CN212065134U - Edible mushroom factory cleaning workshop - Google Patents

Abstract

The utility model relates to an edible mushroom factory purification workshop, which comprises a workshop body, wherein a passageway is arranged in the workshop body, a treatment chamber and a culture chamber are respectively arranged at two sides of the passageway, and the treatment chamber comprises a sterilization chamber, a furnace returning chamber, a pre-cooling chamber, a strong cooling chamber, a chamber to be inoculated, an inoculation chamber and a product chamber which are sequentially arranged side by side; a material conveying port is formed between the sterilizing chamber and the annealing chamber, and the sterilizing chamber and the material conveying port form a first operation channel; an auxiliary chamber is arranged on one side of the chamber to be inoculated, the auxiliary chamber comprises a shoe changing chamber, a dressing chamber, a sterilizing chamber and a buffering chamber, and a second operation channel is formed among the shoe changing chamber, the dressing chamber, the sterilizing chamber, the buffering chamber, the chamber to be inoculated and the chamber to be inoculated; a third operation channel is formed among the buffer chamber, the chamber to be inoculated, the strong cooling chamber, the pre-cooling chamber and the annealing chamber; the product chamber is internally provided with a fungus stick inoculation machine, the inoculation end of the fungus stick inoculation machine extends into the inoculation chamber, and a fourth operation channel is formed among the product chamber, the passageway and the culture chamber. The utility model discloses a fungus stick is gradually cooled down, and the energy consumption is low.

Description

Edible mushroom factory cleaning workshop

Technical Field

The utility model relates to an edible mushroom cultivation technical field, concretely relates to edible mushroom factory purification workshop.

Background

The industrial production of edible fungi generally comprises the steps of sterilizing fungus sticks, inoculating and culturing. The method is characterized in that a high-pressure steam sterilization mode is usually adopted for sterilization of the fungus sticks, the temperature and the humidity of the sterilized fungus sticks are very high, inoculation cannot be carried out immediately, the fungus sticks need to be subjected to cooling treatment, and the conventional edible fungus production factory usually adopts a high-power air conditioner for rapid cooling treatment, but the mode is high in energy consumption; and some factories directly adopt a standing cooling mode, the efficiency of the mode is lower, and the requirement of industrial production cannot be met.

The utility model CN 204540031U discloses a needle mushroom factory production workshop, which is used for solving the problems of unsmooth air flow, poor heat preservation performance, high energy consumption and the like in the workshop; the utility model discloses a ceiling has been set up to the passageway top between the workshop, forms the ventiduct between ceiling and the workshop top, can carry out effectual heat exchange between ventiduct and the passageway, reduces the temperature in the passageway for the gaseous temperature that gets into out the mushroom room through the passageway reduces. But the utility model discloses a can't satisfy the demand of the high-efficient rapid cooling of fungus stick.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve and need carry out energy-conservation, efficient cooling to the fungus stick after the sterilization in the current domestic fungus batch production process, provide a domestic fungus mill and purify the workshop, this workshop overall arrangement has satisfied the high efficiency production demand of domestic fungus.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a purification workshop of an edible fungus factory comprises a workshop body, wherein a passageway is arranged in the workshop body, a treatment chamber and a culture chamber are respectively arranged on two sides of the passageway, and the treatment chamber comprises a sterilization chamber, a furnace annealing chamber, a pre-cooling chamber, a strong cooling chamber, a chamber to be inoculated and a product chamber which are sequentially arranged side by side;

a door is arranged on one side of the sterilizing chamber, which is far away from the passageway, a material conveying opening is arranged between the sterilizing chamber and the annealing chamber, and the sterilizing chamber and the material conveying opening form a first operation channel; the sterilizing chamber is used for mixing, stirring, bagging and high-pressure steam sterilizing the raw materials of the fungus sticks, and is internally provided with a high-pressure steam sterilizer, and a discharge port of the high-pressure steam sterilizer corresponds to the material conveying port and extends into the annealing chamber; the working personnel enter from the door of the sterilization chamber to carry out the operations of material mixing, material mixing and bagging, then the sterilized rod with the bag is put into the high-pressure steam sterilizer for sterilization, and the sterilized rod is taken out from the high-pressure steam sterilizer and then enters the annealing chamber through the material port.

