CN110741880A - Greenhouse and application thereof in black fungus planting - Google Patents

Abstract

The invention is suitable for the technical field of planting, and provides a greenhouse, which comprises: the shed body mechanism is used for movably covering and protecting the planting area in a folding mode; the driving mechanism is arranged at the bottom of the shed body mechanism and used for driving the shed body mechanism to move to form retraction; the planting mechanism is arranged in the shed body mechanism and used for monitoring and adjusting environmental parameters in a planting area covered by the shed body mechanism; and the control mechanism is electrically connected with the driving mechanism and the planting mechanism and is used for controlling the driving mechanism and controlling the starting and the closing of the planting mechanism. The invention is convenient for flexibly controlling the greenhouse to be folded, and can save space under the condition of no planting; concrete environmental data can be observed through the control mechanism, the output of the planting mechanism is controlled according to the control mechanism so as to adjust various environmental parameters, and a more flexible and convenient planting environment control method can be provided on the basis of manual planting control.

Description

Greenhouse and application thereof in black fungus planting

Technical Field

The invention belongs to the technical field of planting, and particularly relates to a greenhouse and application thereof in black fungus planting.

Background

Greenhouse (greenhouse), also known as hothouse. Can transmit light, keep warm (or heat), and is used for cultivating plants. In seasons unsuitable for plant growth, the method can provide the growth period of the greenhouse and increase the yield, and is mainly used for cultivating or raising seedlings of plants like warm vegetables, flowers and trees in low-temperature seasons. The types of greenhouses are various, and the greenhouses can be divided into a great number according to different roof truss materials, lighting materials, shapes, heating conditions and the like.

The existing black fungus cultivation greenhouse is a traditional greenhouse and is operated by manpower in the aspects of watering and temperature control. And in other intelligent greenhouses, the control aspect is single. The previous conventional greenhouses only waste space when the greenhouse is not cultivated.

Disclosure of Invention

The embodiment of the invention aims to provide a greenhouse, aiming at solving the problem that the space is wasted during the period of non-cultivation of the traditional greenhouse.

The embodiment of the invention is realized in such a way that the greenhouse comprises:

the shed body mechanism is used for movably covering and protecting the planting area in a folding mode;

the driving mechanism is arranged at the bottom of the shed body mechanism and used for driving the shed body mechanism to move to form retraction;

the planting mechanism is arranged in the shed body mechanism and used for monitoring and adjusting environmental parameters in a planting area covered by the shed body mechanism;

and the control mechanism is electrically connected with the driving mechanism and the planting mechanism and is used for controlling the driving mechanism and controlling the starting and the closing of the planting mechanism.

Another object of an embodiment of the present invention is to provide the canopy mechanism, including:

the support structure is arranged on the driving mechanism and is driven by the driving mechanism to form directional movement;

the folding structure is connected between the adjacent support structures and used for stretching along with the movement of the support structures, so that the support structure at the auxiliary position is stable;

and the heat insulation structure is arranged on the support structure in a covering mode and used for keeping relative isolation between the inside and the outside of the covering range of the support structure.

Another objective of the embodiments of the present invention is that the supporting structures are provided with a plurality of groups in parallel on the driving mechanism, and two groups of supporting structures located at two ends of the mounting track of the supporting structures are symmetrically provided with fixed plugging structures.

Another objective of the embodiments of the present invention is that the heat insulation structure covers the periphery of the plurality of sets of support structures and abuts against the edges of the fixed blocking structures at the two ends.

It is another object of an embodiment of the present invention that the driving mechanism includes:

the moving structure is arranged at the bottom of the support structure, is electrically communicated with the control mechanism and is used for driving the support structure to synchronously move under the control of the control mechanism;

and the supporting structure is assembled and connected at the bottom of the rolling structure and used for supporting the rolling structure and limiting the moving structure to move along the track of the supporting structure.

It is another object of an embodiment of the present invention that the moving structure includes:

the rolling assembly is arranged at the bottom of the support structure, is movably matched with the support structure and is used for moving the support structure on the support structure;

the rolling driving assembly is connected with the rolling assembly for transmission, is electrically connected with the control mechanism and is used for receiving a control command of the control mechanism and then driving the rolling assembly to move.

It is another object of an embodiment of the present invention that the planting mechanism comprises:

the sensing structure is arranged in the shed body mechanism, is electrically connected with the control mechanism, and is used for sensing the environmental state in the coverage range of the shed body mechanism and feeding back environmental parameter information to the control mechanism;

the adjusting structure is electrically connected with the control mechanism and is used for receiving the control signal of the control mechanism and adjusting the environmental state in the shed body mechanism according to the control signal.

