CN112293163A - Integrated manufacturing equipment for edible fungus bags - Google Patents

Abstract

The invention discloses integrated manufacturing equipment for edible fungus bags, which belongs to the technical field of edible fungus production and comprises a feeding device, a high-temperature bin, a cooling bin, a fungus seed bin, a water supply circulating system and a bagging machine, wherein a first stirring device is arranged in the high-temperature bin, the cooling bin is provided with a cooling cavity, a cooling interlayer wrapping the cooling cavity and a second stirring device positioned in the cooling cavity, the feeding device is connected with the high-temperature bin, the cooling bin is positioned below the high-temperature bin and communicated with the high-temperature bin through a second valve, the cooling cavity is communicated with a material inlet of the bagging machine, and the fungus seed bin is communicated with the cooling cavity or the bagging machine; the water supply circulating system comprises a cold water part communicated with the cooling interlayer, a hot water part and a steam part which are communicated with the high-temperature bin. The equipment sequentially realizes the integrated operation of automatic feeding, mixing and stirring, sterilization, cooling, strain access and bagging, has high working efficiency, stable treatment process and improved inoculation quality, obviously shortens the time for spawn running, and improves the production efficiency.

Description

Integrated manufacturing equipment for edible fungus bags

Technical Field

The invention relates to the technical field of edible fungus production, in particular to integrated manufacturing equipment for an edible fungus bag.

Background

At present, the production of edible fungi is basically to insert strains into a packaging bag filled with a culture medium base material to form a fungus bag for cultivation and growth. The whole process needs to be carried out by adding water into the base material, mixing and stirring, bagging, sterilizing at high temperature, cooling, inoculating strains and the like. In the prior art, the treatment of each link of the base material is usually carried out manually by using a stirrer or a bagging machine step by step, the working efficiency is low, the base material is usually packed into a bag and then subjected to high-temperature sterilization, and strains are inoculated after natural cooling, the time consumption is long, the treatment effect is to be improved, the strains and the base material cannot be fully mixed, the spawn running time is long, and the production efficiency of the whole edible fungi is low. Therefore, how to improve the inoculation quality and the production efficiency of edible fungi becomes a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention aims to provide integrated manufacturing equipment for edible fungus bags, which sequentially realizes integrated operations of automatic feeding, mixing and stirring, sterilization, cooling, strain accessing and bagging, has high working efficiency, stable treatment process and improved inoculation quality, obviously shortens the fungus growing time and improves the production efficiency.

In order to achieve the aim, the invention provides integrated manufacturing equipment for edible fungus bags, which comprises a feeding device, a high-temperature bin, a cooling bin, a fungus seed bin, a water supply circulating system and a bagging machine, a first stirring device is arranged in the high-temperature bin, the cooling bin is provided with a cooling cavity, a cooling interlayer wrapping the cooling cavity and a second stirring device positioned in the cooling cavity, the feeding device is connected with a first feeding hole of the high-temperature bin, the first feeding hole is provided with a first valve which is communicated or cut off, the cooling bin is positioned below the high-temperature bin, a first discharge hole of the high-temperature bin is communicated with a second feed hole of the cooling cavity and is provided with a second valve, the second discharge hole of the cooling cavity is communicated with the material inlet of the bagging machine through a conveying device and is provided with a third valve, and the strain bin is communicated with the cooling cavity or the material inlet of the bagging machine; the water supply circulating system comprises a cold water part, a hot water part and a steam part for generating steam, wherein a water outlet of the cold water part is communicated with a water inlet of the cooling interlayer, and an outlet of the hot water part and an outlet of the steam part are communicated with the high-temperature bin.

Preferably, still include the controller and have and be located high temperature storehouse below and be used for the measurement the weighing device of high temperature storehouse weight, the controller with weighing device communication connection, high temperature storehouse is provided with the release valve that supplies steam to flow out.

Preferably, the water outlet of the cooling interlayer is communicated with the hot water part, and the outlet of the hot water part is communicated with the inlet of the steam part.

Preferably, the second discharge port is communicated with a material inlet of the bagging machine through a conveying pipeline, and the air release valve is communicated with the conveying pipeline.