The furnace returning chamber adopts an air-conditioning-free full fresh air full exhaust mode to remove steam cooling bacteria sticks; the precooling chamber adopts an air-conditioning-free full fresh air full exhaust mode to cool the bacteria sticks; the forced cooling chamber adopts a ten thousand-level purification circulation type cooling bacterium rod with primary effect and intermediate effect of an air conditioner;

the inoculation room is used for temporarily storing the sterilized and cooled fungus sticks; the inoculation chamber is used for inoculation of the fungus sticks; the product chamber is used for blanking the inoculated bacteria sticks.

An auxiliary chamber is arranged on one side of the chamber to be inoculated, the auxiliary chamber comprises a shoe changing chamber, a dressing chamber, a sterilizing chamber and a buffering chamber, and a second operation channel is formed among the shoe changing chamber, the dressing chamber, the sterilizing chamber, the buffering chamber, the chamber to be inoculated and the chamber to be inoculated; the staff gets into from the outside and trades shoes room, change the room, trades the indoor work clothes of changing shoes, change the indoor back of clothing, gets into the disinfection room and carries out the disinfection processing, then gets into the room of awaiting inoculation through the surge chamber, transports the fungus stick of the room of awaiting inoculation to the room of inoculation and begins the inoculation work.

A third operation channel is formed among the buffer chamber, the chamber to be inoculated, the strong cooling chamber, the pre-cooling chamber and the annealing chamber; after the working personnel come out from the buffer chamber, the working personnel enter the annealing chamber through the chamber to be inoculated, the strong cooling chamber and the pre-cooling chamber, the bacteria sticks in the high-pressure steam sterilizer are moved into the annealing chamber from the material conveying port, then the bacteria sticks are cooled through the annealing chamber, the pre-cooling chamber and the strong cooling chamber in sequence, and the bacteria sticks are temporarily placed in the chamber to be inoculated after being cooled.

One side of the product chamber, which is far away from the inoculation chamber, is provided with a door, the product chamber is internally provided with a fungus stick inoculation machine, an inoculation end of the fungus stick inoculation machine extends into the inoculation chamber, and a fourth operation channel is formed among the product chamber, the passageway and the culture chamber. The inoculated bacteria sticks enter the product chamber through the discharging end of the bacteria stick inoculating machine, and then the bacteria sticks are moved out of the product chamber and sent to the culture chamber for culture through the passageway.

Furthermore, a return lane is further arranged among the annealing chamber, the pre-cooling chamber, the strong cooling chamber, the chamber to be inoculated and the passageway, and a fifth operation channel is formed among the chamber to be inoculated, the return lane and the sterilization chamber. The operation channel is used for withdrawing the inoculated empty sterilization rack.

Further, a strain inoculation chamber is arranged between the inoculation chamber and the traffic lane, and is used for inoculating strain mother seeds; a strain culture chamber is also arranged on one side of the culture chamber, is also adjacent to the aisle, and is used for culturing strain parent strains; a sixth operation channel is formed among the buffer chamber, the chamber to be inoculated and the strain inoculation chamber;

and a seventh operation channel is formed among the strain inoculation chamber, the chamber to be inoculated, the return lane, the product chamber, the passage and the strain culture chamber.

The operation personnel enter the room to be inoculated from the buffer room and then enter the strain inoculation room to inoculate the strain mother seeds, and after the inoculation is finished, the inoculated mother seeds are moved out of the strain inoculation room and enter the strain culture room to culture the strain mother seeds through the room to be inoculated, the lane returning to the vehicle and the aisle of the product room.

Furthermore, the sterilization chamber, the culture chamber and the strain culture chamber are all internally provided with epoxy permeation terraces, and the annealing chamber, the pre-cooling chamber, the strong cooling chamber, the chamber to be inoculated, the inoculation chamber and the strain inoculation chamber are all internally provided with epoxy self-leveling terraces.

Furthermore, the culture chamber, the annealing chamber and the pre-cooling chamber are communicated with a hundred thousand-level air purification unit, the sterilization chamber, the strong cooling chamber, the chamber to be inoculated, the product chamber, the strain culture chamber and the strain inoculation chamber are communicated with a ten thousand-level air purification unit, and the inoculation chamber is communicated with an integral ten thousand-level local hundred-level air purification unit so as to send outdoor air into the room after the air is processed by the air purification unit.

