CN112106593A - Pleurotus eryngii cultivation method based on Internet of things - Google Patents

Abstract

The invention provides an Internet of things-based pleurotus eryngii cultivation method, which comprises the following steps: (1) sterilizing, namely sterilizing the cultivation container filled with the culture material at high temperature; (2) cooling, namely cooling the sterilized cultivation container; (3) inoculating, namely inoculating strains into the cooled cultivation container; (4) culturing the strains, namely culturing the strains in the culture container; (5) cultivating, after fungus emergence, conveying the cultivated container after fungus emergence to a fruiting room for fruiting; (6) and (4) harvesting, namely harvesting the mature pleurotus eryngii. According to the invention, the separation device is automatically placed on the cultivation container through the clamping device, so that the automatic separation of the areas is realized, manual intervention is not needed, the labor force is saved, the harvesting device is used for harvesting the mature pleurotus eryngii, manual harvesting is omitted, the harvesting efficiency is improved, and the labor cost is reduced.

Description

Pleurotus eryngii cultivation method based on Internet of things

Technical Field

The invention relates to the technical field of pleurotus eryngii cultivation, in particular to a pleurotus eryngii cultivation method based on the Internet of things.

Background

The pleurotus eryngii is a new rare edible fungus variety integrating edible, medicinal and dietary therapy. The pleurotus eryngii has fleshy flesh, crisp and tender texture, particularly has compact, solid and milky stem tissues, can be completely eaten, has more crisp and smooth stem than pileus and is tasty and refreshing, is called as oyster mushroom king and dried oyster mushroom, has pleasant almond fragrance and taste like abalone, and is suitable for fresh keeping and processing.

The traditional cultivation of the pleurotus eryngii is carried out through a cultivation bag, and the pleurotus eryngii is easy to squeeze together when growing and is not beneficial to the growth of the pleurotus eryngii; most of the pleurotus eryngii harvesting processes depend on manual work, the working efficiency is unstable, the automation degree is low, the sterilization is not thorough enough before entering a pleurotus eryngii outlet room, the pleurotus eryngii is easily infected, the waste mushrooms are caused, and the waste is caused.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide an Internet of things-based pleurotus eryngii cultivation method, and aims to solve the problems that pleurotus eryngii in the background art is easy to squeeze together gradually in the growth process, growth and subsequent harvesting of the pleurotus eryngii are not facilitated, and manual harvesting efficiency is low.

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

an Internet of things-based pleurotus eryngii cultivation method comprises the following steps:

(1) sterilizing, namely sterilizing the cultivation container filled with the culture material at high temperature;

(2) cooling, namely cooling the sterilized cultivation container;

(3) inoculating, namely inoculating strains into the cooled cultivation container;

(4) culturing the strains, namely culturing the strains in the culture container;

(5) cultivating, after fungus emergence, conveying the cultivated container after fungus emergence to a fruiting room for fruiting;

(6) and (4) harvesting, namely harvesting the mature pleurotus eryngii.

Further, in the step (5), the cultivation container includes a cultivation bottle.

Further, in the step (5), the cultivation bottles for fungus growth are placed on the cultivation frame in order, and the cultivation bottles are transported to a fruiting room through the cultivation frame for fruiting.

Further, the cultivation frame comprises a containing part for containing the cultivation bottles.

Furthermore, a plurality of accommodating holes for accommodating and fixing the cultivation bottles are formed on the upper surface of the accommodating part.

Further, the upper surface of the containing part forms a containing cavity for containing the cultivation bottle.

Further, the upper surface of the accommodating cavity is provided with a fixing part for fixing the cultivation bottle.

Further, the fixing member includes a fixing ring.

Further, the fixing ring is fixedly connected to the upper surface of the accommodating cavity.

Further, the cultivation frame also comprises a frame body for bearing and containing the parts.

Furthermore, an accommodating groove for accommodating the accommodating part is formed on the side surface of the frame body; the holding part is mounted on the holding groove.

Further, hold part and holding tank pull formula sliding connection.

Further, the bottom of the frame body is provided with universal wheels.

Furthermore, the cultivation bottle also comprises a separating device which divides the bottle mouth of the cultivation bottle into a plurality of areas.

Furthermore, the separating device comprises a separating plate, and separating holes which correspond to the bottle openings of the cultivation bottles one by one are formed in the separating plate.

Furthermore, the separation holes are provided with separation grids for dividing the separation holes into a plurality of regions.

