CN210537875U - Edible mushroom's artificial containers - Google Patents

Abstract

The utility model discloses an artificial containers of domestic fungus relates to domestic fungus and cultivates technical field, for solving the asparagus among the prior art and cultivate and need water, need open sealed lid and operate repeatedly, the asparagus receives external environment influence easily, rises the relatively poor problem of resource-wasting simultaneous control nature together when keeping warm to artificial containers. The inside of artificial containers is provided with the room of growing up, the inside of room of growing up is provided with the light filling lamp, the below of light filling lamp is provided with warm and humid sensor, the below of warm and humid sensor is provided with the fixed block, one side of fixed block is provided with the waterproof board, the inside of waterproof board is provided with the cistern, the inside of cistern is provided with the reposition of redundant personnel baffle, the inside of reposition of redundant personnel baffle is provided with plants the frame, the below of waterproof board is provided with the baffle, the top of artificial containers is provided with solar panel, one side of solar panel is provided with the water inlet.

Description

Edible mushroom's artificial containers

Technical Field

The utility model relates to an edible mushroom cultivation technical field specifically is an edible mushroom's artificial containers.

Background

The incubator is a box device with controllable temperature, is mainly used for culturing microorganisms, plants and animal cells, has a bidirectional temperature regulating system with refrigeration and heating, is basic experimental equipment of scientific research departments of biology, agriculture, medicine, environmental protection and the like, and is widely applied to experiments such as constant-temperature culture and the like. The characteristics of incubator mainly have: the box body adopts foamed plastics such as polyurethane and the like as heat insulation materials, and has better insulating capability to external cold and heat; has stronger corrosion resistance; the incubator has heating, refrigerating and automatic temperature control devices, and can be used for cultivating edible fungi such as needle mushroom, and belongs to the phylum Eumycota, the subphylum Basidiomycota, the class Hymenomycetes, the family Tricholomataceae and the genus Lysimachia. Flammulina velutipes are widely distributed in the natural world, and are planted in China, Japan, and the like. The golden mushroom is widely distributed in China, the cultivation history is very long, and the golden mushroom is suitable for growth of the golden mushroom in Heilongjiang, south to Yunnan, east to Jiangsu and west to Xinjiang, but the golden mushroom and the like can be cultivated in a cultivation box at present.

However, the existing cultivation of the flammulina velutipes needs watering, the sealing cover needs to be opened for repeated operation, the flammulina velutipes are easily influenced by the external environment, the cultivation box is raised when the cultivation box is kept warm, resources are wasted, and the controllability is poor; therefore, the existing requirements are not met, and an edible fungus incubator is provided for the situation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an incubator of domestic fungus to solve the asparagus cultivation that proposes in the above-mentioned background art and need water, need open sealed lid and operate repeatedly, the asparagus receives external environment influence easily, risees the relatively poor problem of resource-wasting simultaneous control nature together when keeping warm to the incubator.

In order to achieve the above object, the utility model provides a following technical scheme: an edible mushroom cultivation box comprises a cultivation box body, wherein a cultivation chamber is arranged inside the cultivation box body, a light supplementing lamp is arranged inside the cultivation chamber, a temperature and humidity sensor is arranged below the light supplementing lamp, a fixing block is arranged below the temperature and humidity sensor, a waterproof plate is arranged on one side of the fixing block, a water storage tank is arranged inside the waterproof plate, a shunting baffle is arranged inside the water storage tank, a planting frame is arranged inside the shunting baffle, a baffle is arranged below the waterproof plate, a solar panel is arranged above the cultivation box body, a water inlet is arranged on one side of the solar panel, a water tank shell is arranged below the water inlet, a water storage pipe is arranged inside the water tank shell, a connecting block is arranged below the cultivation box body, a carbon dioxide storage box is arranged below the connecting block, and a glass observation door is arranged below the solar panel, one side of the glass observation door is provided with a handle.

Preferably, solar panel and incubator built-up connection, incubator and light filling lamp built-up connection, incubator and temperature and humidity sensor built-up connection, temperature and humidity sensor's model is AM 2301A.

Preferably, artificial containers are welded to the fixed blocks, the fixed blocks are welded to the waterproof plates, the waterproof plates are connected with the reservoir in a combined mode, and the reservoir is connected with the shunting baffle in a combined mode.

Preferably, the shunting baffle is connected with the planting frame in a combined mode, the fixing block is connected with the baffle in a welded mode, and the light supplementing lamp is connected with the cultivation room in a combined mode.