Furthermore, an air outlet is arranged at the top of the sterilization chamber, the annealing chamber is provided with a top air outlet and a louver air outlet positioned on the side wall of the room, the pre-cooling chamber is provided with a top air outlet and a louver air outlet positioned on the side wall of the room, the forced cooling chamber, the inoculation chamber and the strain inoculation chamber are all provided with a high-efficiency air supply outlet positioned at the top and a side air return inlet positioned on the side face of the bottom of the room, and a hundred-grade purification laminar flow cover is arranged above the inoculation machine in the inoculation chamber. In addition, the culture room is provided with a fresh air system and a carbon dioxide emission fan, and the strain culture room and the product room are also provided with a purification and circulation system.

Furthermore, the annealing chamber, the pre-cooling chamber, the strong cooling chamber, the chamber to be inoculated, the inoculation chamber and the strain inoculation chamber are all provided with sterilization and disinfection equipment.

Further, the forced cooling chamber, the chamber to be inoculated, the inoculation chamber, the culture chamber and the strain culture chamber are also provided with air conditioners.

Through the technical scheme, the beneficial effects of the utility model are that:

1. the utility model is provided with a passage in the workshop body, two sides of the passage are respectively provided with a treatment chamber and a culture chamber, and the treatment chambers comprise a sterilization chamber, a furnace annealing chamber, a pre-cooling chamber, a strong cooling chamber, a chamber to be inoculated, an inoculation chamber and a product chamber which are arranged side by side in sequence; this overall arrangement makes the staff can move the fungus stick in the high pressure steam sterilizer from the material transport mouth and move out of the stove room, then with fungus stick through moving out of the stove room in proper order, precool the room and cool down with the strong cold room, place temporarily in waiting to inoculate the room after the cooling, has realized that the fungus stick gradually cools down, and the energy consumption is low.

2. The setting of the lane of returning satisfies the back empty sterilization frame of inoculation and withdraws from.

3. The feeding end and the discharge port of the high-pressure steam sterilizer are respectively positioned in the sterilizing chamber and the annealing chamber, so that the sterilized bacteria stick is ensured to be in a purified environment, and the pollution of pollutants in the sterilizing chamber to the sterilized bacteria stick is avoided; the inoculation end and the unloading end of fungus stick inoculation machine are respectively located inoculation room and product room for inoculation and transfer fungus stick can be carried out in order in two spaces, mutual interference is avoided, the necessary place of inoculation is limited to the inoculation end of fungus stick inoculation machine, efficient purification treatment to the unloading end is reduced, and energy consumption is further saved.

Drawings

FIG. 1 is a schematic structural diagram of a purification workshop of an edible mushroom factory.

FIG. 2 is a flow chart of the production process of edible fungi of the present invention.

The reference numbers in the drawings are as follows: 1 is passageway, 2 is cultivates the room, 3 is the sterilization room, 31 is high pressure steam sterilizer, 32 is stirring bagging-off production line, 4 is annealing room, 5 is the precooling room, 6 is the forced cooling room, 7 is the room of treating inoculation, 8 is the inoculation room, 81 is fungus stick inoculation machine, 9 is producing the room, 10 is the bacterial cultivation room, 11 is the lane of returning, 13 is the bacterial inoculation room, 14 is the room of changing shoes, 15 is the dressing room, 16 is the disinfection room, 17 is the buffer room, 18 is the wind leaching room.

Detailed Description

The invention will be further explained with reference to the drawings and the detailed description below:

as shown in fig. 1, the edible fungus factory purification workshop comprises a workshop body, wherein a passageway 1 is arranged in the workshop body, a treatment chamber and a culture chamber 2 are respectively arranged on two sides of the passageway 1, and the treatment chamber comprises a sterilization chamber 3, an annealing chamber 4, a pre-cooling chamber 5, a strong cooling chamber 6, a chamber to be inoculated 7, a chamber to be inoculated 8 and a product chamber 9 which are sequentially arranged side by side;

a door is arranged on one side of the sterilizing chamber 3, which is far away from the passageway 1, a material conveying port is arranged between the sterilizing chamber 3 and the annealing chamber 4, and the sterilizing chamber 3 and the material conveying port form a first operation channel; the sterilizing chamber 3 is used for mixing, stirring, bagging and high-pressure steam sterilizing bacteria stick raw materials, a stirring and bagging production line 32 and a high-pressure steam sterilizer 31 are arranged in the sterilizing chamber, and a discharge port of the high-pressure steam sterilizer 31 corresponds to a material conveying port and extends into the annealing chamber 4; the staff gets into from the door of sterilization room 3, carries out compounding, material mixing, bagging-off operation on stirring bagging-off production line 32, then puts into high-pressure steam sterilizer 31 sterilization with the sterilization stick of bagging-off, and the fungus stick after the sterilization gets out from high-pressure steam sterilizer 31 and gets into annealing room 4 through the material mouth.

