CN115136819A

CN115136819A - Green can farming system

Info

Publication number: CN115136819A
Application number: CN202110349327.XA
Authority: CN
Inventors: 林荣灿
Original assignee: Taiding International Technology Co ltd
Current assignee: Taiding International Technology Co ltd
Priority date: 2021-03-31
Filing date: 2021-03-31
Publication date: 2022-10-04

Abstract

A green energy agricultural planting system is provided with a movable curtain mechanism, a solar power generation device and an irrigation module, wherein the movable curtain mechanism comprises at least one sun-shading curtain and at least one rain shelter, the solar power generation device is connected with the movable curtain mechanism, the irrigation module is connected with the solar power generation device and is provided with a pump, a storage barrel and a plurality of irrigation pipelines, the pump is connected with the solar power generation device, the storage barrel is connected with the pump and is used for storing liquid required by irrigating a crop, the irrigation pipelines are communicated with the storage barrel through the pump, and the irrigation pipelines extend into a net room/greenhouse or a farmland and are positioned at the crop, so that the green energy agricultural planting system which supplies supplementary power, automatically shields and irrigates and meets the environmental protection requirement is provided.

Description

Green energy agricultural planting system

Technical Field

The invention relates to an agricultural planting system, in particular to a green agricultural planting system which can complement electric power, shield and irrigate automatically and meet the environmental protection requirement.

Background

In order to improve the yield and quality of agricultural planting, the agricultural planting is mostly affected by the environment and climate, and at present, crops such as plants, vegetables and fruits are planted in a net room or a greenhouse, wherein the net room or the greenhouse can reduce the influence of rain or insect damage, but the crops are easily damaged by heat due to hot air, so that an additional air exhaust or heat dissipation device is often needed to be added for use, which not only increases the cost required for use, but also needs a large amount of stable electric power to provide the operation of the equipment.

Disclosure of Invention

Therefore, in order to solve the problems that the existing agricultural planting needs to be additionally provided with an air exhaust or heat dissipation device, the use cost is relatively increased, the operation of related equipment is easily influenced due to insufficient or unstable power in mountainous or remote areas or areas with insufficient infrastructure power facilities, the yield and the quality of planted plants or vegetables and fruits are further influenced, and the influence and the damage to the environment can be caused by using other power generation devices such as diesel oil or gasoline and the like to provide the required power.

In view of the above, the present invention provides a green energy agricultural planting system installed in a net room/greenhouse or a farm land, comprising:

a movable curtain mechanism, which is arranged above the net room/greenhouse or the farmland and comprises at least one sunshade curtain and at least one rain shelter, wherein the at least one sunshade curtain is arranged at the top of the net room/greenhouse or above the farmland and can be unfolded or folded relative to the net room/greenhouse or the farmland, the at least one rain shelter is arranged at the top of the net room/greenhouse or above the farmland and is positioned above the at least one sunshade curtain, and the at least one rain shelter can be unfolded or folded relative to the net room/greenhouse or the farmland;

the solar power generation device is arranged at one side of the net room/greenhouse or the farmland and is connected with the movable curtain mechanism, so that the electric power required by the operation of the movable curtain mechanism is provided; and

and the irrigation module is connected with the solar power generation device and is provided with a pump, a storage barrel and a plurality of irrigation pipelines, the pump is connected with the solar power generation device, the storage barrel is connected with the pump and is used for storing liquid required by irrigating crops, the irrigation pipelines are communicated with the storage barrel through the pump, and each irrigation pipeline extends into the net room/greenhouse or the farmland and is positioned at the position of the crops.

Further, in the above-mentioned green agricultural planting system, the at least one sunshade curtain is provided with at least one first curtain member, two guiding cables respectively located at two sides of the at least one first curtain member, and a first driving motor, wherein the at least one first curtain member is unfolded or folded under the driving of the guiding cables at the two sides, and the two guiding cables can be driven by the first driving motor to drive the at least one first curtain member.

Still further, in the above-mentioned green agricultural planting system, the at least one sunshade curtain has a plurality of first curtain members arranged in a row, and the plurality of first curtain members are connected to the two guide cables, so that the plurality of first curtain members can be unfolded or folded in the same direction under the driving of the first driving motor.