Preferably, the incubator is connected with the connecting block in a combined mode, the connecting block is connected with the carbon dioxide storage box in a welded mode, and the water inlet is connected with the water tank shell in a welded mode.

Preferably, the water tank shell is connected with the water storage pipe in a welded mode, the solar panel is connected with the glass observation door in a rotating mode, and the glass observation door is connected with the handle in a combined mode.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model is provided with the novel solar panel, which is different from the traditional electric energy, so that the solar energy is converted, the sunlight is simulated through the light supplement lamp, the temperature of the flammulina velutipes in the cultivation room is controlled, meanwhile, a temperature and humidity sensor is arranged in the cultivation room, the indoor temperature and humidity are measured to control the temperature and humidity in the cultivation room in real time, meanwhile, the water storage pipes are arranged on the side surfaces to store water, the humidity in the cultivation room is supplemented and controlled in real time, meanwhile, the traditional cultivation room has excessive operations on indoor watering, so that the growth period and effect of the flammulina velutipes in the cultivation room are influenced by the outside during working, the novel cultivation room is used for testing and controlling the humidity and the temperature outdoors, the growth of the flammulina velutipes in the cultivation room is optimal, the labor of workers is reduced, and the yield and the growth efficiency of the flammulina velutipes are improved.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is an overall front view of the present invention;

fig. 3 is a structural view of the planting frame of the utility model.

In the figure: 1. a solar panel; 2. a water storage pipe; 3. a light supplement lamp; 4. a temperature and humidity sensor; 5. a water tank housing; 6. a waterproof sheet; 7. a baffle plate; 8. a fixed block; 9. connecting blocks; 10. an incubation chamber; 11. an incubator; 12. storing carbon dioxide in a tank; 13. a glass observation door; 14. a handle; 15. a water inlet; 16. a reservoir; 17. a flow dividing baffle; 18. and (5) planting frames.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, the present invention provides an embodiment: an edible mushroom cultivation box comprises a cultivation box 11, wherein a cultivation chamber 10 is arranged inside the cultivation box 11, a light supplement lamp 3 is arranged inside the cultivation chamber 10, a temperature and humidity sensor 4 is arranged below the light supplement lamp 3, a fixing block 8 is arranged below the temperature and humidity sensor 4, a waterproof plate 6 is arranged on one side of the fixing block 8, a water storage tank 16 is arranged inside the waterproof plate 6, a diversion baffle 17 is arranged inside the water storage tank 16, a planting frame 18 is arranged inside the diversion baffle 17, a baffle 7 is arranged below the waterproof plate 6, a solar panel 1 is arranged above the cultivation box 11, a water inlet 15 is arranged on one side of the solar panel 1, a water tank shell 5 is arranged below the water inlet 15, a water storage pipe 2 is arranged inside the water tank shell 5, a connecting block 9 is arranged below the cultivation box 11, a carbon dioxide storage box 12 is arranged below the connecting block 9, a glass observation door 13 is arranged below the solar panel 1, one side of glass observation door 13 is provided with handle 14, uses multiple connected mode, stable structure, uses neotype mode.

Furthermore, the solar panel 1 is connected with the incubator 11 in a combined mode, the incubator 11 is connected with the light supplement lamp 3 in a combined mode, the incubator 11 is connected with the temperature and humidity sensor 4 in a combined mode, the model of the temperature and humidity sensor 4 is AM2301A, solar energy is used for replacing traditional electric energy, resources are saved, and meanwhile the temperature and humidity sensor 4 is installed for detecting and observing needle mushrooms in the incubator 11 in real time.

Further, the cultivating box 11 is connected with the fixing block 8 in a welding mode, the fixing block 8 is connected with the waterproof plate 6 in a welding mode, the waterproof plate 6 is connected with the water storage tank 16 in a combined mode, the water storage tank 16 is connected with the flow dividing baffle 17 in a combined mode, various separating and cultivating methods are carried out, moisture and the environment for growth of the flammulina velutipes are supplemented, and the growth environment is enabled to be optimal.

Further, reposition of redundant personnel baffle 17 and planting frame 18 built-up connection, fixed block 8 and baffle 7 welded connection, light filling lamp 3 and cultivation room 10 built-up connection use neotype light filling lamp 3 to replace traditional illumination, carry out the subregion simultaneously and shine, distinguish traditional unified heating, carry out the pertinence intensification to asparagus, resources are saved simultaneously.