Preferably, the cooling water supply device further comprises a temperature sensor which is located at the water outlet of the cooling interlayer and is in communication connection with the controller, the cold water part is provided with a storage tank, and the water outlet of the cooling interlayer is communicated with the storage tank.

Preferably, the high-temperature bin and the cooling bin are erected on the support frame in the vertical direction respectively, the first discharge port is connected with the second feed port through a vertically arranged communicating channel, the first valve is arranged on the communicating channel, and the weighing device is arranged on the support frame.

Preferably, the hot water part comprises a recovery tank communicated with the cold water interlayer and a heating tank communicated with the recovery tank, the heating tank is provided with a heater, and the heating tank is communicated with the steam part.

Preferably, the high-temperature bin is provided with a pressure sensor in communication connection with the controller, and the steam part and the hot water part are both provided with temperature sensors in communication connection with the controller.

Preferably, the high-temperature bin and the cooling bin are both long tanks which are transversely arranged, and the first stirring device and the second stirring device both comprise stirring power, a stirring shaft in transmission connection with the stirring power, and spiral stirring blades connected to the stirring shaft.

Preferably, the high-temperature bin is provided with an internal bin and an insulating layer wrapping the internal bin.

According to the technical scheme, the integrated manufacturing equipment for the edible fungus bags comprises a feeding device, a high-temperature bin, a cooling bin, a fungus seed bin, a water supply circulating system and a bagging machine, wherein a base material enters the high-temperature bin through the feeding device, is mixed with hot water in a hot water part and is uniformly stirred by a first stirring device, a steam part of the water supply system provides high-temperature steam for the high-temperature bin so as to sterilize the mixed base material at high temperature, after sterilization is finished, the high-temperature base material enters the cooling bin and is cooled by cold water flowing through a cooling interlayer, after cooling, a fungus can enter the cooling bin, is mixed with the sterilized base material, is uniformly mixed by a second stirring device and then enters the bagging machine for bagging, or the fungus and the base material enter the bagging machine and are uniformly mixed and then are bagged. So, integrate each processing link, accomplish the production of whole domestic fungus package automatically, production efficiency is high-efficient, and the base material is bulk cargo form and water mixture to suitable proportion, keeps suitable cultivation humidity to be bulk cargo form and bacterial homogeneous mixing, bagging-off at last, not only can improve the inoculation quality, and make the even just dispersive intensive mixing of bacterial and base material, it is long when showing to shorten to send out the fungus, improves the production efficiency of whole domestic fungus, also improves and sends out fungus volume and domestic fungus growth quality.

In the preferred scheme of the invention, the integrated manufacturing equipment of the edible fungus bag also comprises a controller and a weighing device for metering the weight of the high-temperature bin, so that the weight of the dry base material and the water mixed in the dry base material can be accurately measured and regulated, and the dry-wet ratio can be accurately controlled, so that the base material is stable and accurate, has the humidity which is most suitable for the growth and growth of strains, the quality of the fungus bag is improved, the fungus growing time is further shortened, and the fungus growing amount and the growth quality of the edible fungi are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an integrated edible fungus bag manufacturing apparatus according to an embodiment of the present invention;

fig. 2 is a schematic diagram of the internal structures of the high-temperature bin and the cooling bin in the embodiment of the invention.

In FIGS. 1-2:

1. a feeding device; 2. a high-temperature bin; 21. a first valve; 22. a second valve; 23. a first stirring device; 24. a gas release valve; 25. a heat-insulating layer; 26. a steam inlet; 3. a cooling bin; 31. cooling the interlayer; 32. a second feed port; 33. a second discharge port; 34. a second stirring device; 35. a delivery conduit; 4. bagging machine; 5. a storage tank; 6. a recovery tank; 7. a heating tank; 8. a steam section; 9. a support frame; 10. and a weighing device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

An object of this embodiment is to provide an integrated preparation equipment of domestic fungus bag, realizes in proper order that the automation connects the material, mixes stirring, sterilization, cooling, integrated operation that the bacterial inserts and the bagging-off, and work efficiency is high, and the processing procedure is stable, inoculation quality improves to it is long when showing to have shortened to send out the fungus, improves production efficiency.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the contents of the invention recited in the claims. The entire contents of the configurations shown in the following embodiments are not limited to those required as solutions of the inventions described in the claims.