Preferably, the system for agricultural planting of green energy as described above, wherein the at least one canopy has a plurality of arc-shaped holders spaced apart from each other, a second curtain member, a plurality of transmission mechanisms and a second driving motor, wherein the plurality of arc-shaped holders spaced apart from each other are disposed at the top of the net room/greenhouse or above the farm land, the second curtain member is disposed on the plurality of arc-shaped holders, the plurality of transmission mechanisms are combined with the plurality of arc-shaped holders, and the second driving motor is connected to the plurality of transmission mechanisms, and drives the plurality of transmission mechanisms to move so as to drive the plurality of arc-shaped holders to move, thereby enabling the second curtain member to be in an expanded or collapsed state.

Preferably, the system for green energy agriculture cultivation as described above, wherein each transmission mechanism is a rail and pulley block or a gear and chain set, wherein the second driving motor is connected to the rail and pulley block or the gear and chain set, thereby driving the second curtain member to move relative to the net room/greenhouse or the farm land through each transmission mechanism.

Preferably, the green agricultural planting system is as described above, wherein the solar power generation device is located in an operation chamber disposed at one side of the net room/greenhouse or the farm land, and the irrigation module is disposed in the operation chamber.

Preferably, the green agricultural planting system as set forth above, wherein the solar power generation device is provided with a plurality of solar panels, a battery, a controller and an auxiliary set, the plurality of solar panels are disposed on the roof of the operating room for receiving solar energy to generate electricity, the battery is electrically connected to the plurality of solar panels via a charger for storing the electric energy converted by the plurality of solar panels, the controller is disposed in the operating room and electrically connected to the plurality of solar panels and the battery, the auxiliary set is connected to the controller and is provided with at least one monitor, an illuminometer, a thermometer/hygrometer and a calorimeter, and the pump is connected to the battery of the solar power generation device and the controller.

Preferably, the green energy agriculture planting system as described above, wherein the battery is connected to the first driving motor and the second driving motor and is provided with a dc/ac converter, and the first driving motor and the second driving motor are a dc motor or an ac motor.

Preferably, the green agricultural planting system is a system as described above, wherein a plurality of blinds and rain shelters are installed in the net room/greenhouse or the agricultural land in parallel and at intervals and in the same number.

Through the technical means, the green energy agricultural planting system has at least the following advantages and effects:

1. power supply: the invention absorbs solar energy through each solar panel of the solar power generation device, stores electric power in the battery through the charger, and when the net room/greenhouse or the farmland is positioned in places with insufficient basic electric facilities such as southeast Asia region, remote mountain area and the like, the electric power required by the operation of the movable curtain mechanism and the irrigation module can be provided through the battery when the electric power is insufficient or unstable, wherein the collected direct current can be directly applied to a first driving motor and a second driving motor of a direct current motor according to the collected direct current, so that the electric power can not lose power by conversion, or the collected direct current can be converted into alternating current through the direct current/alternating current converter to be used for a first driving motor, a second driving motor and the pump of a popularized alternating current motor, and related electric power equipment in the operation room can be supplied.

2. Automatic shielding and irrigation: the controller of the solar power generation device can adjust the time for unfolding or folding the sun-shading curtain according to the current collected by sensing solar energy, wherein when the current is sensed to be large, the intensity of sunlight is high, so the sun-shading curtain needs to be unfolded to shade sunlight to avoid crop sunburn, otherwise, when the current is sensed to be small, the intensity of sunlight needs to be folded to enable the crop to irradiate sufficient sunlight, similarly, the rain shelter can also drive each transmission mechanism through the second driving motor under the control of the controller to enable each second curtain piece to be unfolded or folded to avoid the crop from being influenced by excessive rainfall, and can drive each first driving motor through each guide rope to drive each first curtain piece to move according to the data sensed by the monitor, the illuminometer, the temperature/humidity meter and the calorimeter of the auxiliary group, so that the time for unfolding and folding the rain shelter can be automatically adjusted and the time for unfolding and folding of the rain shelter can be controlled, and the crop can grow under different environmental conditions, and the yield can be improved; furthermore, the controller can sense the current collected by the solar energy to serve as the time for the irrigation module to open and close irrigation, wherein the irrigation module can be designed to irrigate crops in a mode of a small amount of time for many times a day, and the time for irrigating the crops and the interval time can be judged and adjusted according to the collected current, so that the crops can be irrigated under the suitable conditions of matching with sunlight, temperature, humidity and the like, and the yield and the quality of the crops can be greatly improved.