Another object of an embodiment of the present invention is that the planting mechanism further comprises:

and the monitoring structure is arranged in the shed body mechanism, is electrically connected with the control mechanism, and is used for adjusting the monitoring angle according to the control signal of the control mechanism and feeding back a monitoring image signal to the control mechanism.

It is another object of an embodiment of the present invention that the control mechanism comprises:

the fixed control structure is arranged in the shed body mechanism and used for displaying the environmental parameter information fed back by the sensing structure and outputting a control instruction to control the adjusting structure to adjust the environmental state in the shed body mechanism, and used for controlling the monitoring structure to adjust the monitoring angle and controlling the rolling driving assembly to be opened or closed;

the mobile control structure is electrically communicated with the fixed control structure and is used for connecting the fixed control structure and realizing the control function of the fixed control structure on the mobile control structure.

The embodiment of the invention is realized in such a way that the greenhouse is applied to black fungus culture.

According to the greenhouse provided by the embodiment of the invention, the driving mechanism is moved to drive the greenhouse body mechanism to form folding and unfolding under the control of the control mechanism, so that the greenhouse can be flexibly controlled to be folded, and the space can be saved under the condition that no plants are planted; the planting mechanism can monitor the humidity of soil in a planting area covered by the shed body mechanism, the temperature of the environment and the specific planting growth condition, the specific environment data can be observed through the control mechanism, the output of the planting mechanism is controlled according to the control mechanism to adjust various environment parameters, and a more flexible and convenient planting environment control method can be provided on the basis of manual planting control.

Drawings

Fig. 1 is a front view of a greenhouse provided in an embodiment of the present invention;

fig. 2 is a side view of a greenhouse provided by the embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a side view of a support structure and a folding mechanism in a greenhouse provided by an embodiment of the invention;

FIG. 5 is an enlarged perspective view of area A of FIG. 4;

fig. 6 is a perspective view of a connecting rod in a greenhouse provided by the embodiment of the invention;

fig. 7 is a schematic structural view of a support frame in a greenhouse provided in an embodiment of the present invention;

fig. 8 is a schematic structural view of a first wall in a greenhouse provided in an embodiment of the present invention;

fig. 9 is a control diagram of a greenhouse provided in an embodiment of the present invention.

In the drawings: 1. a greenhouse main body; 2. an irrigation pipeline; 3. a fan; 4. an infrared camera; 5. a lamp; 6. a heat-insulating transparent film; 7. a water pump; 8. a control center; 9. a track; 10. a heating device; 11. a bearing; 12. a connecting shaft; 13. a support frame; 14. a connecting rod; 15. a first wall; 16. a second wall; 17. a roller; 18. a first outrigger shaft; 19. a second outwardly extending shaft; 20. a cross beam; 21. a notch; 22. an installation port; 23. a temperature sensor; 24. an illumination sensor; 25. a humidity sensor; 26. a fault sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 3, a greenhouse provided in an embodiment of the present invention includes:

the shed body mechanism is used for movably covering and protecting the planting area in a folding mode;

the driving mechanism is arranged at the bottom of the shed body mechanism and used for driving the shed body mechanism to move to form retraction;

the planting mechanism is arranged in the shed body mechanism and used for monitoring and adjusting environmental parameters in a planting area covered by the shed body mechanism;

and the control mechanism is electrically connected with the driving mechanism and the planting mechanism and is used for controlling the driving mechanism and controlling the starting and the closing of the planting mechanism.

In the embodiment of the invention, the shed body mechanism is foldable and is supported and driven by the driving mechanism, and the shed body mechanism is driven by the driving mechanism to be folded and unfolded under the control of the control mechanism, so that the folding of the greenhouse is flexibly controlled, and the space can be saved under the condition of no planting.

In the embodiment of the invention, preferably, the planting mechanism can monitor the humidity of soil in the planting area covered by the shed body mechanism, the temperature of the environment and the specific planting growth condition, the specific environment data can be observed through the control mechanism, and the output of the planting mechanism is controlled according to the control mechanism to adjust various environment parameters.

As shown in fig. 3 to 7, as a preferred embodiment of the present invention, the canopy body mechanism includes:

the support structure is arranged on the driving mechanism and is driven by the driving mechanism to form directional movement;

the folding structure is connected between the adjacent support structures and used for stretching along with the movement of the support structures, so that the support structure at the auxiliary position is stable;

and the heat insulation structure is arranged on the support structure in a covering mode and used for keeping relative isolation between the inside and the outside of the covering range of the support structure.