Referring to fig. 1-2, the integrated manufacturing apparatus for edible fungus bags provided in this embodiment includes a feeding device 1, a high temperature bin 2, a cooling bin 3, a fungus seed bin, a water supply circulation system and a bagging machine 4, where the feeding device 1 may be a screw conveyor or a feeding device with conveying power and a conveying belt in the prior art, the high temperature bin 2 is provided with a first feeding port, a steam inlet 26, an air release valve 24, a first discharging port and a first stirring device 23 located in the bin, and the first feeding port is provided with a first valve 21; a material output port of the feeding device 1 is connected with a first feed port of the high-temperature bin 2, so that the base material enters the high-temperature bin 2; the cooling chamber 3 is provided with a cooling cavity and a cooling interlayer 31 wrapping the cooling cavity, the cooling cavity is provided with a second feeding hole 32, a second discharging hole 33 and a second stirring device 34 positioned in the cooling cavity, the cooling chamber 3 is positioned below the high-temperature chamber 2, the second feeding hole 32 of the cooling cavity is communicated with the first discharging hole of the high-temperature chamber 2, a conducting or cutting second valve 22 is arranged between the two discharging holes, and the base material of the high-temperature chamber 2 can fall into the cooling cavity; the water supply system comprises a cold water part, a hot water part and a steam part 8, wherein the water outlet of the hot water part is communicated with the high-temperature bin 2, and hot water is injected into the high-temperature bin 2 to mix the base material with water; the steam part 8 is used for providing high-temperature steam, and can be a steam generator in the prior art or a heating device which is matched with an electric heating rod and the like on a steam tank and enables water to be vaporized, a steam outlet of the steam part 8 is communicated with a steam inlet 26 of the high-temperature bin 2, so that the generated steam is injected into the high-temperature bin 2, and high-temperature sterilization treatment is carried out on a base material in the high-temperature bin 2, as shown in fig. 2, the steam inlet 26 can be provided with a plurality of openings which are dispersed on the side wall of the high-temperature bin 2, so that steam can be injected rapidly and in multiple areas; the plurality of cold water parts are communicated with the cooling interlayer 31 so as to inject cooling water into the cooling interlayer 31 and cool the base material in the cooling cavity; the second outlet 33 of the cooling chamber may be in communication with the material inlet of the bagging machine 4 via a conveying device, which may be a material conveying part of the bagging machine 4 or another material conveying device; the strain bin can be a fixed container for storing a large amount of strains or a hopper for adding the strains, the strain bin is communicated with the cooling cavity or a material inlet of the bagging machine 4, the strains can be injected into the cooling cavity to be mixed with the base material and then bagged, or can be injected into the bagging machine 4 to be mixed with the base material and then bagged.

When the device is used, the base material is injected into the high-temperature bin 2 through the feeding device 1, the hot water part injects hot water into the high-temperature bin 2, and the base material and the hot water in the high-temperature bin 2 are stirred and mixed through the first stirring device 23 to ensure that the base material has the required culture humidity and also the base material is heated; the first valve 21 closes the first feeding hole to seal the high-temperature bin 2, and the steam part 8 injects high-temperature steam into the high-temperature bin 2 to sterilize the base material at high temperature; after sterilization, redundant steam in the high-temperature bin 2 can be discharged through the air escape valve 24, and the second valve 22 is opened, so that the sterilized base directly falls into the cooling cavity of the cooling bin 3; the cooling part supplies cold water to the cooling interlayer 31 to cool the high-temperature base material in the cooling cavity; after the temperature reduction is finished, strains can be injected into the cooling cavity to be uniformly mixed with the base material through the second stirring device 34, then the third valve is opened, the mixed strains enter the bagging machine 4 to be stirred again and then are bagged to form a strain bag, or the cooled base material is directly injected into the material cavity of the bagging machine 4, the strains are also injected into the material cavity of the bagging machine 4, and the strains and the base material are uniformly mixed through the stirrer of the material cavity in the bagging machine 4 and then are bagged to form the strain bag.