3. Meets the environmental protection requirement: the solar power generation device provides required electric power, does not need other power generation devices for power generation, can reduce the influence and damage to the environment, meets the requirement of environmental protection, and can achieve the effects of shading sun and cooling by erecting the plurality of solar panels above the operating room.

Drawings

FIG. 1 is a schematic side view, partially in section, of a green energy farming system of the present invention.

FIG. 2 is a schematic diagram of the components of the solar power plant of the green agricultural planting system of the present invention.

FIG. 3 is a perspective view of the green agricultural planting system of the present invention installed in a net room/greenhouse.

FIG. 4 is a schematic view of the operation of the movable curtain mechanism of the green energy farming system of the present invention.

FIG. 5 is a schematic perspective view of a first curtain member of the movable curtain mechanism of the green farming system of the present invention.

FIG. 6 is a schematic diagram showing a side view of the driving mechanism of the movable curtain mechanism of the green energy farming system according to another embodiment of the present invention.

FIG. 7 is a schematic side view of an irrigation module of the green farming system of the present invention.

Detailed Description

So that the manner in which the above recited features of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings, wherein:

the present invention provides a green agriculture planting system, please refer to the preferred embodiment shown in fig. 1 to 3, which is installed in a net room/greenhouse 50 or a farm, and includes a movable curtain mechanism 10, a solar power generation device 20 and a watering module 30, wherein:

the movable curtain mechanism 10 is disposed above the net room/greenhouse 50 or the farm land as shown in fig. 1 and 3, the movable curtain mechanism 10 includes at least one sunshade 11 and at least one rain shelter 12, the at least one sunshade 11 is disposed on the top of the net room/greenhouse 50 or above the farm land, and as shown in fig. 3 and 5, at least one first curtain 13, two guide cables 14 respectively disposed at two sides of the at least one first curtain 13, and a first driving motor 15 are disposed, wherein the at least one first curtain 13 can be unfolded or folded by the driving of the guide cables 14 at two sides, and the two guide cables 14 can be driven by the first driving motor 15 to drive the at least one first curtain 13; further, the at least one sunshade 11 can also be provided with a plurality of first curtain members 13A arranged in a row as shown in fig. 5, the plurality of first curtain members 13A are connected to the two guide cables 14A, and the plurality of first curtain members 13A can be unfolded or folded along the same direction by the driving of the first driving motor 15.

As shown in fig. 3 and 6, the at least one rain shelter 12 is disposed on the top of the net room/greenhouse 50 or above the farm land and above the at least one sunshade 11, the at least one rain shelter 12 is provided with a plurality of spaced arc-shaped holders 16, a second curtain 17, a plurality of transmission mechanisms 18/18A and a second driving motor 19, wherein the plurality of spaced arc-shaped holders 16 are spaced above the top of the net room/greenhouse 50 or above the farm land, the second curtain 17 is disposed on the plurality of arc-shaped holders 16, the plurality of transmission mechanisms 18 are combined with the plurality of arc-shaped holders 16, the second driving motor 19 is connected with the plurality of transmission mechanisms 18/18A, and the plurality of transmission mechanisms 18/18A are driven to move the plurality of arc-shaped holders 16, so that the second curtain 17 is unfolded or folded, further, each transmission mechanism can be a rail as shown in fig. 3 and 18 or fig. 6 is a gear set as shown in fig. 6, and the gear set of the transmission mechanisms 18A and the chain mechanism 18A drive the chain mechanism 18A, and the chain mechanism 18A drive the chain mechanism 18/18A to move the second curtain 17 or the chain mechanism 17 a, and the chain mechanism 18A chain mechanism, wherein the chain mechanism 18A drive the chain mechanism 18 and the chain mechanism 18A chain mechanism 18 and the chain mechanism are connected with the greenhouse 50; preferably, a plurality of sunshade curtains 11 and sunshade sheds 12 may be installed in the net room/greenhouse 50 or the farm land, and the number of the sunshade curtains and the sunshade sheds 12 is equal to that of the net room/greenhouse 50 or the farm land, and preferably, the first driving motor 15 and the second driving motor 19 may be a direct current motor (DC motor) or an alternating current motor (AC motor); further, the detailed structure of the movable curtain mechanism 10 is described in the previous patent application of the applicant (Chinese patent application No. 201910039207.2), and therefore will not be described herein.

