CN111406573A

CN111406573A - Comprehensive industrial circulating production method for edible fungi

Info

Publication number: CN111406573A
Application number: CN202010181637.0A
Authority: CN
Inventors: 徐江
Original assignee: Huangshan Huizhen Food Co ltd
Current assignee: Huangshan Huizhen Food Co ltd
Priority date: 2020-03-16
Filing date: 2020-03-16
Publication date: 2020-07-14
Anticipated expiration: 2040-03-16
Also published as: CN111406573B

Abstract

The invention discloses a comprehensive factory-like circulating production method of edible fungi, and relates to the technical field of edible fungi production; the method comprises the following specific steps: step a, preparing an edible fungus culture medium; step b, filling the culture medium into a polyethylene material bag, sterilizing and cooling; c, preparing liquid strains; step d, inoculating and culturing; step e, fruiting; in the sterilization process, the adopted sterilization cabinet has high efficiency; meanwhile, the edible fungi can be sterilized at the ultrahigh temperature of more than 100 ℃, and the sterilization effect is good, so that the production efficiency of the edible fungi is increased.

Description

Comprehensive industrial circulating production method for edible fungi

Technical Field

The invention belongs to the technical field of edible fungus production, and particularly relates to a comprehensive industrial circulating production method of edible fungi.

Background

In order to improve the production efficiency of edible fungi, various production methods for improving the productivity are available.

Chinese patent: application No.: CN 201310384304.8; the patent name: a comprehensive industrial circulating production method of pleurotus eryngii. In particular to a comprehensive factory-like circulating production method of pleurotus eryngii and conventional edible fungi, relating to the technical field of fungus planting. The liquid strains are utilized, so that the production efficiency of the pleurotus eryngii and the conventional edible fungi is greatly improved, the labor amount and the occupied area are reduced, and the cost is reduced; the local cotton stalk resources are utilized to produce the pleurotus eryngii, and a large amount of waste mushroom dregs after the pleurotus eryngii is produced are used as the main material for cultivating the conventional edible mushrooms, so that the cost is greatly reduced, and the environmental pollution is eliminated. The conventional edible mushroom production adopts a semi-underground mushroom house to carry out annual industrialized production, fully utilizes the geothermal energy resource, solves the problem that the traditional greenhouse production is limited by seasons, and simultaneously improves the yield and the quality of mushroom products. The utilization of the normal-pressure energy-saving sterilization cabinet saves fuel and labor. Although the invention saves the cost, the adopted sterilization cabinet is slowly preheated and has low efficiency.

Disclosure of Invention

The invention aims to overcome the defect of low efficiency of the prior art and provides a comprehensive industrial circulating production method for edible fungi, which has high efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme:

a comprehensive industrial circulating production method of edible fungi comprises the following specific steps: step a, preparing an edible fungus culture medium; step b, filling the culture medium into a polyethylene material bag, sterilizing and cooling; c, preparing liquid strains; step d, inoculating and culturing; step e, fruiting; in the step b, sterilization is carried out by adopting a sterilization cabinet; the sterilization cabinet comprises a cylindrical shell, a steam groove positioned in the side wall of the shell, a circular arc-shaped air inlet chute positioned in the side wall of the shell, a circular arc-shaped air outlet chute positioned in the side wall of the shell, air inlet holes positioned at two ends of the air inlet chute, air outlet holes positioned at two ends of the air outlet chute, limit chutes positioned at two ends of the air inlet chute and arranged along the trend of the air inlet chute, second limit chutes positioned at two ends of the air outlet chute and arranged along the trend of the air outlet chute, air inlet stoppers slidably connected at two ends of the air inlet chute, air outlet stoppers slidably connected at two ends of the air outlet chute, limit blocks slidably connected in the limit chutes and fixedly connected with the air inlet stoppers, second limit blocks slidably connected in the second limit chutes and fixedly connected with the air outlet stoppers, air inlet pistons slidably connected in the air inlet chutes, air outlet pistons slidably connected in the air outlet chutes, The air inlet driving rod is positioned in the air inlet chute and is in a circular arc shape, the air outlet driving rod is positioned in the air outlet chute and is in a circular arc shape, and the driving mechanism is used for pushing the air inlet driving rod and the air outlet driving rod to move along the circumferential direction of the shell, an air passage used for communicating the air inlet chute with the steam groove is arranged in the middle of the air inlet chute, a second air passage used for communicating the air outlet chute with the steam groove is arranged in the middle of the air outlet chute, the air inlet hole is positioned at one end of the limiting chute, which is far away from the air passage, the air outlet hole is positioned at one end of the second limiting chute, which is far away from the second air passage, the air inlet stop block is provided with a through hole used for enabling steam to flow from the air inlet hole to the air passage, the air outlet stop block is provided, the air outlet driving rod is fixedly connected with the air outlet piston, penetrates through the air outlet stop block and is in sliding connection with the air outlet stop block. The steam in the steam tank is pressurized by the air inlet piston and the air outlet piston, so that the steam temperature in the steam tank is greatly increased, the temperature rise speed in the shell is increased, and the preheating efficiency is improved; in addition, by adjusting the motion rules of the air inlet driving rod and the air outlet driving rod, the steam in the steam tank can be kept in a high-pressure high-temperature state for a long time, so that the temperature in the shell reaches the ultrahigh temperature of more than 100 ℃, and ultrahigh-temperature sterilization is carried out.