The support structure is provided with a plurality of groups in parallel on the driving mechanism, and the two groups of support structures positioned at two ends of the arrangement track of the support structure are symmetrically provided with fixed plugging structures.

The heat insulation structure covers the periphery of the plurality of groups of support structures and is abutted to the edges of the fixed plugging structures at the two ends.

In the embodiment of the present invention, preferably, the greenhouse body mechanism may adopt a greenhouse main body 1, the greenhouse main body 1 includes a support structure, a folding structure and a heat preservation structure, the support structure may adopt a support frame 13, and the support frame 13 is provided with a plurality of groups, preferably three groups, in parallel on the driving mechanism, the support frame 13 is in an inverted U-shaped structure, a cross beam 20 is horizontally connected and provided between the middle bending portions of the support frame 13, the vertical portions on both sides are respectively connected and fixed with a second overhang shaft 19 and a first overhang shaft 18 from top to bottom, and the folding structure is installed and connected through the first overhang shaft 18 and the second overhang shaft 19 on the adjacent support frame 13, so as to synchronously stretch and retract and maintain the stability of the support frame 13 when the adjacent support frame 13 is driven to move by the.

In the embodiment of the present invention, preferably, the folding structure may be formed by splicing multiple groups of connecting rods 14, wherein two ends of the connecting rods 14 are symmetrically provided with notches 21, and a bearing 11 is fixedly connected in the slot 21, a plurality of groups of connecting rods 14 are close end to end, the connecting shafts 12 are connected in the adjacent bearings 11 to form the rotary connection of the adjacent connecting rods 14, the bearings 11 at the two ends of the connected groups of connecting rods 14 are respectively connected with the first overhanging shafts 18 of the adjacent two groups of supporting frames 13, and a plurality of groups of connecting rods 14 connected end to end are also arranged, and the bearings 11 at the two ends are respectively connected with the second external extending shafts 19 of the two adjacent groups of supporting frames 13, thus, the connecting rods 14 can rotate to facilitate the folding movement of the canopy mechanism, four groups of connecting rods 14 can be used between adjacent first overhanging shafts 18, and four groups of connecting rods 14 can be used between adjacent second overhanging shafts 19.

In the embodiment of the present invention, preferably, in the three groups of supporting frames 13, the two groups of supporting frames 13 on both sides are fixedly connected and provided with a fixed blocking structure filled in the inverted U-shaped structure, a first wall 15 and a second wall 16 may be respectively adopted, the first wall 15 and the second wall 16 are respectively fixedly connected with the edge of the supporting frame 13, and the first wall 15 and/or the second wall 16 are further provided with a split-type or single-open-type door.

In the embodiment of the present invention, preferably, the heat preservation structure may adopt a heat preservation transparent film 6, the heat preservation transparent film 6 bypasses from the end of one side of the plurality of groups of support frames 13 upwards and covers the end of the other side of the support frames 13, so as to cooperate with the structure of the support frames 13 to realize a heat preservation cage cover of the area covered by the support frames 13, the edge of the heat preservation transparent film 6 and the edge of the support frames 13 having the first wall 15 and the second wall 16 on both sides are connected and fixed, and the heat preservation transparent film 6 is made of a flexible material, so that the moving folding of the plurality of groups of support frames 13 is not affected even if the support frames 13 are not removed in the moving folding process, and the support frames 13 can be moved and folded after the heat.

As shown in fig. 2 and 7, as a preferred embodiment of the present invention, the driving mechanism includes:

the moving structure is arranged at the bottom of the support structure, is electrically communicated with the control mechanism and is used for driving the support structure to synchronously move under the control of the control mechanism;

and the supporting structure is assembled and connected at the bottom of the rolling structure and used for supporting the rolling structure and limiting the moving structure to move along the track of the supporting structure.

The moving structure includes:

the rolling assembly is arranged at the bottom of the support structure, is movably matched with the support structure and is used for moving the support structure on the support structure;

the rolling driving assembly is connected with the rolling assembly for transmission, is electrically connected with the control mechanism and is used for receiving a control command of the control mechanism and then driving the rolling assembly to move.

In the embodiment of the present invention, preferably, the support structure may adopt rails 9, the rails 9 are correspondingly laid along edges of the ends of the two sides of the plurality of groups of support frames 13, the distance between the rails 9 is the same as the distance between the ends of the two sides of the support frames 13, and the rails 9 may be laid linearly or laid non-linearly according to an actual field.