Further, the separation grid includes a first separation bar and a second separation bar.

Further, the first and second spacer bars are arranged perpendicular to each other.

Furthermore, the separating device is provided with a clamping device which clamps the separating plate and correspondingly sleeves the separating plate on the cultivation bottle through the separating holes one by one.

Further, the clamping device comprises a first clamping assembly for clamping one side of the partition plate and a second clamping assembly for clamping the other side of the partition plate.

Further, the first clamping assembly comprises a first clamping claw for clamping one side of the partition plate and a first opening and closing driving device for driving the first clamping claw to open and close; the second clamping assembly comprises a second clamping claw for clamping the other side of the partition plate and a second opening and closing driving device for driving the second clamping claw to open and close.

Further, the first clamping claw comprises a first upper clamping block for clamping the upper edge of one side of the partition plate and a first lower clamping block for clamping the lower edge of one side of the partition plate; the second gripper jaw comprises a second upper gripper block for gripping the upper edge of the other side of the partition plate and a second lower gripper block for gripping the lower edge of the other side of the partition plate.

Furthermore, the clamping device also comprises a first power driving device for driving the first clamping assembly to move, and a second power driving device for driving the second clamping assembly to move.

Furthermore, one side of the partition plate is provided with a first clamping part for clamping the first clamping assembly and a second clamping part for clamping the second clamping assembly.

Further, in the step (6), the mature pleurotus eryngii is harvested and processed through a harvesting device.

Further, the harvesting device comprises a plurality of harvesting parts which correspond to the cultivation frames one by one, and a third opening and closing driving device which drives the harvesting parts to open and close.

Further, the harvesting part comprises a first harvesting knife, a second harvesting knife, a third harvesting knife and a mounting head, wherein the first harvesting knife, the second harvesting knife, the third harvesting knife and the mounting head are used for harvesting mature pleurotus eryngii; the first harvesting knife, the second harvesting knife and the third harvesting knife are arranged around the mounting head.

Further, the harvesting device also comprises a movable driving device for driving the harvesting part to move, and a lifting driving device for driving the harvesting part to lift.

Further, in the step (1), after the bottle mouth of the cultivation bottle is completely closed by the bottle cap, sterilization treatment is performed.

Further, in the step (1), the compost is wood chip compost.

Further, the wood chip compost comprises a main material and an auxiliary material.

Further, the main material comprises pine sawdust.

Further, the pine sawdust accounts for 75-85% of the sawdust culture material by weight.

Further, the pine sawdust accounts for 77% of the sawdust culture material by weight.

Further, the auxiliary materials comprise bran, gypsum and sucrose.

Further, the auxiliary materials account for 15-25% of the wood chip compost in percentage by weight.

Further, the pine sawdust, the bran, the gypsum and the sucrose are mixed in percentage by weight of 77%, 21%, 1% and 1%.

Further, the water content of the wood chip compost is 65%.

Further, in the step (4), the inoculated cultivation bottle is sent to a bacteria cultivation room with the temperature of 24 ℃ and the relative humidity of air not more than 70%, and the bacteria cultivation room is kept in a dark state.

After the structure is adopted, the pleurotus eryngii cultivation method based on the internet of things has the following beneficial effects that:

carry out germicidal treatment earlier through the culture material with in the cultivation container, the inoculation after the cooling, and put into the cultivation container after the inoculation and support the fungus indoor, treat out the fungus after, evenly arrange the cultivation container and place on cultivation frame, send into out the mushroom room, the opening partition region to every cultivation container through the separator, make the apricot bao mushroom grow in each region, avoid crowding together gradually in the growth process, do benefit to subsequent work of gathering, clamping device places separator automatic on the cultivation container, realize automatic partition region, need not artifical the intervention, save the labour, gather ripe apricot bao mushroom through the harvesting device, remove artifical the harvesting from, the efficiency of gathering is improved, the cost of labor is reduced.

Drawings

FIG. 1 is a schematic perspective view of a mushroom growing room of the pleurotus eryngii cultivation method based on the Internet of things;

FIG. 2 is a schematic perspective view of a cultivation bottle, a cultivation frame, a separating device and a clamping device of the pleurotus eryngii cultivation method based on the Internet of things;

FIG. 3 is a schematic perspective view of a first clamping assembly of the pleurotus eryngii cultivation method based on the Internet of things according to the present invention;

fig. 4 is a schematic perspective view of a harvesting part and an opening and closing driving device of the pleurotus eryngii cultivation method based on the internet of things.