Preferably, a connecting rod is connected between the air inlet driving rod and the air outlet driving rod, a circular driving ring is formed among the air inlet driving rod, the air outlet driving rod and the connecting rod, the driving ring is coaxial with the casing, the driving ring is in rotating connection with the casing in the casing, gear teeth are arranged on one side of the driving ring, a groove is arranged on one side of the casing, the gear teeth are located in the groove, and the driving mechanism is a driving gear meshed with the gear teeth. The connecting rod makes the actuating lever of admitting air and the actuating lever synchronous motion of giving vent to anger, through drive gear drive, simple structure.

Preferably, the drive ring is of integrally formed construction. Is convenient for production.

Preferably, the air inlet chute and the air outlet chute are located on the outer side of the steam groove, the limiting chute is located on one side, away from the steam groove, of the air inlet chute, the second limiting chute is located on one side, away from the steam groove, of the air outlet chute, the air inlet hole is located on one side, away from the air outlet chute, of the limiting chute, the air outlet hole is located on one side, away from the air outlet chute, of the second limiting chute, one end of the through hole is located on one side, close to the air passage, of the air inlet stop block, the other end of the through hole is located on one side, away from the air passage, of the air outlet stop block, one end of the second through hole is located on. When the air inlet stop block moves to one end of the limiting sliding groove, which is far away from the air passage, the air inlet hole is blocked by the air inlet stop block, and when the air inlet stop block moves to the other end of the limiting sliding groove, steam can pass through the air inlet stop block; similarly, when the gas outlet stop block moves to the second limiting sliding groove and is far away from one end of the second air passage, the gas outlet stop block blocks the gas outlet hole, and when the gas outlet stop block moves to the other end of the second limiting sliding groove, steam can pass through the gas outlet stop block.

Preferably, a sealing ring is arranged between the air inlet driving rod and the air inlet piston, and a second sealing ring is arranged between the air outlet driving rod and the air outlet piston. The sealing washer has improved the leakproofness between actuating lever and the dog that admits air, has also provided suitable frictional force between the two simultaneously, when the dog that admits air does not reach spacing spout tip, under the effect of this frictional force, the dog that admits air slides in spacing spout. The second sealing washer has improved the leakproofness of giving vent to anger between actuating lever and the dog of giving vent to anger, has also provided suitable frictional force between the two simultaneously, when the dog of giving vent to anger does not reach the spacing spout tip of second, under the effect of this frictional force, the dog of giving vent to anger slides in the spacing spout of second.

Preferably, the sterilization cabinet further comprises a main air inlet pipe and a main air outlet pipe, the air inlet holes are connected with the main air inlet pipe, and the air outlet holes are connected with the main air outlet pipe. And collecting and distributing the steam by using the total air inlet pipe and the total air outlet pipe.

Preferably, the outer shell is wrapped with an insulating layer. Improve heat insulation, reduce heat loss and save energy.

The invention has the beneficial effects that: in the sterilization process, the adopted sterilization cabinet has high efficiency; meanwhile, the edible fungi can be sterilized at the ultrahigh temperature of more than 100 ℃, and the sterilization effect is good, so that the production efficiency of the edible fungi is increased.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of an intake block and a limiting block;

FIG. 3 is a schematic diagram of the pressure rise in the steam groove when the drive ring moves clockwise;

FIG. 4 is a schematic view of steam exiting the main outlet pipe after the drive ring continues to rotate;

fig. 5 is a schematic view of the steam groove being pressurized again when the drive ring is moved in reverse.