As shown in fig. 1, the solar power generating device 20 is disposed at one side of the net room/greenhouse 50 or the farm land and located in an operation room 60, the solar power generating device 20 is connected with the movable curtain mechanism 10 to provide the required power for the operation of the movable curtain mechanism 10, the solar power generating device is provided with a plurality of solar panels 21, a battery 22, a controller 23 and an auxiliary set 24 as shown in fig. 2, the plurality of solar panels 21 are disposed on the roof of the operation room 60 to receive solar energy for power generation and achieve the effect of shading and cooling for the operation room 60, the battery 22 is electrically connected with the plurality of solar panels 21 through a charger 25 to store the electric energy converted by the plurality of solar panels 21, further, the battery 22 is connected with the first driving motor 15 and the second driving motor 19 and is provided with a dc/ac converter 221, the controller 23 is disposed in the operation room 60 and electrically connected with the plurality of solar panels 21 and the battery 22, the auxiliary set 24 is connected with the controller 23 and is provided with a thermometer 244 and a thermometer controller 242 to obtain data.

The irrigation module 30 is disposed in the operation room 60 and connected to the solar power generation device 20 as shown in fig. 1 and 7, the irrigation module 30 is provided with a pump 31, a storage tank 32 and a plurality of irrigation pipes 33, the pump 31 is connected to the battery 22 and the controller 23 of the solar power generation device 20, the storage tank 32 is connected to the pump 31 and used for storing liquid (such as water and nutrient solution) required for irrigating crops, the irrigation pipes 33 are connected to the storage tank 32 via the pump 31, and each irrigation pipe 33 extends into the net room/greenhouse 50 or the farmland and is located at a crop.

When the green energy agricultural planting system of the present invention is used, please refer to fig. 1, the solar energy is absorbed by the solar panels 21 of the solar power generation device 20, and the electric power is stored in the battery 22 by the charger 25 as shown in fig. 2, when the net room/greenhouse 50 or farm land is located in a place where the basic electric facilities such as southeast asia, remote mountain area, etc. are insufficient or unstable, the electric power required for the operation of the movable curtain mechanism 10 and the irrigation module 20 can be provided by the battery 22, wherein the collected direct current can be directly applied to the first driving motor 15 and the second driving motor 19 of the direct current motors, so that the electric power is not lost, or the collected direct current can be converted into alternating current by the direct current/alternating current converter 221 for the first driving motor 15, the second driving motor 19 and the pump 31 of the generalized alternating current motor, and the relevant electric power equipment in the operation room 60 can be provided without generating electricity by other power generation devices, thereby reducing the influence and harm to the environment, and meeting the requirement of environmental protection.

Further, the controller 23 of the solar power generating apparatus 20 may adjust the time for unfolding or folding the sunshade curtain 11 according to the magnitude of the current collected by the sensing solar energy, wherein when the current is sensed to be large, it indicates that the intensity of sunlight is high, so that the sunshade curtain 11 needs to be unfolded to shield sunlight to prevent sunburn of crops as shown in fig. 3, whereas when the current is sensed to be small, it indicates that the intensity of sunlight is weak, and the sunshade curtain 11 needs to be folded to allow the crops to irradiate sufficient sunlight, similarly, the rain shelter 12 may be controlled by the controller 23 to drive the transmission mechanisms 18 and 18A by the second driving motor 19 to unfold or fold the second curtains 17 as shown in fig. 4 to prevent the crops from being affected by excessive rainfall, and may drive the first driving motor 15 by the controller 23 according to the data of the monitor 241 of the auxiliary group 24, the illuminometer 242, the temperature/humidity meter 243 and the calorimeter 244, so that the unfolding and folding of the sunshade curtain 13A can be adjusted according to the magnitude of the guiding ropes 14 and 14A to allow the collected shades 13A movement of the sunshade curtain 13 and the collected by the controller to automatically adjust the yield of the sunshade curtain and the growing time and yield of the crops.