The furnace returning chamber 4 adopts an air-conditioning-free full fresh air and full air exhaust mode to remove steam cooling bacteria sticks; the precooling chamber 5 cools the bacteria sticks in an air-conditioning-free full fresh air and full air exhaust mode; the forced cooling chamber 6 adopts a ten thousand-level purification circulation type cooling bacterium rod with primary effect and intermediate effect of an air conditioner;

the inoculation chamber 7 is used for temporarily storing sterilized and cooled mushroom sticks; the inoculation chamber 8 is used for inoculation of the fungus sticks; the product chamber 9 is used for blanking the inoculated bacteria sticks.

An auxiliary chamber is arranged on one side of the chamber to be inoculated 7, the auxiliary chamber comprises a shoe changing chamber 14, a changing room 15, a sterilizing chamber 16 and a buffering chamber 17, and a second operation channel is formed among the shoe changing chamber 14, the changing room 15, the sterilizing chamber 16, the buffering chamber 17, the chamber to be inoculated 7 and the chamber to be inoculated 8; in this embodiment, an air shower 18 is further disposed between the sterilizing chamber 16 and the buffer chamber 17, and an air shower device is disposed in the air shower 18. A worker enters the shoe changing room 14 from the outside to change shoes, then enters the dressing room 15 to change working clothes, enters the sterilizing room 16 to be sterilized, then enters the inoculation room 7 from the buffer room 17 to be sterilized, and then transfers the fungus sticks of the inoculation room 7 to the inoculation room 8 to start inoculation.

A third operation channel is formed among the buffer chamber 17, the chamber to be inoculated 7, the strong cooling chamber 6, the pre-cooling chamber 5 and the annealing chamber 4; after the working personnel come out from the buffer chamber 17, the working personnel enter the annealing chamber 4 through the chamber to be inoculated 7, the strong cooling chamber 6 and the pre-cooling chamber 5, the bacteria sticks in the high-pressure steam sterilizer 31 are moved into the annealing chamber 4 from the material conveying port, then the bacteria sticks are cooled through the annealing chamber 4, the pre-cooling chamber 5 and the strong cooling chamber 6 in sequence, and the cooled bacteria sticks are temporarily placed in the chamber to be inoculated 7.

A door is arranged on one side of the product chamber 9 far away from the inoculation chamber 8, a bacteria stick inoculation machine 81 is arranged in the product chamber 9, an inoculation end of the bacteria stick inoculation machine 81 extends into the inoculation chamber 8, and a fourth operation channel is formed among the product chamber 9, the passageway 1 and the culture chamber 2. The inoculated bacteria sticks enter the product chamber 9 through the feed end of the bacteria stick inoculating machine 81, and then the bacteria sticks are moved out of the product chamber 9 and sent to the culture chamber 2 for culture through the passageway 1.

In this embodiment, a return lane 11 is further provided between the annealing chamber 4, the pre-cooling chamber 5, the strong cooling chamber 6 and the aisle 1, a return lane 11 is further provided between the annealing chamber 4, the pre-cooling chamber 5, the strong cooling chamber 6, the chamber to be inoculated 7 and the aisle 1, and a fifth operation channel is formed between the inoculation chamber 8, the chamber to be inoculated 7, the return lane 11 and the sterilization chamber 3. The operation channel is used for withdrawing the inoculated empty sterilization rack.