In the figure: the steam-water separator comprises a shell 1, a steam groove 2, an air inlet chute 3, an air inlet 4, an air outlet hole 5, a limiting chute 6, a second limiting chute 7, an air inlet stop 8, an air outlet stop 9, a stop block 10, a second stop block 11, an air inlet piston 12, an air outlet piston 13, an air inlet driving rod 14, an air outlet driving rod 15, an air passage 16, a second air passage 17, a through hole 18, a second through hole 19, a connecting rod 20, a driving ring 21, a gear tooth 22, a groove 23, a driving gear 24, a sealing ring 25, a second sealing ring 26, a main air inlet pipe 27 and a main.

Detailed Description

The invention is explained in further detail below with reference to the figures and the detailed description:

example (b):

referring to fig. 1 to 5, a comprehensive industrial circulating production method of edible fungi comprises the following specific steps:

step a, preparing an edible fungus culture medium;

step b, filling the culture medium into a polyethylene material bag, sterilizing and cooling;

c, preparing liquid strains;

step d, inoculating and culturing;

step e, fruiting;

in the step b, sterilization is carried out by adopting a sterilization cabinet; the sterilization cabinet comprises a cylindrical shell 1, a steam groove 2 which is positioned in the side wall of the shell 1 and used for heating the interior of the shell 1, a circular arc-shaped air inlet chute 3 which is positioned in the side wall of the shell 1, a circular arc-shaped air outlet chute 29 which is positioned in the side wall of the shell 1, air inlet holes 4 which are positioned at two ends of the air inlet chute 3, air outlet holes 5 which are positioned at two ends of the air outlet chute 29, limit chutes 6 which are positioned at two ends of the air inlet chute 3 and are arranged along the trend of the air inlet chute 3, second limit chutes 7 which are positioned at two ends of the air outlet chute 29 and are arranged along the trend of the air outlet chute 29, air inlet stoppers 8 which are slidably connected at two ends of the air inlet chute 3, air outlet stoppers 9 which are slidably connected at two ends of the air outlet chute 29, stoppers 10 which are slidably connected in the limit chutes 6 and fixedly connected with the air inlet stoppers 8, and second stoppers, An air inlet piston 12 connected in the air inlet chute 3 in a sliding manner, an air outlet piston 13 connected in the air outlet chute 29 in a sliding manner, an air inlet driving rod 14 in a circular arc shape positioned in the air inlet chute 3, an air outlet driving rod 15 in a circular arc shape positioned in the air outlet chute 29, and a driving mechanism for pushing the air inlet driving rod 14 and the air outlet driving rod 15 to move along the circumferential direction of the shell 1, wherein an air passage 16 for communicating the air inlet chute 3 with the steam groove 2 is arranged in the middle of the air inlet chute 3, a second air passage 17 for communicating the air outlet chute 29 with the steam groove 2 is arranged in the middle of the air outlet chute 29, the air inlet hole 4 is positioned at one end of the limiting chute 6 far away from the air passage 16, the air outlet hole 5 is positioned at one end of the second limiting chute 7 far away from the second air passage 17, a through hole 18 for enabling steam to flow from the air inlet hole 4 to the air passage 16 is arranged on the air inlet, the air inlet driving rod 14 is fixedly connected with the air inlet piston 12, the air inlet driving rod 14 penetrates through the air inlet stop block 8 and is in sliding connection with the air inlet stop block 8, the air outlet driving rod 15 is fixedly connected with the air outlet piston 13, and the air outlet driving rod 15 penetrates through the air outlet stop block 9 and is in sliding connection with the air outlet stop block 9; a sealing ring 25 is arranged between the air inlet driving rod 14 and the air inlet piston 12, and a second sealing ring 26 is arranged between the air outlet driving rod 15 and the air outlet piston 13; the air inlet chute 3 and the air outlet chute 29 are both positioned at the outer side of the steam groove 2, the limiting chute 6 is positioned at one side of the air inlet chute 3 away from the steam groove 2, the second limiting chute 7 is positioned at one side of the air outlet chute 29 away from the steam groove 2, the air inlet hole 4 is positioned at one side of the limiting chute 6 away from the air inlet chute 3, the air outlet hole 5 is positioned at one side of the second limiting chute 7 away from the air outlet chute 29, one end of the through hole 18 is positioned at one side of the air inlet stop block 8 close to the air passage 16, the other end of the through hole 18 is positioned at one side of the air inlet stop block 8 away from the air passage 16, one end of the second through hole 19 is positioned at one side of the air outlet stop block 9 close to the second air passage 17; the sterilization cabinet also comprises a main air inlet pipe 27 and a main air outlet pipe 28, the air inlet holes 4 are connected with the main air inlet pipe 27, and the air outlet holes 5 are connected with the main air outlet pipe 28; the outer shell 1 is wrapped with a heat-insulating layer.