In the figure: 1-cultivation bottle, 2-cultivation shelf, 3-separating device, 4-holding device, 5-harvesting device, 6-mushroom growing room, 21-holding part, 22-shelf body, 221-universal wheel, 31-separating plate, 311-separating hole, 312-separating grid, 313-first holding part, 314-second holding part, 3121-first separating rod, 3122-second separating rod, 41-first holding component, 42-second holding component, 411-first holding claw, 412-first open-close driving device, 4111-first upper holding block, 4112-first lower holding block, 51-harvesting part, 52-third open-close driving device, 511-first harvesting knife, 512-second harvesting knife, 513-third harvesting knife, 514-mounting head.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 4, the pleurotus eryngii cultivation method based on the internet of things comprises the following steps:

(1) sterilizing, namely sterilizing the cultivation container filled with the culture material at high temperature;

(2) cooling, namely cooling the sterilized cultivation container;

(3) inoculating, namely inoculating strains into the cooled cultivation container;

(4) culturing the strains, namely culturing the strains in the culture container;

(5) cultivating, after fungus emergence, conveying the cultivated container after fungus emergence to a fruiting room 6 for fruiting;

(6) and (4) harvesting, namely harvesting the mature pleurotus eryngii.

Like this, carry out germicidal treatment earlier through the culture medium with in the cultivation container, the inoculation after the cooling, and put into the cultivation container after the inoculation and breed the fungus indoor, treat out the fungus after, evenly arrange the cultivation container and place on cultivation frame 2, send into out mushroom room 6, divide the region to the opening of every cultivation container through separator 3, make the apricot bao mushroom grow in each region, avoid crowding together gradually in the growth process, do benefit to subsequent work of gathering, clamping device 4 places separator 3 on the cultivation container automatically, realize automatic division region, need not artifical the intervention, save the labour, gather ripe apricot bao mushroom through harvesting device 5, remove artifical the harvesting from, improve the efficiency of gathering, reduce the cost of labor.

Preferably, in step (5), the cultivation container includes a cultivation bottle 1. The growth environment of the pleurotus eryngii is more stable through the cultivation bottle 1.

Preferably, in the step (5), the cultivation bottles 1 with the grown fungi are neatly placed on the cultivation shelves 2, and the cultivation bottles 1 are transported to the fruiting room 6 through the cultivation shelves 2 for fruiting. A plurality of cultivation bottles 1 are neatly placed on the cultivation frame 2, so that the space is improved, and harvesting work of the mature pleurotus eryngii is facilitated.

Preferably, the cultivation shelf 2 includes a holding part 21 for holding the cultivation bottles 1. The cultivation bottle 1 is placed through the placing part 21, so that the cultivation bottle 1 is not easy to be knocked off.

Preferably, the upper surface of the accommodating part 21 is formed with a plurality of accommodating holes for accommodating and fixing the cultivation bottles 1. The cultivation bottle 1 is fixed through the accommodating hole, so that the cultivation bottle 1 is not easy to incline or overturn.

Preferably, the upper surface of the accommodating part 21 forms an accommodating chamber for accommodating the cultivation bottle 1. The cultivation bottle 1 is placed into the accommodating cavity, so that the cultivation bottle 1 is not easy to incline or overturn, and the growth of pleurotus eryngii is facilitated.

Preferably, the upper surface of the accommodating cavity is provided with a fixing part for fixing the cultivation bottle 1. The cultivation bottle 1 is fixed in the accommodating cavity through the fixing component.

Preferably, the fixing member includes a fixing ring for facilitating the attachment and detachment of the cultivation bottle 1.

Preferably, in order to facilitate the loading and unloading of the cultivating bottle 1, the fixing ring is fixedly connected to the upper surface of the accommodating cavity.

Preferably, the cultivation shelf 2 further includes a shelf body 22 carrying the containing part 21. The containing parts 21 are placed on the frame body 22, so that the containing parts 21 can be conveniently placed in and taken out, and the space utilization rate is improved.

Preferably, a receiving groove for receiving the accommodating part 21 is formed on a side surface of the frame body 22; the holding part 21 is mounted on the receiving groove. The containing parts 21 are convenient to put in and take out, and the space utilization rate is improved.

Preferably, the containing part 21 and the containing groove are in a pull-type sliding connection. The holding part 21 can be conveniently, quickly, stably and smoothly placed in and taken out of the frame body 22.