With such an arrangement, the integrated manufacturing equipment for the edible fungus bag provided by the embodiment integrates and integrates the links of feeding, mixing, sterilizing, cooling, inoculating and bagging, realizes automatic production, shortens the production flow time, and improves the production efficiency; in the second aspect, the cooling bin 3 and the high-temperature bin 2 are separately arranged, so that the cooling time can be shortened, the cooling bin 3 is positioned below the high-temperature bin 2, the base material directly falls into the cooling bin 3 without being conveyed, the structure is simple, the cost is low, the transmission among links is rapid, and the conveying time is shortened; the third aspect, production flow is different from prior art, be the dispersion form with the base-material and mix with water, be dispersion form and carry out high temperature sterilization, the misce bene, the sterilization is quick thorough, humidity effect is ideal, and be dispersion form and the inoculation is realized through the stirring with the bacterial, the bacterial disperses to the base-material in, the misce bene, the contact dispersion is just abundant, inoculation high quality, can show to shorten and send out the fungus long time, improve the production efficiency of domestic fungus, and because whole fungus package preparation flow is stable, fungus material quality improves, thereby also improved and sent out fungus volume and domestic fungus growth quality.

Further, edible fungus bag's integration preparation equipment still includes the controller and is used for metering the weighing device 10 of 2 weights in high temperature storehouse in this embodiment, weighing device 10 is located 2 below in high temperature storehouse, cooling storehouse 3 tops, controller and weighing device 10 communication connection come automatic and accurate measurement weight to the moisture weight of sneaking into in the accurate control base material, the humidity of control base material improve the base material quality, guarantee that the fungus sends out fast and good growth of bacterial.

As shown in fig. 1, the high-temperature bunker 2 and the low-temperature bunker are stacked on the support frame 9 in a vertical direction. The high-temperature bin 2 is located above the cooling bin 3, and the first discharge hole of the high-temperature bin 2 is opposite to the second feed inlet 32 of the cooling bin 3. The first discharge hole is connected with the second feed hole 32 through a vertically arranged communication channel, and the first valve 21 is arranged on the communication channel. And the weighing means 10 are arranged on the support frame 9. The weighing device 10 may be a weighing and metering device with a gravity sensor in the prior art, and may be provided with a plurality of supporting points or supporting feet which are respectively arranged on the supporting frame 9 for the high-temperature chamber 2. Through weighing device 10 and controller, can carry out real-time measurement to the weight in high temperature storehouse 2, can regard empty high temperature storehouse 2 weight as the benchmark, carry out the weighing measurement after the dry base material pours into high temperature storehouse 2 into and record the weight of dry base material, record hot water weight after letting in hot water, after high temperature sterilization and dispel unnecessary steam, can record the total moisture weight of sneaking into dry base material, thereby the integrated preparation equipment of the domestic fungus package of this embodiment, can accurately detect and regulate and control the mixing ratio of dry base material and water, the final humidity of control base material, make the base material contain optimum moisture, hold the humidity that promotes the bacterial development and growth well, show the quality of improvement and the fungus package of controlling production, can further shorten the length of time of giving off the fungus, also improve the volume of giving off the fungus and the domestic fungus growth quality.

High temperature storehouse 2 and cooling bin 3 all can be horizontal long jar, first agitating unit 23 and second agitating unit 34 all can be horizontal level setting, all can include stirring power, (mixing) shaft and stirring vane, the one end and the stirring power of (mixing) shaft are connected like motor drive, the other end stretches into in the storehouse and horizontal extension, stirring vane can be a plurality of dispersion blades, axial and circumference along the (mixing) shaft are the dispersion form and connect on the (mixing) shaft, in order to carry out omnidirectional intensive mixing to the base stock, or, first agitating unit 23 and second agitating unit 34 all are wet and dry agitator, stirring vane is a holistic spiral stirring vane, axial spiral dish screen along the (mixing) shaft is on the (mixing) shaft, and spiral stirring vane can touch the inner wall of high temperature storehouse 2, play the effect of scraping to the inner wall, prevent that the base stock from gluing on the inner wall. Can be provided with the manometer on the high temperature storehouse 2, when high temperature sterilization, monitor internal pressure, perhaps, be provided with on the high temperature storehouse 2 with controller communication connection's temperature sensor and pressure sensor, carry out accurate monitoring and regulation and control to internal temperature and pressure. The controller may be a prior art PLC of the type known as the siemens smart-7 series.