In the embodiment of the present invention, preferably, the rolling component employs a roller 17, the roller 17 is mounted and fixed at the end of the supporting frame 13 and is movably adapted to the rail 9, the roller 17 is driven to rotate by the rolling driving component, the rolling driving component may employ a motor which is mounted at the end of the supporting frame 13 and whose output end is connected and driven with the roller 17 by belt transmission or chain and sprocket transmission, and the like, and a switching circuit of the motor is electrically connected to the control mechanism, and the motor is controlled by the control mechanism to drive the roller 17 to rotate forward or backward, thereby driving the supporting frame 13 to move in the corresponding direction.

In the embodiment of the present invention, preferably, a fault detection sensor 26 is further installed on the motor connected to the roller 17, and the fault detection sensor 26 is electrically connected to the control mechanism for detecting whether the roller 17 or the motor stops working due to damage.

As shown in fig. 1 to 3 and 9, as a preferred embodiment of the present invention, the planting mechanism includes:

the sensing structure is arranged in the shed body mechanism, is electrically connected with the control mechanism, and is used for sensing the environmental state in the coverage range of the shed body mechanism and feeding back environmental parameter information to the control mechanism;

the adjusting structure is electrically connected with the control mechanism and is used for receiving the control signal of the control mechanism and adjusting the environmental state in the shed body mechanism according to the control signal.

The planting mechanism further comprises:

and the monitoring structure is arranged in the shed body mechanism, is electrically connected with the control mechanism, and is used for adjusting the monitoring angle according to the control signal of the control mechanism and feeding back a monitoring image signal to the control mechanism.

In the embodiment of the present invention, preferably, the sensing structure includes a temperature sensor 23 mounted on the cross beam 20, a humidity sensor 25 mounted in the soil covered by the support frame 13, and an illumination sensor 24 mounted on the side of the support frame 13, the temperature sensor 23, the illumination sensor 24, and the humidity sensor 25 are all electrically connected to the control mechanism, the temperature sensor 23, the illumination sensor 24, and the humidity sensor 25 respectively sense the temperature condition, the illumination condition, and the humidity condition of the soil in the planting range covered by the support frame 13, and the sensed environment is fed back to the control mechanism in a datamation manner for display, so that an operator can intuitively know and control the environment.

In the embodiment of the present invention, preferably, the adjusting structure includes a fan 3 installed in an installation port 22, the installation port 22 is arranged on the first wall 15 in a penetrating manner, the heating device 10 is arranged in the middle of the position covered by the supporting frame 13, and both the fan 3 and the heating device 10 are electrically connected to the control mechanism, so that the fan 3 or the heating device 10 is selectively controlled to be turned on by the temperature fed back by the control mechanism, and the temperature of the planting range covered by the supporting frame 13 is adjusted; the adjusting structure further comprises an irrigation pipeline 2 laid in the coverage range of the support frame 13 and a water pump 7 communicated with the irrigation pipeline 2, a control switch of the water pump 7 is electrically connected with a control mechanism, and the water pump 7 can be selectively started to irrigate through the irrigation pipeline 2 through soil humidity data sensed by a humidity sensor 25, so that the humidity of soil is adjusted; the adjusting structure further comprises a lighting lamp 5 arranged in the middle of the beam 20, the lighting lamp 5 is a sunlight-simulated lighting lamp, a control switch circuit of the lighting lamp 5 is electrically connected with a control mechanism, and the lighting lamp 5 can be selectively turned on to adjust the irradiation of quasi-sunlight in the planting range covered in the support frame 13 according to the lighting condition sensed by the illumination sensor 24.

In the embodiment of the present invention, preferably, the monitoring structure includes the infrared cameras 4 installed on two sides of the beam 20, the infrared cameras 4 are electrically connected with the control mechanism, and the monitored image data is transmitted to the control mechanism for display, so that the monitoring personnel can intuitively know the planting condition in the range covered by the support frame 13, and the monitoring angle of the infrared camera 4 can be adjusted through the control mechanism, thereby performing monitoring more flexibly and conveniently.

As shown in fig. 2 and 9, as a preferred embodiment of the present invention, the control mechanism includes:

the fixed control structure is arranged in the shed body mechanism and used for displaying the environmental parameter information fed back by the sensing structure and outputting a control instruction to control the adjusting structure to adjust the environmental state in the shed body mechanism, and used for controlling the monitoring structure to adjust the monitoring angle and controlling the rolling driving assembly to be opened or closed;

the mobile control structure is electrically communicated with the fixed control structure and is used for connecting the fixed control structure and realizing the control function of the fixed control structure on the mobile control structure.