A strain inoculation chamber 13 is also arranged between the inoculation chamber 8 and the return lane 1, and the strain inoculation chamber 13 is used for inoculating strain mother seeds; a strain culture chamber 10 is further arranged on one side of the culture chamber 2, the strain culture chamber 10 is also adjacent to the passageway 1, and the strain culture chamber 10 is used for culturing strain parent strains; a sixth operation channel is formed among the buffer chamber 17, the chamber to be inoculated 7 and the strain inoculation chamber 10;

a seventh operation channel is formed among the strain inoculation chamber 10, the chamber to be inoculated 7, the return lane 11, the product chamber 9, the passageway 1 and the strain culture chamber 10.

The operator enters the room 7 for inoculation from the buffer room 17, then enters the inoculation room 13 for inoculation of the mother strains, and after inoculation is finished, the inoculated mother strains are moved out of the inoculation room 13, pass through the room 7 for inoculation, the lane 11 and the product room 9, and enter the strain culture room 10 for culture of the mother strains.

As a specific embodiment, epoxy permeation terraces are arranged in the sterilization chamber 3, the culture chamber 2 and the strain culture chamber 10, and epoxy self-leveling terraces are arranged in the annealing chamber 4, the pre-cooling chamber 5, the strong cooling chamber 6, the chamber to be inoculated 7, the chamber to be inoculated 8 and the strain inoculation chamber 13.

The annealing chamber 4 is communicated with a hundred thousand grade air purification unit (the number of ventilation times is 15-20 times per hour), the air supply volume of the air purification unit is 5000 meters per hour, the annealing chamber 4 is provided with a top air outlet and a louver air outlet positioned on the side wall of a room, the top air outlet is positioned above the discharge port end of the high-pressure steam sterilizer 31 and is 1800 mm/700 mm in specification, the annealing chamber 4 adopts the hundred thousand grade air purification unit to treat outdoor air through the purification unit and then send the air into the room through the louver air outlet on the side wall, and then the air is discharged out of the room through the top air outlet and the stainless steel exhaust hood above the high-pressure steam sterilizer 31. Air conditioning equipment is not arranged in the annealing chamber 4, the temperature of the bacteria stick with the central temperature of 100 ℃ just exiting the high-pressure steam sterilizer 31 can be reduced to about 80 ℃ within about 2 hours, and then the bacteria stick enters the pre-cooling chamber 5 to be continuously reduced.

The precooling chamber 5 is communicated with a hundred thousand-level air purification unit (the ventilation frequency is 15-20 times per hour), the air intake of the air purification unit is 8000 m/h, the precooling chamber 5 is provided with a top air outlet and a louver air outlet positioned on the side wall of a room, the specification of the top air outlet is 500mm by 500mm, the precooling chamber 5 adopts the hundred thousand-level air purification unit to treat outdoor air through the purification unit, then the air is sent into the room through the louver air outlet on the side wall, and then the air is connected to an exhaust fan through the top air outlet and is exhausted out of the room. The precooling chamber 5 is not required to be provided with air conditioning equipment, the central temperature of the bacteria stick can be reduced from the original 80 ℃ to about 50 ℃ after the bacteria stick is placed in the precooling chamber 5 for about 6 hours, and then the bacteria stick enters the strong cooling chamber 6 to be continuously cooled.

The forced cooling chamber 6 is provided with an air conditioner and is communicated with ten thousand stages of air purification units (ventilation times are 25-30 times per hour), the air intake of the air purification units is 10000 m/h, the forced cooling chamber 6 is provided with an efficient air supply opening located at the top and a side air return opening located on the side face of the bottom of the room, and the air supply amount of the efficient air supply opening is 1500 m/h. The forced cooling chamber 6 adopts a type cooling bacterium rod with air-conditioning primary effect, medium-efficiency high-efficiency ten thousand-level purification circulation. The strong cooling chamber 6 adopts a ten thousand-level air purification unit to treat outdoor air through the purification unit and then send the treated outdoor air into a high-efficiency air supply outlet at the top of the room, and then the treated outdoor air is connected to the rear end of the ten thousand-level purification unit through a side air return inlet at the bottom of the room to circularly send back air. The central temperature of the fungus stick can be reduced from the original 50 ℃ to below 30 ℃ in the strong cooling chamber 6 for about 6 hours, and the fungus stick enters the inoculation chamber 7 to be inoculated.

Treat that inoculation room 7 installs the air conditioner, communicates and has ten thousand grades of air purification unit (take a breath the number of times 25 ~ 30 times per hour), and the air intake of this air purification unit is 10000 m/h, treat that inoculation room 7 is provided with the high-efficient supply-air outlet that is located the top and is located the side return air inlet of room bottom side, and the supply-air outlet's supply-air outlet is 1500 m/h.