To avoid heat loss, the high temperature silo 2 is provided with an internal chamber and a heat insulating layer 25 wrapping the internal chamber. The insulation 25 may be formed of aluminum silicate.

In order to save energy, in this embodiment, the water outlet of the cooling interlayer 31 is communicated with the hot water portion, the outlet of the hot water portion is communicated with the inlet of the steam portion 8, so that the water with a certain temperature after cooling the base material enters the hot water portion, the absorbed heat is recycled, the heat consumption of the hot water portion is reduced, the hot water portion of the hot water portion is used for being mixed with the base material, the base material has a temperature, the heat consumption of steam caused by high-temperature sterilization can be reduced, part of the water enters the steam portion 8, the energy consumption used by the vaporized water of the steam portion 8 is reduced, and the water supplied by the circulating system forms a virtuous cycle.

Furthermore, can also carry out the ladder according to the temperature of the water that flows out of cooling interlayer 31 and retrieve water, in this embodiment, the cooling portion is provided with holding vessel 5 that is used for storing cooling water, hot water portion is provided with recovery tank 6, cooling interlayer 31's delivery port department is provided with temperature sensor, cooling interlayer 31's delivery port passes through three way valve and is linked together with holding vessel 5 and recovery tank 6 respectively, temperature sensor and three way valve all with controller communication connection, then can the temperature of the water that flows out from cooling interlayer 31 by automatic identification, and according to the height of temperature, select to retrieve the holding vessel 5 of cold water portion with the water that the temperature is low directly, wait for next use, retrieve the water that the temperature is high in the recovery tank 6 of hot water portion, use as hot water. So set up, can carry out abundant and reasonable utilization to the heat, reduce the heat loss of retrieving to minimumly.

Further, in this embodiment, the second discharge port 33 of the cooling bin 3 is communicated with the material inlet of the bagging machine 4 through a conveying pipeline 35, the conveying pipeline 35 may be provided with a conveying pump in the prior art, or may be obliquely arranged, and the conveying pipeline 35 may be directly connected with the inlet of the material cavity of the bagging machine 4, so that the base material directly slides down into the material cavity of the bagging machine 4. The air release valve 24 of the high-temperature bin 2 is communicated with the conveying pipeline 35 through a pipeline, then when high-temperature sterilization is finished, high-temperature steam in the high-temperature bin 2 can enter the conveying pipeline 35 through the air release valve 24 and the pipeline, the conveying pipeline 35 and even the bagging machine 4 on the downstream of the conveying pipeline 35 are also subjected to high-temperature sterilization, the effect of cleaning the conveying pipeline 35 is achieved, the quality of fungus materials in fungus bags is guaranteed and improved, and complete and thorough full utilization is also performed on the heat of the whole water supply circulating system.

