatment space. The mushroom spawn inoculation device according to claim 1, characterized in that elastic openings made of a plurality of elastic cilia are disposed in the inlet formed at the rear and the outlet formed at the front of the sterilization inoculation space. According to claim 1, At least one work hole that is an entry and exit path of a worker's arm that requires entry into the sterilization inoculation space on the side wall of the sterilization inoculation room; Mushroom spawn inoculation device, characterized in that each see-through window for visually observing the inside of the sterilization inoculation space where the spawn inoculation is performed is formed. The mushroom spawn inoculation device according to claim 1, wherein the frame structure is configured in the form of a cart in which a plurality of moving wheels are disposed at the bottom. The mushroom spawn inoculation device according to claim 1, wherein a pressure cuff is formed on each work hole to entirely cover the arm of a worker entering the sterilization inoculation space.