A connecting rod 20 is connected between the air inlet driving rod 14 and the air outlet driving rod 15, a driving ring 21 in a circular ring shape is formed among the air inlet driving rod 14, the air outlet driving rod 15 and the connecting rod 20, and the driving ring 21 is in an integrally formed structure; the driving ring 21 is coaxial with the housing 1, the driving ring 21 is arranged in the housing 1 and is rotationally connected with the housing 1, one side of the driving ring 21 is provided with gear teeth 22, one side of the housing 1 is provided with a groove 23, the gear teeth 22 are arranged in the groove 23, and the driving mechanism is a driving gear 24 meshed with the gear teeth 22.

Principle of embodiment:

in the invention, the specific steps are already disclosed in Chinese patent (the name of the patent with the publication number CN 103430772A: a comprehensive factory-like circulation production method of pleurotus eryngii), and are not described again;

the invention mainly improves the sterilization cabinet; the preheating time is greatly shortened.

When the sterilization cabinet is used, steam is introduced into the main air inlet pipe, the steam is divided into two parts and respectively enters the two ends of the air inlet sliding groove, the driving gear rotates, the driving ring rotates clockwise, friction force exists between the air inlet driving rod and the air inlet stop block, friction force exists between the air outlet driving rod and the air outlet stop block, the air inlet stop block and the air outlet stop block both move along the circumferential direction of the shell under the action of the friction force until the air inlet stop block slides to the end part of the limiting sliding groove, the air outlet stop block slides to the end part of the second limiting sliding groove, in the process, the driving ring and the air inlet stop block relatively slide, meanwhile, the air inlet piston slides towards the air passage in the air inlet sliding groove, the air outlet piston moves towards the second air passage in the air outlet sliding groove, and at the moment, the air outlet stop block positioned at one end of the second limiting sliding, and the dog that admits air that is located spacing spout and keeps away from air flue one end has blockked up the inlet port that corresponds, consequently, along with the piston that admits air moves towards the air flue, the piston that gives vent to anger moves towards the second air flue, steam in the spout that admits air gets into the steam inslot, the steam in the spout that gives vent to anger gets into the steam inslot to make the atmospheric pressure in the steam inslot rise, the temperature will further improve, thereby has accelerated the intensification in the shell, has shortened the process of preheating greatly.

The air inlet piston blocks new steam from entering the steam groove, and the driving gear stops running at the moment, so that the temperature of the steam in the steam groove is reduced along with the passage of time, a thermometer can be arranged in the steam groove to monitor the temperature in the steam groove, when the temperature is reduced to a certain degree, the driving gear continues rotating, the driving ring continues rotating clockwise, the air pressure in the steam groove continues rising, the temperature of the steam groove further rises, the air outlet piston also passes through the second air passage after the air inlet piston passes through the air passage, and at the moment, high-pressure steam in the steam groove passes through the second air passage and then flows out of the air outlet hole, and the pressure is released; meanwhile, new steam enters the steam tank through the air inlet and the air passage, so that the steam in the steam tank is updated; at this time, if the preheating is completed, only the continuous input of the steam needs to be kept, so that the temperature in the casing is kept stable. The temperature within the housing can be monitored from time to time by disposing a thermometer within the housing.

If preheating is not finished at the moment, the driving gear rotates reversely, at the moment, under the action of friction force, the air inlet check block moves to the other end of the air inlet chute, the air outlet check block moves to the other end of the air outlet chute, the air inlet piston and the air outlet piston continue to pressurize the next round of the steam tank, and the temperature of steam in the steam tank continues to be increased to preheat. As long as preheat the back, the piston that admits air and the piston that gives vent to anger move through air flue and second air flue respectively for steam source is constantly gone out from the venthole through the steam groove, is the ordinary pressure in the steam groove this moment.

The temperature in the shell of the sterilization cabinet can exceed 100 ℃ by utilizing high-pressure steam in the steam groove, and the corresponding motion law of the driving ring can be adjusted, so that the steam in the steam groove can be kept in a high-pressure high-temperature state for a long time, the motion law can be easily obtained through extensive tests, and the detailed description is omitted here.