The hot water portion department also can be provided with the temperature sensor with controller communication connection, detects the temperature of hot water portion, and hot water portion can also include the heater, heats the water of hot water portion, regulates and control hot water temperature. The heater can be directly arranged on the recovery tank 6, or the hot water part also comprises a heating tank 7 communicated with the recovery tank 6, the heater is arranged on the heating tank 7, the heating tank 7 is respectively communicated with the high-temperature bin 2 and the steam part 8, and the recovery tank 6 is only used for storing the water recovered from the cooling interlayer 31 and preserving the heat of the water. The heating tank 7 and the recovery tank 6 are separately arranged, and only water with the required amount for each production of the high-temperature bin 2 can be heated, so that energy is saved.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments. The multiple schemes provided by the invention comprise basic schemes, are independent from each other and are not restricted with each other, but can be combined with each other under the condition of no conflict, so that multiple effects are realized together.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The integrated manufacturing equipment for the edible fungus bags is characterized by comprising a feeding device (1), a high-temperature bin (2), a cooling bin (3), a fungus seed bin, a water supply circulating system and a bagging machine (4), wherein a first stirring device (23) is arranged in the high-temperature bin (2), the cooling bin (3) is provided with a cooling cavity, a cooling interlayer (31) wrapping the cooling cavity and a second stirring device (34) positioned in the cooling cavity, the feeding device (1) is connected with a first feeding hole of the high-temperature bin (2), the first feeding hole is provided with a first valve (21) which is communicated or cut, the cooling bin (3) is positioned below the high-temperature bin (2), a first discharging hole of the high-temperature bin (2) is communicated with a second feeding hole (32) of the cooling cavity and is provided with a second valve (22), a second discharge hole (33) of the cooling cavity is communicated with a material inlet of the bagging machine (4) through a conveying device and is provided with a third valve, and the strain bin is communicated with the cooling cavity or the material inlet of the bagging machine (4);

the water supply circulating system comprises a cold water part, a hot water part and a steam part (8) used for generating steam, a water outlet of the cold water part is communicated with a water inlet of the cooling interlayer (31), and an outlet of the hot water part and an outlet of the steam part (8) are communicated with the high-temperature bin (2).

2. The integrated manufacturing equipment of the edible fungus bag as claimed in claim 1, further comprising a controller and a weighing device (10) which is positioned below the high-temperature bin (2) and used for measuring the weight of the high-temperature bin (2), wherein the controller is in communication connection with the weighing device (10), and the high-temperature bin (2) is provided with a gas release valve (24) for steam to flow out.

3. The integrated production equipment of edible fungus bag as recited in claim 2, wherein the water outlet of the cooling interlayer (31) is communicated with the hot water part, and the outlet of the hot water part is communicated with the inlet of the steam part (8).

4. The integrated production equipment of edible fungus bags according to claim 3, wherein the second discharge port (33) is communicated with the material inlet of the bagging machine (4) through a conveying pipeline (35), and the air release valve (24) is communicated with the conveying pipeline (35).

5. The integrated manufacturing equipment of the edible fungus bag as claimed in claim 3, further comprising a temperature sensor positioned at the water outlet of the cooling interlayer (31) and in communication connection with the controller, wherein the cold water part is provided with a storage tank (5), and the water outlet of the cooling interlayer (31) is communicated with the storage tank (5).

6. The integrated edible fungus bag manufacturing equipment as recited in claim 2, further comprising a support frame (9), wherein the high temperature bin (2) and the cooling bin (3) are respectively erected on the support frame (9) in a vertical direction, the first discharge port and the second feed port (32) are connected through a vertically arranged communication channel, the first valve (21) is arranged on the communication channel, and the weighing device (10) is arranged on the support frame (9).

7. The integrated edible mushroom bag manufacturing apparatus according to claim 3 or 5, wherein the hot water part comprises a recovery tank (6) communicated with the cold water interlayer and a heating tank (7) communicated with the recovery tank (6), the heating tank (7) is provided with a heater, and the heating tank (7) is communicated with the steam part (8).

8. The integrated production equipment of the edible fungus bag as claimed in claim 2, wherein the high-temperature bin (2) is provided with a pressure sensor which is in communication connection with the controller, and the steam part (8) and the hot water part are both provided with a temperature sensor which is in communication connection with the controller.

9. The integrated production equipment of edible fungus bag as claimed in claim 1, wherein said high temperature bin (2) and said cooling bin (3) are both long tanks arranged horizontally, and said first stirring device (23) and said second stirring device (34) both comprise stirring power, a stirring shaft in transmission connection with said stirring power, and a helical stirring blade connected to said stirring shaft.

10. The integrated production equipment of the edible fungus bag as claimed in claim 1, wherein the high-temperature chamber (2) is provided with an internal chamber and an insulating layer (25) wrapping the internal chamber.

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