The strain inoculation room 13 is provided with an air conditioner and communicated with ten thousand stages of air purification units (ventilation times are 25-30 times per hour), the air intake of the air purification units is 1500 m/h, the strain inoculation room 13 is provided with efficient air supply outlets located at the top and side air return openings located on the side face of the bottom of a room, and the air supply amount of the efficient air supply outlets is 1000 m/h.

The inoculation room 8 is installed the air conditioner, communicates the air purification unit that has whole ten thousand local parts hundred (take a breath the number of times 25 ~ 30 times per hour), and this air purification unit's intake is 8000m year/h, and inoculation room 8 is provided with the high-efficient supply-air outlet that is located the top and the side return air inlet that is located room bottom side, and the supply-air output of high-efficient supply-air outlet is 1500m year/h. The inoculation room 8 adopts a cold purification room with air-conditioning primary effect, medium-efficiency high-efficiency ten thousand-level purification circulation. The inoculation room 8 adopts a ten thousand-level air purification unit to treat outdoor air through the purification unit and then send the treated outdoor air into a high-efficiency air supply outlet at the top of a room, and then the treated outdoor air is connected to the rear end of the ten thousand-level air purification unit through a side air return inlet at the bottom of the room and circularly sent back to the air. A hundred-grade laminar flow cover is arranged above the strain inoculation machine 81, and is opened during inoculation, and the specification of the hundred-grade laminar flow cover is 1200 x 1800 mm.

The annealing chamber 4, the pre-cooling chamber 5, the strong cooling chamber 6, the chamber to be inoculated 7, the inoculation chamber 8 and the strain inoculation chamber 13 are all internally provided with a sterilization and disinfection device. Specifically, the sterilization and disinfection equipment in this embodiment is an ultraviolet germicidal lamp.

The culture room 2 adopts a secondary suspended ceiling, the openings at the two ends of the interlayer of the pipeline secondary suspended ceiling are provided with a primary medium-efficiency filter device (having the filtering function of entering fresh air) and a waterproof shutter air inlet as a fresh air source of the culture room 2, when the concentration of carbon dioxide exceeds the requirement, air is exchanged and enters the room through a fresh air fan at one side of the room, and the air exhaust fan at the other side of the room exhausts indoor carbon dioxide outdoors. The air conditioning system adopts an edible fungus cold air conditioner (YFC-72 FC), and the air conditioning equipment has high power and low energy consumption.

As shown in fig. 2, a process for producing edible fungi comprises the following steps:

(1) mixing, stirring and bagging raw materials for the fungus sticks on a stirring and bagging production line 32 of a sterilization room 3, and then sterilizing in a high-pressure steam sterilizer 31;

(2) then the sterilized fungus sticks are conveyed to a furnace returning chamber 4 through a material conveying port to be cooled after steam is removed;

(3) the fungus sticks are gradually cooled through a pre-cooling chamber 5 and a strong cooling chamber 6 in sequence; finally transferring the cooled fungus sticks to a chamber 7 to be inoculated for later use;

(4) transferring the strains cultured in the strain culture chamber 10 to an inoculation chamber 8, taking a strain rod from a chamber 7 to be inoculated to the inoculation chamber 8, and inoculating at an inoculation end of a strain rod inoculation machine 81;

(5) the inoculated bacteria sticks enter the product chamber 9 through the feed end of the bacteria stick inoculating machine 81, and then the bacteria sticks are moved out of the product chamber 9 and sent to the culture chamber 2 for culture through the passageway 1.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (8)