In the embodiment of the present invention, preferably, the fixed control structure adopts a control center 8, is embedded in the second wall 16, and has an operation panel surface and a display panel surface, the planting condition and the environmental condition in the planting area can be observed through the control center 8, and the corresponding environmental data can be controlled and adjusted, and the motor connected with the roller 17 can be controlled to drive the support frame 13 to move on the track 9 as required, so as to realize the integral folding and unfolding.

In the embodiment of the present invention, preferably, the mobile control structure may adopt a tablet computer, a notebook computer, a mobile phone or other mobile terminals capable of displaying operation. The control center 8 can be remotely controlled and controlled by data sharing between the mobile phone and the control center 8, so that the functions of the control center 8 are realized.

The embodiment of the invention is realized in such a way that the greenhouse is applied to black fungus culture.

The greenhouse provided by the embodiment of the invention is applied to black fungus cultivation based on the greenhouse, so that flexible control can be performed according to the habit of black fungus, the growth environment can be more conveniently controlled according to the actual situation, the greenhouse can be flexibly folded in the period of no cultivation, and no space is wasted.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A greenhouse, comprising:

the shed body mechanism is used for movably covering and protecting the planting area in a folding mode;

the driving mechanism is arranged at the bottom of the shed body mechanism and used for driving the shed body mechanism to move to form retraction;

the planting mechanism is arranged in the shed body mechanism and used for monitoring and adjusting environmental parameters in a planting area covered by the shed body mechanism;

and the control mechanism is electrically connected with the driving mechanism and the planting mechanism and is used for controlling the driving mechanism and controlling the starting and the closing of the planting mechanism.

2. The greenhouse of claim 1, wherein the canopy body mechanism comprises:

the support structure is arranged on the driving mechanism and is driven by the driving mechanism to form directional movement;

the folding structure is connected between the adjacent support structures and used for stretching along with the movement of the support structures, so that the support structure at the auxiliary position is stable;

and the heat insulation structure is arranged on the support structure in a covering mode and used for keeping relative isolation between the inside and the outside of the covering range of the support structure.

3. The greenhouse of claim 2, wherein the support structures are arranged in parallel on the driving mechanism, and two groups of support structures at two ends of the placement track of the support structures are symmetrically provided with fixed blocking structures.

4. The greenhouse of claim 3, wherein the insulation structure covers the periphery of the plurality of sets of support structures and abuts against the edges of the fixed blocking structures at the two ends.

5. The greenhouse of claim 3, wherein the drive mechanism comprises:

the moving structure is arranged at the bottom of the support structure, is electrically communicated with the control mechanism and is used for driving the support structure to synchronously move under the control of the control mechanism;

and the supporting structure is assembled and connected at the bottom of the rolling structure and used for supporting the rolling structure and limiting the moving structure to move along the track of the supporting structure.

6. The greenhouse of claim 5, wherein the moving structure comprises:

the rolling assembly is arranged at the bottom of the support structure, is movably matched with the support structure and is used for moving the support structure on the support structure;

the rolling driving assembly is connected with the rolling assembly for transmission, is electrically connected with the control mechanism and is used for receiving a control command of the control mechanism and then driving the rolling assembly to move.

7. The greenhouse of claim 1, wherein the planting mechanism comprises:

the sensing structure is arranged in the shed body mechanism, is electrically connected with the control mechanism, and is used for sensing the environmental state in the coverage range of the shed body mechanism and feeding back environmental parameter information to the control mechanism;

the adjusting structure is electrically connected with the control mechanism and is used for receiving the control signal of the control mechanism and adjusting the environmental state in the shed body mechanism according to the control signal.

8. The greenhouse of claim 7, wherein the planting mechanism further comprises:

and the monitoring structure is arranged in the shed body mechanism, is electrically connected with the control mechanism, and is used for adjusting the monitoring angle according to the control signal of the control mechanism and feeding back a monitoring image signal to the control mechanism.

9. The greenhouse of claim 6 or 8, wherein the control mechanism comprises:

the fixed control structure is arranged in the shed body mechanism and used for displaying the environmental parameter information fed back by the sensing structure and outputting a control instruction to control the adjusting structure to adjust the environmental state in the shed body mechanism, and used for controlling the monitoring structure to adjust the monitoring angle and controlling the rolling driving assembly to be opened or closed;

the mobile control structure is electrically communicated with the fixed control structure and is used for connecting the fixed control structure and realizing the control function of the fixed control structure on the mobile control structure.

10. Use of a greenhouse as claimed in any one of claims 1 to 9 in black fungus cultivation.

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