CN112673897A - High-recycling preparation equipment and method for agaricus bisporus nutrient - Google Patents

Abstract

The invention provides high-recycling preparation equipment for agaricus bisporus nutrient, which comprises a raw material pool, a cooling device and a stirring and mixing device, wherein the raw material pool is used for mixing animal wastes with grass and inorganic salts, then composting and fermenting the mixture to form a culture material, the heating and sterilization are carried out on the culture material, the culture material is cooled after the sterilization is finished, and the stirring and mixing device is used for mixing the culture material and nutrient materials required by agaricus bisporus. According to the high-recycling preparation equipment for the agaricus bisporus culture material, the nutrient materials required by the agaricus bisporus growth are added at the later stage, and the secondary fermentation is not needed, so that the cultivation efficiency of the agaricus bisporus is improved when the preparation of the culture material is accelerated. A high-resource preparation method of agaricus bisporus nutriment comprises the following steps: a. mixing animal waste with grass and inorganic salts, composting and fermenting to form a culture material; b. sterilizing the culture material at high temperature; c. and cooling after the sterilization is finished. The high-recycling preparation method of the agaricus bisporus compost accelerates the preparation of the compost and reduces the preparation time.

Description

High-recycling preparation equipment and method for agaricus bisporus nutrient

Technical Field

The invention relates to the technical field of mushroom planting and culturing, in particular to high-recycling preparation equipment and method for agaricus bisporus nutriment.

Background

In the process of planting the agaricus bisporus, culture materials required for planting need to be prepared firstly, the culture materials need to be mixed, fermented and sterilized, and then secondary fermentation is carried out, so that more suitable nutrition for growth of the agaricus bisporus is formed, and the time is long in the process, so that long preparation time is needed.

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 high-recycling preparation equipment for agaricus bisporus nutriment, which can accelerate the production speed of compost and automatically produce the compost, thereby increasing the production efficiency.

The invention also aims to provide the high-recycling preparation method of the agaricus bisporus nutriment, which can accelerate the production speed of a culture material so as to increase the planting efficiency.

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

a high-resource preparation device for the nutrients of the agaricus bisporus comprises a raw material pool, a heating and sterilizing device and a stirring and mixing device, wherein the raw material pool is used for mixing animal excrement with grass and inorganic salts and then composting and fermenting the mixture to form culture materials, the heating and sterilizing device is used for sterilizing the culture materials, the cooling device is used for cooling the culture materials after the sterilization is completed, and the stirring and mixing device is used for mixing the culture materials and the nutrients required by the agaricus bisporus.

The raw materials pond is including being used for the raw materials standing groove to bin up the standing groove that the stirring mixes, and movable mounting snatchs the subassembly in the standing groove top and carry out the first conveyer belt of carrying to mixing back raw materials.

The placement groove comprises two short side walls and a long side wall vertically connected between the two short side walls; two the long lateral wall top is formed with the slide rail along self length, snatch the subassembly include with along the first drive arrangement of slide rail removal, horizontal drive direction and the perpendicular second drive arrangement of installing on first drive arrangement of first drive arrangement moving direction with install the second drive arrangement about flexible the snatching clamp that snatchs the raw materials.

The first driving device comprises two moving assemblies which respectively move along the sliding rail, a guide rail group is fixedly connected between the two moving assemblies, and the second driving device is slidably mounted on the guide rail group.

The second driving device comprises a driving assembly moving along the guide rail group and a lifter arranged on the driving assembly and used for driving the grabbing clamp to ascend and descend.

The guide rail set comprises two guide rails, and the lifter is located between the two guide rails.

The grabbing clamp comprises two closed shovels forming a containing cavity and a driving rod driving the shovels to be opened and closed and connected with the output end of the lifter.

The heating sterilization equipment comprises a first conveying belt for conveying the culture materials and a heating sterilization assembly covering the whole first conveying belt.

The heat sterilization assembly comprises a first mounting frame arranged on the first conveying belt, and a heat sterilization lamp arranged on the first mounting frame and irradiating towards the first conveying belt.

The cooling device comprises a second conveyor belt for conveying the culture materials and a cooling piece arranged on the second conveyor belt.