Further, incubator 11 and connecting block 9 built-up connection, connecting block 9 and carbon dioxide deposit case 12 welded connection, water inlet 15 and water tank shell 5 welded connection, supply the gas in the room 10 of growing, guarantee the high-quality of environment.

Further, water tank shell 5 and 2 welded connection of retaining pipe, solar panel 1 rotates with glass observation door 13 to be connected, and glass observation door 13 and 14 built-up connection of handle install neotype glass door, can carry out to indoor cultivation and carry out real-time observation, and traditional manual opening door is distinguished in the benefit of water simultaneously, can cooperate the measurement to carry out the free-flowing of water indoor.

The working principle is as follows: when the cultivation device is used, water is fed from the water inlet 15, water is stored by the water storage pipe 2 after water is fed, the cultivation box 11 is arranged on one side of the water storage pipe 2, the planting frame 18 is arranged in the cultivation box 11, edible fungi are planted on the planting frame 18, temperature and humidity detection is carried out by the temperature and humidity sensor 4 in the cultivation process, when a result is detected, the light supplement lamp 3 is arranged above the planting frame 18, the light supplement lamp 3 supplements and controls the temperature in the cultivation chamber 10, the water storage tank 16 is arranged on the humidity aspect, the water storage pipe 2 supplements the water storage tank 16, all partitions are simultaneously carried out, partition control is carried out, the edible fungi in the cultivation chamber are respectively controlled, the traditional unified temperature rise is distinguished, energy is saved, meanwhile, the solar panel 1 is arranged above, the solar energy replaces the original electric energy, and novel energy is used, a carbon dioxide storage box 12 is arranged below to control the supplement of gas in the room, and a glass observation door 13 is arranged outside to observe and control the edible fungi in the room through a glass plate.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an incubator of domestic fungus, includes incubator (11), its characterized in that: the cultivation device is characterized in that a cultivation chamber (10) is arranged inside the cultivation box (11), a light supplement lamp (3) is arranged inside the cultivation chamber (10), a temperature and humidity sensor (4) is arranged below the light supplement lamp (3), a fixed block (8) is arranged below the temperature and humidity sensor (4), a waterproof plate (6) is arranged on one side of the fixed block (8), a water storage tank (16) is arranged inside the waterproof plate (6), a shunting baffle (17) is arranged inside the water storage tank (16), a planting frame (18) is arranged inside the shunting baffle (17), a baffle (7) is arranged below the waterproof plate (6), a solar panel (1) is arranged above the cultivation box (11), a water inlet (15) is arranged on one side of the solar panel (1), and a water tank shell (5) is arranged below the water inlet (15), the inside of water tank shell (5) is provided with water storage pipe (2), the below of artificial containers (11) is provided with connecting block (9), the below of connecting block (9) is provided with carbon dioxide and deposits case (12), the below of solar panel (1) is provided with glass observation door (13), one side of glass observation door (13) is provided with handle (14).

2. An incubator for edible fungi as claimed in claim 1, wherein: solar panel (1) and incubator (11) built-up connection, incubator (11) and light filling lamp (3) built-up connection, incubator (11) and temperature and humidity sensor (4) built-up connection, the model of temperature and humidity sensor (4) is AM 2301A.

3. An incubator for edible fungi as claimed in claim 1, wherein: incubator (11) and fixed block (8) welded connection, fixed block (8) and waterproof board (6) welded connection, waterproof board (6) and cistern (16) built-up connection, cistern (16) and reposition of redundant personnel baffle (17) built-up connection.

4. An incubator for edible fungi as claimed in claim 1, wherein: the shunt baffle (17) is connected with the planting frame (18) in a combined mode, the fixing block (8) is connected with the baffle (7) in a welded mode, and the light supplementing lamp (3) is connected with the cultivation room (10) in a combined mode.

5. An incubator for edible fungi as claimed in claim 1, wherein: incubator (11) and connecting block (9) built-up connection, connecting block (9) deposit case (12) welded connection with carbon dioxide, water inlet (15) and water tank shell (5) welded connection.

6. An incubator for edible fungi as claimed in claim 1, wherein: the solar water tank is characterized in that the water tank shell (5) is connected with the water storage pipe (2) in a welded mode, the solar panel (1) is rotatably connected with the glass observation door (13), and the glass observation door (13) is connected with the handle (14) in a combined mode.

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