The invention can realize rapid preheating and ultrahigh temperature sterilization only by introducing ordinary steam.

Claims

1. A comprehensive industrial circulating production method of edible fungi comprises the following specific steps:

step a, preparing an edible fungus culture medium;

c, preparing liquid strains;

step d, inoculating and culturing;

step e, fruiting;

it is characterized in that in the step b, sterilization is carried out by adopting a sterilization cabinet;

the sterilization cabinet comprises a cylindrical shell, a steam groove positioned in the side wall of the shell, a circular arc-shaped air inlet chute positioned in the side wall of the shell, a circular arc-shaped air outlet chute positioned in the side wall of the shell, air inlet holes positioned at two ends of the air inlet chute, air outlet holes positioned at two ends of the air outlet chute, limit chutes positioned at two ends of the air inlet chute and arranged along the trend of the air inlet chute, second limit chutes positioned at two ends of the air outlet chute and arranged along the trend of the air outlet chute, air inlet stoppers slidably connected at two ends of the air inlet chute, air outlet stoppers slidably connected at two ends of the air outlet chute, limit blocks slidably connected in the limit chutes and fixedly connected with the air inlet stoppers, second limit blocks slidably connected in the second limit chutes and fixedly connected with the air outlet stoppers, air inlet pistons slidably connected in the air inlet chutes, air outlet pistons slidably connected in the air outlet chutes, The air inlet driving rod is positioned in the air inlet chute and is in a circular arc shape, the air outlet driving rod is positioned in the air outlet chute and is in a circular arc shape, and the driving mechanism is used for pushing the air inlet driving rod and the air outlet driving rod to move along the circumferential direction of the shell, an air passage used for communicating the air inlet chute with the steam groove is arranged in the middle of the air inlet chute, a second air passage used for communicating the air outlet chute with the steam groove is arranged in the middle of the air outlet chute, the air inlet hole is positioned at one end of the limiting chute, which is far away from the air passage, the air outlet hole is positioned at one end of the second limiting chute, which is far away from the second air passage, the air inlet stop block is provided with a through hole used for enabling steam to flow from the air inlet hole to the air passage, the air outlet stop block is provided, the air outlet driving rod is fixedly connected with the air outlet piston, penetrates through the air outlet stop block and is in sliding connection with the air outlet stop block.

2. The comprehensive industrial circulating production method of edible mushrooms according to claim 1, wherein a connecting rod is connected between the air inlet driving rod and the air outlet driving rod, a driving ring in the shape of a circular ring is formed among the air inlet driving rod, the air outlet driving rod and the connecting rod, the driving ring is coaxial with the housing, the driving ring is rotatably connected in the housing and the housing, gear teeth are arranged on one side of the driving ring, a groove is arranged on one side of the housing, the gear teeth are positioned in the groove, and the driving mechanism is a driving gear meshed with the gear teeth.

3. The comprehensive industrial production method of edible fungi of claim 2, wherein the driving ring is an integrally formed structure.

4. The comprehensive industrial cyclic production method of edible mushrooms according to claim 1, wherein the air inlet chute and the air outlet chute are both located outside the steam bath, the limiting chute is located on a side of the air inlet chute away from the steam bath, the second limiting chute is located on a side of the air outlet chute away from the steam bath, the air inlet port is located on a side of the limiting chute away from the air inlet chute, the air outlet port is located on a side of the second limiting chute away from the air outlet chute, one end of the through hole is located on a side of the air inlet stop close to the air passage, the other end of the through hole is located on a side of the air inlet stop away from the air passage, one end of the second through hole is located on a side of the air outlet stop close to the second air passage, and the other end of the second through hole.

5. The comprehensive industrial cyclic production method of edible mushrooms according to claim 1, wherein a sealing ring is arranged between the air inlet driving rod and the air inlet piston, and a second sealing ring is arranged between the air outlet driving rod and the air outlet piston.

6. The comprehensive industrial circulating production method of edible mushrooms according to claim 1, wherein the sterilization cabinet further comprises a main air inlet pipe and a main air outlet pipe, the air inlet holes are connected with the main air inlet pipe, and the air outlet holes are connected with the main air outlet pipe.

7. An integrated industrial production method of edible fungi according to claim 1, 2, 3, 4, 5 or 6, wherein the outer shell is wrapped with an insulating layer.