The stirring compounding device includes that two relative outputs set up the third transmission band and the fourth transmission band that transport respectively and cultivate the required nutrition of material and twins mushroom relatively, are located the blending tank of third transmission band and fourth transmission band output below to and install the stirring transmission device in the blending tank.

The stirring transmission device comprises two spiral rods which are positioned on the same plane and arranged in parallel, and a rotary driving motor for driving the spiral rods to rotate.

And a fifth conveying belt for conveying the mixed culture materials is installed at the outlet of the mixing barrel.

A high-resource preparation method of agaricus bisporus nutriment comprises the following steps:

a. mixing animal waste with grass and inorganic salts, composting and fermenting to form a culture material;

b. sterilizing the culture material at high temperature;

c. cooling after the sterilization is finished;

d. mixing the culture material with nutrient material required by the agaricus bisporus.

In step a, the animal excrement is mixed with grass and inorganic salts, and cake fertilizer is also added.

In step a, animal waste is mixed with grass and inorganic salts and then piled up in a raw material pool for fermentation.

In step b, a heat sterilization device is used for sterilization.

And c, cooling the culture materials by adopting cooling equipment.

And d, mixing the culture materials with the nutrient materials required by the agaricus bisporus by a stirring and mixing device.

By adopting the technical scheme, the high-recycling preparation equipment for the agaricus bisporus culture material increases the planting efficiency of the agaricus bisporus when the culture material is prepared, by adding the nutrient material required by the growth of the agaricus bisporus in the later period and not performing secondary fermentation.

The high-recycling preparation method of the agaricus bisporus compost accelerates the preparation of the compost and reduces the preparation time.

Drawings

FIG. 1 is a schematic view of a flow line structure of the production process of the present invention;

FIG. 2 is a schematic view of the feed tank of the present invention;

FIG. 3 is a schematic view of the construction of a heat sterilization apparatus and a cooling apparatus according to the present invention;

FIG. 4 is a schematic structural diagram of a stirring and mixing device according to the present invention;

fig. 5 is a perspective structure schematic diagram of the stirring and mixing device of the invention.

In the figure:

1-a raw material pool, 11-a placing groove, 12-a grabbing component, 121-a first driving device, 122-a second driving device, 123-a grabbing clamp and 13-a first conveying belt;

2-heat sterilization equipment, 21-a first conveyor belt and 22-a heat sterilization component;

3-cooling device, 31-second conveyor belt, 32-cooling member;

4-stirring and mixing device, 41-third conveying belt, 42-fourth conveying belt, 43-mixing barrel, 44-stirring and conveying device, 45-screw rod, 46-rotary driving motor and 47-fifth conveying belt.

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.

The invention relates to a high-recycling preparation device for agaricus bisporus nutriment, which comprises a raw material pool 1 for mixing animal excrement with grass and inorganic salts and then composting and fermenting the mixture to form a culture material, a cooling device 3 for sterilizing the culture material and cooling the sterilized culture material, and a stirring and mixing device 4 for mixing the culture material and nutriment required by agaricus bisporus, as shown in figures 1 to 5. By adding the nutrient materials required by the growth of the agaricus bisporus in the later period and not using the secondary fermentation, the cultivation efficiency of the agaricus bisporus is improved when the preparation of the compost is accelerated.

Preferably, the raw material tank 1 includes a placing tank 11 for stocking, stirring and mixing the raw materials, a grasping assembly 12 movably installed at the top end of the placing tank 11, and a first conveyor 2113 for conveying the mixed raw materials. The raw material is now fermented in the placing tank 11, and the fermented raw material is gripped by the gripper assembly 12 and placed on the first conveyor 2113 for transportation.

Preferably, the standing groove 11 comprises two short side walls, and a long side wall connected vertically between the two short side walls; the top ends of the two long side walls are provided with slide rails along the length thereof, and the grabbing component 12 comprises a first driving device 121 moving along the slide rails, a second driving device 122 horizontally driving and vertically driving the first driving device 121 and installed on the first driving device 121, and grabbing clamps 123 installed on the second driving device 122 and extending up and down for grabbing the raw materials. The grabbing clamp 123 extends into the placing groove 11 to grab the fermented raw materials, then the grabbing clamp 123 moves on the long side wall of the placing groove 11 through the first driving device 121 and is matched with the second driving device 122, so that the grabbing clamp 123 moves to the first conveying belt 2113, and the fermented raw materials are placed on the first conveying belt 2113.