Furthermore, the controller 23 can sense the current collected by the solar energy to serve as the time for the irrigation module 30 to turn on and off the irrigation, wherein the irrigation module 30 can be designed to irrigate the crops in a small amount of time for a plurality of times a day as shown in fig. 7, and the time for irrigating the crops and the time interval can be determined and adjusted according to the collected current, so that the crops can be irrigated under the suitable conditions of sunlight, temperature, humidity and the like, the yield and quality of the crops can be greatly improved, and the green agricultural planting system which can supplement power, automatically shield and irrigate and meet the environmental protection requirement is provided.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention in any way, and it will be understood by those skilled in the art that the present invention is capable of being modified and equivalents, and that various changes, modifications and equivalents may be made without departing from the spirit and scope of the invention.

Claims

1. A green energy agricultural planting system is arranged on a net room/greenhouse or a farm land and comprises:

and the irrigation module is connected with the solar power generation device and is provided with a pump, a storage barrel and a plurality of irrigation pipelines, the pump is connected with the solar power generation device, the storage barrel is connected with the pump and is used for storing liquid required by irrigating a crop, the irrigation pipelines are communicated with the storage barrel through the pump, and each irrigation pipeline extends into the net room/greenhouse or the farmland and is positioned at the crop.

2. The system of claim 1, wherein the at least one shade is provided with at least one first curtain, two guiding cables respectively disposed at two sides of the at least one first curtain, and a first driving motor, wherein the at least one first curtain is unfolded or folded under the driving of the guiding cables at two sides, and the two guiding cables are driven by the first driving motor to drive the at least one first curtain.

3. The system of claim 2, wherein the at least one shade is provided with a plurality of first curtain members arranged in a row, the plurality of first curtain members are connected to the two guide cables, and the plurality of first curtain members can be unfolded or folded in the same direction by the driving of the first driving motor.

4. The green energy agricultural planting system of claim 1, 2 or 3, wherein the at least one canopy has a plurality of spaced arc-shaped holders, a second curtain member, a plurality of transmission mechanisms and a second driving motor, wherein the plurality of spaced arc-shaped holders are spaced above the top of the net room/greenhouse or the farmland, the second curtain member is disposed on the plurality of arc-shaped holders, the plurality of transmission mechanisms are combined with the plurality of arc-shaped holders, and the second driving motor is connected with the plurality of transmission mechanisms, and drives the plurality of transmission mechanisms to move the plurality of arc-shaped holders, so that the second curtain member is in an expanded or collapsed state.

5. The green-energy agricultural planting system of claim 4, wherein each transmission mechanism is a rail and pulley block, the second driving motor is connected with the guide rail and the pulley block, so that the second curtain piece is driven to move relative to the net room/greenhouse or the farmland through each transmission mechanism.

6. The green agricultural planting system of claim 4, wherein each transmission mechanism is a gear and chain assembly, wherein the second driving motor is connected to the chain assembly, thereby moving the second curtain member relative to the net room/greenhouse or the farm land via each transmission mechanism.

7. The green agricultural growing system of claim 1, wherein said solar power generating device is located in an operating room on one side of said net room/greenhouse or said agricultural land, and said irrigation module is located in said operating room.

8. The green agricultural planting system of claim 7, wherein the solar power generating device comprises a plurality of solar panels disposed on the roof of the operating room for receiving solar energy to generate electricity, a battery electrically connected to the plurality of solar panels via a charger for storing the electric energy converted by the plurality of solar panels, a controller disposed in the operating room and electrically connected to the plurality of solar panels and the battery, and an auxiliary set connected to the controller and comprising at least one monitor, an illuminometer, a thermometer/hygrometer and a calorimeter, the pump being connected to the battery of the solar power generating device and the controller.

9. The green-energy agricultural planting system of claim 8, wherein the battery is connected to a first drive motor of the at least one shade and a second drive motor of the at least one canopy and is provided with a dc/ac converter, the first drive motor and the second drive motor being a dc motor or an ac motor.

10. The green agricultural growing system of claim 1, wherein a plurality of shades and rainshelters are spaced side by side and in equal numbers are disposed in the net room/greenhouse or the agricultural field.