Preferably, universal wheels 221 are provided at the bottom of the frame body 22. Through the setting of universal wheel 221, make cultivation frame 2 more easily be removed to the room 6 that goes out the mushroom, practice thrift the labour, improve work efficiency.

Preferably, the cultivation bottle also comprises a separating device 3 which divides the bottle mouth of the cultivation bottle 1 into a plurality of areas. Divide into a plurality of areas that supply the growth of apricot bao mushroom through separator 3 with each opening of each cultivation bottle 1, do benefit to the growth of apricot bao mushroom, facilitate for follow-up harvesting process simultaneously.

Preferably, the partition means 3 includes a partition plate 31, and partition holes 311 corresponding to the bottle mouths of the cultivation bottles 1 are formed on the partition plate 31. The separation holes 311 are sleeved on the bottle openings of the cultivation bottles 1 in a one-to-one correspondence mode, so that pleurotus eryngii grows in the areas of the separation holes 311, and the follow-up harvesting process is facilitated.

Preferably, the partition holes 311 are provided with partition grids 312 for dividing the partition holes 311 into a plurality of regions. Through the separation grid 312, the pleurotus eryngii in the same cultivation bottle 1 cannot be crowded together during growth, and the growth of the pleurotus eryngii is facilitated.

Preferably, the partition grid 312 includes a first partition bar 3121 and a second partition bar 3122. The mouth of the cultivation bottle 1 is partitioned into a plurality of areas where pleurotus eryngii grows independently by the first and second partition bars 3121 and 3122.

Preferably, the first and second partition bars 3121 and 3122 are vertically disposed with respect to each other for better growth of pleurotus eryngii.

Preferably, the partition means 3 is provided with holding means 4 for holding the partition plate 31 and fitting the partition plate 31 to the cultivation bottles 1 through the partition holes 311 in a one-to-one correspondence. After the cultivation frame 2 is moved into the fruiting room 6, the division plate 31 is automatically clamped and placed on the cultivation bottle 1 through the clamping device 4, and the division holes 311 are correspondingly sleeved on the cultivation bottle 1 one by one.

Preferably, the clamping device 4 comprises a first clamping assembly 41 for clamping one side of the partition plate 31 and a second clamping assembly 42 for clamping the other side of the partition plate 31. The partition plate 31 is clamped by the first and second clamping assemblies 41 and 42.

Preferably, the first clamping assembly 41 includes a first clamping claw 411 for clamping one side of the partition plate 31, and a first opening/closing driving device 412 for driving the first clamping claw 411 to open and close; the second clamping assembly 42 includes a second clamping claw for clamping the other side of the partition plate 31, and a second opening/closing driving device for driving the second clamping claw to open/close. The first clamping claw 411 is driven to clamp one side of the separation plate 31 by the first opening and closing driving device 412, and the second clamping claw is driven to clamp the other side of the separation plate 31 by the second opening and closing driving device.

Preferably, the first clamping claw 411 includes a first upper clamping block 4111 for clamping an upper side of one side of the partition plate 31, and a first lower clamping block 4112 for clamping a lower side of one side of the partition plate 31; the second gripper jaw includes a second upper gripper block that grips the upper edge of the other side of the partition plate 31, and a second lower gripper block that grips the lower edge of the other side of the partition plate 31. One side of the separation plate 31 is clamped by the first upper clamping block 4111 and the first lower clamping block 4112, and the other side of the separation plate 31 is clamped by the second upper clamping block and the second lower clamping block.

Preferably, the gripping device 4 further comprises a first power driving device for driving the first gripping assembly 41 to move, and a second power driving device for driving the second gripping assembly 42 to move. The first clamping assembly 41 is driven by the first power driving device, and the second clamping assembly 42 is driven by the second power driving device, so that the first clamping assembly 41 and the second clamping assembly 42 move simultaneously, and the partition plate 31 is clamped to a preset position.

Preferably, in order to make it easier for the first and second clamping assemblies 41 and 42 to clamp the calibration position, one side of the partition plate 31 is provided with a first clamping portion 313 for the first clamping assembly 41 to clamp, and a second clamping portion 314 for the second clamping assembly 42 to clamp.

Preferably, in the step (6), the mature pleurotus eryngii is subjected to a harvesting treatment by the harvesting device 5. Through harvesting device 5, improve the efficiency of gathering, practice thrift the cost of labor.