1. The edible fungus factory purification workshop is characterized by comprising a workshop body, wherein a passageway (1) is arranged in the workshop body, a treatment chamber and a culture chamber (2) are respectively arranged on two sides of the passageway (1), and the treatment chamber comprises a sterilization chamber (3), an annealing chamber (4), a pre-cooling chamber (5), a strong cooling chamber (6), a chamber to be inoculated (7), a chamber to be inoculated (8) and a product chamber (9) which are sequentially arranged side by side;

a door is arranged on one side of the sterilizing chamber (3) far away from the passageway (1), a material conveying port is arranged between the sterilizing chamber (3) and the annealing chamber (4), and the sterilizing chamber (3) and the material conveying port form a first operation channel;

an auxiliary chamber is arranged on one side of the chamber to be inoculated (7), the auxiliary chamber comprises a shoe changing chamber (14), a dressing chamber (15), a sterilizing chamber (16) and a buffering chamber (17), and a second operation channel is formed among the shoe changing chamber (14), the dressing chamber (15), the sterilizing chamber (16), the buffering chamber (17), the chamber to be inoculated (7) and the chamber to be inoculated (8);

a third operation channel is formed among the buffer chamber (17), the chamber to be inoculated (7), the strong cooling chamber (6), the pre-cooling chamber (5) and the annealing chamber (4);

one side of the product chamber (9) far away from the inoculation chamber (8) is provided with a door, a bacteria stick inoculation machine (81) is arranged in the product chamber (9), an inoculation end of the bacteria stick inoculation machine (81) extends into the inoculation chamber (8), and a fourth operation channel is formed among the product chamber (9), the passageway (1) and the culture chamber (2).

2. The edible fungus factory cleaning workshop according to claim 1, wherein a return lane (11) is further arranged among the annealing chamber (4), the pre-cooling chamber (5), the strong cooling chamber (6), the chamber to be inoculated (7) and the corridor (1), and a fifth operation channel is formed among the chamber to be inoculated (8), the chamber to be inoculated (7), the return lane (11) and the sterilization chamber (3).

3. The edible fungus factory cleaning workshop according to claim 2, characterized in that a strain inoculation chamber (13) is further arranged between the inoculation chamber (8) and the return lane (11), a strain cultivation chamber (10) is further arranged on one side of the cultivation chamber (2), and the strain cultivation chamber (10) is also adjacent to the aisle (1);

a sixth operation channel is formed among the buffer chamber (17), the chamber to be inoculated (7) and the strain inoculation chamber (13);

a seventh operation channel is formed among the strain inoculation chamber (13), the chamber to be inoculated (7), the return lane (11), the product chamber (9), the passageway (1) and the strain culture chamber (10).

4. The edible fungus factory purification workshop according to claim 3, wherein epoxy permeable terraces are arranged in the sterilization chamber (3), the culture chamber (2) and the strain culture chamber (10), and epoxy self-leveling terraces are arranged in the annealing chamber (4), the pre-cooling chamber (5), the forced cooling chamber (6), the chamber to be inoculated (7), the inoculation chamber (8) and the strain inoculation chamber (13).

5. The edible fungus factory cleaning workshop according to claim 3, wherein the cultivation chamber (2), the annealing chamber (4) and the pre-cooling chamber (5) are communicated with a hundred thousand-level air cleaning unit, the sterilization chamber (3), the strong cooling chamber (6), the chamber to be inoculated (7), the product chamber (9), the strain cultivation chamber (10) and the strain inoculation chamber (13) are communicated with a ten thousand-level air cleaning unit, and the inoculation chamber (8) is communicated with an integral ten thousand-level local hundred-level air cleaning unit so as to send outdoor air into the room after being processed by the air cleaning unit.

6. The edible fungus factory purification workshop according to claim 3, wherein an air outlet is installed at the top of the sterilization chamber (3), the annealing chamber (4) is provided with a top air outlet and louver air outlets positioned on the side wall of the room, the pre-cooling chamber (5) is provided with a top air outlet and louver air outlets positioned on the side wall of the room, the forced cooling chamber (6), the inoculation chamber (8) and the fungus inoculation chamber (13) are respectively provided with a high-efficiency air supply outlet positioned at the top and a side air return outlet positioned on the side surface of the bottom of the room, and a hundred-grade purification laminar flow cover is installed above the inoculation machine in the inoculation chamber (8).

7. The edible fungus factory cleaning workshop according to claim 3, wherein the annealing chamber (4), the pre-cooling chamber (5), the strong cooling chamber (6), the chamber to be inoculated (7), the inoculation chamber (8) and the strain inoculation chamber (13) are all provided with medium sterilization and disinfection equipment.

8. The edible fungi factory cleaning plant according to claim 3, characterized in that the forced cooling chamber (6), the inoculation chamber (7), the inoculation chamber (8), the cultivation chamber (2) and the spawn cultivation chamber (10) are further equipped with air conditioners.

Images