Preferably, the first driving device 121 includes two moving components respectively moving along the sliding rails, a guide rail is fixedly connected between the two moving components, and the second driving device 122 is slidably mounted on the guide rail. The moving assembly moves on the slide rail, and the position of the grabbing clamp 123 is adjusted in a sliding manner on the guide rail by matching with the second driving device 122.

Preferably, the second driving means 122 includes a driving assembly moving along the guide rail, and a lifter installed on the driving assembly to drive the gripping clamp 123 to be lifted and lowered. Thereby drive through drive assembly on the guide rail and snatch the clamp 123 and remove, then the rethread riser drive snatchs the clamp 123 and reciprocates and snatch fermented raw materials.

Preferably, the guide rail set includes two guide rails, and the lifter is located between the two guide rails. Being placed between the two guide rails is more stable than being placed on one side and the gripping clamp 123 has a lifting space.

Preferably, the gripping clamp 123 comprises two shovels that close to form the housing, and a driving rod that drives the shovels to open and close and is connected to the output end of the elevator. The two shovels are driven by the driving rod to open and close to grab the raw materials.

Preferably, the heat sterilization apparatus 2 includes a first conveyor belt 21 for conveying the compost, and a heat sterilization module 22 for covering the entire first conveyor belt 21. The heat sterilization component 22 completely covers the whole first conveyor belt 21, and then when the first conveyor belt 21 conveys the compost, the heat sterilization component 22 can heat and sterilize the compost in real time.

Preferably, the heat sterilization unit 22 includes a first mounting frame installed on the first conveyor belt 21, and a heat sterilization lamp installed on the first mounting frame and disposed with an irradiation direction toward the first conveyor belt 21. The heating and sterilizing lamp can be ensured to be capable of stably heating and sterilizing and completely irradiate the compost of the first conveyor belt 21.

Preferably, in step c, the cooling device 3 is adopted to cool the compost. Therefore, the nutrient can be directly added when the nutrient is added later, and static cooling is not needed.

Preferably, the cooling device 3 comprises a second conveyor belt 31 for conveying the compost, and a cooling member 32 mounted on the second conveyor belt 31. The second conveyor 31 transports the compost, then passes through the cooling member 32, and is cooled by the cold air sprayed from the cooling member 32.

Preferably, the cooling member 32 includes a second mounting bracket mounted on the second conveyor belt 31, and a cold air ejection head mounted on the second mounting bracket to be disposed with an output direction toward the second conveyor belt 31. The second conveyor belt 31 is sprayed with cold air through the cold air spraying head to flow to the second conveyor belt 31, and then the second conveyor belt 31 conveys the culture materials to be cooled by the cold air.

Preferably, in the step d, the compost and the nutrient materials required by the agaricus bisporus are mixed by the stirring and mixing device 4. Thereby mixing the culture material and the nutrient material well.

Preferably, the stirring and mixing device 4 comprises a third conveyor belt 41 and a fourth conveyor belt 42 which are oppositely arranged at two opposite output ends and used for respectively conveying the strain particles and the culture materials, a mixing barrel 43 positioned below the output ends of the third conveyor belt 41 and the fourth conveyor belt 42, and a stirring and conveying device 44 arranged in the mixing barrel 43. The third conveyor belt 41 and the fourth conveyor belt 42 are used for conveying the strain particles and the culture materials into the mixing barrel 43 respectively, and then the stirring and mixing are carried out while the conveying is carried out through the stirring and conveying device 44, so that the efficiency is increased.

Preferably, the stirring transmission device 44 comprises two screw rods 45 which are arranged in parallel on the same plane, and a rotary driving motor 46 which drives the screw rods 45 to rotate; the two screw rods 45 are connected by a gear drive. Through rotation driving motor 46 drive hob 45, make two hobs 45 rotate simultaneously through the gear, and hob 45 has helical blade, and the helical blade of two hobs 45 sets up in turn, realizes stirring bacterial granule and cultivates the material, can form thrust at the pivoted in-process of two hobs 45 to propelling movement while stirring.