Preferably, the harvesting device 5 includes a plurality of harvesting parts 51 corresponding to the cultivation shelves 2 one to one, and a third opening and closing driving device 52 that drives the harvesting parts 51 to open and close. The third opening and closing driving device 52 drives the harvesting part 51 to open and close, and mature pleurotus eryngii is harvested one by one.

Preferably, the harvesting part 51 includes a first harvesting knife 511, a second harvesting knife 512, a third harvesting knife 513 and a mounting head 514 for harvesting the mature pleurotus eryngii; the first collecting blade 511, the second collecting blade 512, and the third collecting blade 513 are disposed around the mounting head 514. The pleurotus eryngii is cut off and harvested through the first harvesting knife 511, the second harvesting knife 512 and the third harvesting knife 513, and the knife edges are smooth, so that the pleurotus eryngii can be conveniently trimmed subsequently.

Preferably, the harvesting device 5 further comprises a moving driving device for driving the harvesting part 51 to move, and a lifting driving device for driving the harvesting part 51 to lift. The harvesting part 51 is driven to be above each cultivation bottle 1 by moving the driving device, and then descends to harvest the mature pleurotus eryngii in each cultivation bottle 1.

Preferably, in the step (1), in order to promote the growth of pleurotus eryngii, the bottle mouth of the cultivation bottle 1 is completely closed by the bottle cap, and then the sterilization treatment is performed.

Preferably, in the step (1), the culture material is wood chip culture material. The wood chip culture material has short culture time, low cost and easily obtained raw materials.

Preferably, in order to make the culture effect of the culture material better, the wood chip culture material comprises a main material and an auxiliary material.

Preferably, the main material comprises pine wood chips. The pine sawdust culture needs short time, the cost is low, and the raw materials are easy to obtain.

Preferably, in order to ensure that the culture effect of the culture material is better, the pine sawdust accounts for 75-85% of the weight of the wood chip culture material.

Preferably, in order to improve the culture effect of the culture material, the pine wood chips account for 77% of the wood chip culture material by weight.

Preferably, in order to make the culture effect of the culture material better, the auxiliary materials comprise bran, gypsum and sucrose.

Preferably, in order to ensure that the culture effect of the culture material is better, the auxiliary materials account for 15-25% of the weight of the wood chip culture material.

Preferably, pine sawdust, bran, gypsum and sucrose are mixed in the weight percentages of 77%, 21%, 1% and 1% in order to obtain better culture effect of the culture material.

Preferably, in order to make the culture effect of the culture material better, the water content of the wood chip culture material is 65%.

Preferably, in order to improve the bacteria cultivation effect, in the step (4), the inoculated cultivation bottle 1 is sent to a bacteria cultivation room with the temperature of 24 ℃ and the relative humidity of the air not exceeding 70%, and the bacteria cultivation room is kept in a dark state.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims (10)

1. An Internet of things-based pleurotus eryngii cultivation method is characterized by comprising the following steps:

(1) sterilizing, namely sterilizing the cultivation container filled with the culture material at high temperature;

(2) cooling, namely cooling the sterilized cultivation container;

(3) inoculating, namely inoculating strains into the cooled cultivation container;

(4) culturing the strains, namely culturing the strains in the culture container;

(5) cultivating, after fungus emergence, conveying the cultivated container after fungus emergence to a fruiting room for fruiting;

(6) and (4) harvesting, namely harvesting the mature pleurotus eryngii.

2. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 1, wherein: in the step (5), the cultivation container includes a cultivation bottle.

3. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 2, wherein: and (5) putting the cultivation bottles with the grown mushrooms on a cultivation frame in order, and transporting the cultivation bottles to a fruiting room through the cultivation frame for fruiting.

4. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 3, wherein: the cultivation frame comprises a containing part for containing cultivation bottles.

5. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 4, wherein: the upper surface of the containing part is provided with a plurality of containing holes for containing and fixing the cultivation bottles.

6. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 4, wherein: the upper surface of the containing part is provided with a containing cavity for containing the cultivation bottle.

7. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 6, wherein: the upper surface of the accommodating cavity is provided with a fixing part for fixing the cultivation bottle.

8. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 7, wherein: the fixing member includes a fixing ring.

9. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 8, wherein: the fixing ring is fixedly connected to the upper surface of the accommodating cavity.

10. The pleurotus eryngii cultivation method based on the internet of things as claimed in claim 9, wherein: the cultivation frame also comprises a frame body for bearing and containing the parts.

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