Preferably, a fifth conveyor belt 47 for conveying the mixed culture materials is installed at the outlet of the mixing barrel 43. And transmitting through a fifth transmission to perform the next seeding step.

A high-resource preparation method of agaricus bisporus nutriment comprises the following steps:

a. mixing animal waste with grass and inorganic salts, composting and fermenting to form a culture material;

b. sterilizing the culture material at high temperature;

c. cooling after the sterilization is finished;

d. mixing the culture material with nutrient material required by the agaricus bisporus.

Preferably, in step a, the animal waste is mixed with grass and inorganic salts, and cake fertilizer is also added.

Preferably, in step a, the animal wastes are mixed with grass and inorganic salts and then piled up in the raw material tank 1 for fermentation.

Preferably, in step b, sterilization is performed using a heat sterilization apparatus 2.

Preferably, in step c, the cooling device 3 is adopted to cool the compost.

Preferably, in step d, the compost is mixed with the nutrient material required by the agaricus bisporus by the stirring and mixing device 4.

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. The utility model provides a high resource preparation equipment of agaricus bisporus nourishment which characterized in that: the device comprises a raw material pool for mixing the animal wastes with the grass and the inorganic salts, then composting and fermenting the mixture to form the culture materials, heating and sterilizing the culture materials, cooling equipment for cooling the culture materials after sterilization, and a stirring and mixing device for mixing the culture materials and the nutrient materials required by the agaricus bisporus.

2. The high resource preparation equipment for agaricus bisporus nutriment according to claim 1, wherein: the raw materials pond is including being used for the raw materials standing groove to bin up the standing groove that the stirring mixes, and movable mounting snatchs the subassembly in the standing groove top and carry out the first conveyer belt of carrying to mixing back raw materials.

3. The high resource preparation equipment for agaricus bisporus nutriment according to claim 2, wherein: the placement groove comprises two short side walls and a long side wall vertically connected between the two short side walls; two the long lateral wall top is formed with the slide rail along self length, snatch the subassembly include with along the first drive arrangement of slide rail removal, horizontal drive direction and the perpendicular second drive arrangement of installing on first drive arrangement of first drive arrangement moving direction with install the second drive arrangement about flexible the snatching clamp that snatchs the raw materials.

4. The apparatus for preparing agaricus bisporus nutriment as claimed in claim 3, wherein: the first driving device comprises two moving assemblies which respectively move along the sliding rail, a guide rail group is fixedly connected between the two moving assemblies, and the second driving device is slidably mounted on the guide rail group.

5. The apparatus for preparing agaricus bisporus nutriment as claimed in claim 4, wherein: the second driving device comprises a driving assembly moving along the guide rail group and a lifter arranged on the driving assembly and used for driving the grabbing clamp to ascend and descend.

6. The apparatus for preparing agaricus bisporus nutriment as claimed in claim 5, wherein: the guide rail set comprises two guide rails, and the lifter is located between the two guide rails.

7. The apparatus for preparing agaricus bisporus nutriment as claimed in claim 6, wherein: the grabbing clamp comprises two closed shovels forming a containing cavity and a driving rod driving the shovels to be opened and closed and connected with the output end of the lifter.

8. The high resource preparation equipment for agaricus bisporus nutriment according to claim 1, wherein: the heating sterilization equipment comprises a first conveying belt for conveying the culture materials and a heating sterilization assembly covering the whole first conveying belt.

9. The apparatus for preparing agaricus bisporus nutriment as claimed in claim 8, wherein: the heat sterilization assembly comprises a first mounting frame arranged on the first conveying belt, and a heat sterilization lamp arranged on the first mounting frame and irradiating towards the first conveying belt.

10. The high resource preparation equipment for agaricus bisporus nutriment according to claim 1, wherein: the cooling device comprises a second conveyor belt for conveying the culture materials and a cooling piece arranged on the second conveyor belt.

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