CN209931036U - Vegetable garden solar power generation integrated control device - Google Patents

Abstract

The utility model discloses a vegetable garden solar power generation integrated control device, which comprises vegetable cultivation equipment, a photovoltaic component capable of converting solar energy into electric energy, an energy storage module and an electric energy management module, wherein the electric energy management module is respectively connected with the photovoltaic component, the energy storage module and external commercial power to enable the photovoltaic component, the energy storage module and the external commercial power to be operated in a grid-connected mode, the electric energy management module is connected with the vegetable cultivation equipment and charging equipment to supply power for the cultivation equipment and the charging equipment, the photovoltaic component can return electric energy to the mains supply, the photovoltaic component, the energy storage module and the mains supply are reasonably distributed to supply power to the vegetable cultivation equipment, the vegetable cultivation equipment continuously supplies power in the operation process, therefore, the normal operation of the vegetable cultivation equipment is not influenced, the electric energy is saved, the energy utilization rate is greatly improved through reasonable allocation, the energy consumption of a vegetable garden is reduced, and meanwhile, the energy can be fed back to a power grid.

Description

Vegetable garden solar power generation integrated control device

Technical Field

The utility model relates to a vegetable garden plants the field, especially a vegetable garden supervisory control device.

Background

Traditional vegetable garden is planted, along with the rapid development of technological level, can be provided with the cultivation equipment of planting vegetables such as sensing element, the automatic watering part in the vegetable garden, however in the aspect of the power supply, but be the blank area in vegetable garden planting field, owing to introduced automatically controlled part, the loss improves on the energy, present utilization solar energy is for the equipment power supply, but simple solar energy power supply can not deal with all kinds of emergency, for example under the cloudy condition, solar energy is not enough to supply the operation of cultivateing equipment, but in case cultivate equipment and stop the operation, then can cause great influence to vegetables, and simultaneously, cultivation equipment power consumptive low and when solar energy is sufficient, in other power supply fields in the past, can set up the energy storage part and store, but still there is the also full-load condition of energy storage part, unnecessary solar energy will be wasted this moment.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a be the vegetable garden solar energy power generation integrated control device of the equipment power supply is cultivateed for vegetables after passing through electric energy management module and being incorporated into the power networks the processing with photovoltaic module, energy storage module, commercial power three.

The utility model adopts the technical proposal that:

a comprehensive control device for solar power generation in a vegetable garden comprises:

a vegetable culture device;

the photovoltaic module can convert solar energy into electric energy;

energy storage module and electric energy management module, electric energy management module respectively with photovoltaic module, energy storage module and outside commercial power connection so that photovoltaic module, energy storage module and outside commercial power are incorporated into the power networks the operation, electric energy management module is connected with vegetables cultivation equipment and establishes the power supply for vegetables cultivation to photovoltaic module can be for the commercial power electric energy of returning.

The electric energy management module comprises a management unit, a power supply bus, a photovoltaic inverter, an energy storage bidirectional converter, a commercial power transformation unit, a first metering unit, a second metering unit and a third metering unit;

the energy storage module is connected with a power supply bus through an energy storage bidirectional converter, the photovoltaic module is connected with the power supply bus through a photovoltaic inverter, the commercial power is connected with the power supply bus through a commercial power transformation unit, and the power supply bus is connected with the vegetable cultivation equipment to supply power to the vegetable cultivation equipment;

the first metering unit is connected with the photovoltaic inverter to detect energy supply information at the photovoltaic side, the second metering unit is connected with the energy storage bidirectional converter to detect energy supply information at the energy storage side, and the third metering unit is connected with the power supply bus to detect power utilization information at the load side;

the management unit is respectively connected with the photovoltaic inverter, the energy storage bidirectional converter, the commercial power transformation unit, the first metering unit, the second metering unit and the third metering unit so as to control the energy storage bidirectional converter and the commercial power transformation unit to operate according to the energy supply information at the photovoltaic side, the energy supply information at the energy storage side and the power consumption information at the load side.

The monitoring terminal is connected with the electric energy management module, the vegetable cultivation equipment and the camera module respectively to acquire running condition information and camera monitoring information.

Still including filling the electric pile that can charge for outside transportation equipment, the electric energy management module is connected for filling the electric pile power supply with filling electric pile.

Still include control module, control module cultivates equipment with the control vegetable and is connected in order to control the operation of vegetable cultivation equipment.

Still include the vegetable greenhouse, the equipment is cultivateed to vegetables is including all setting up the temperature regulation part in the vegetable greenhouse and detecting temperature information's in the vegetable greenhouse temperature sensor, and control module is connected with temperature sensor, temperature regulation part respectively in order to operate according to temperature information control temperature regulation part.

Still include the vegetable shed, the equipment is cultivateed to vegetables is including all setting up ventilation parts, humidification part on the vegetable shed and detecting the humidity transducer of humidity information in the vegetable shed, and control module is connected with humidity transducer, ventilation parts, humidification part respectively in order to control ventilation parts, humidification part operation respectively according to humidity information.

The vegetable culture equipment comprises a water conveying pipe and at least one spray head which is communicated with the water conveying pipe and can apply water to the vegetable culture medium, and the control module is connected with the spray head to control the spray head to start and stop.

The vegetable cultivation equipment further comprises a spectrum lamp set which emits light towards vegetables, and the control module is connected with the spectrum lamp set to control the color temperature and the brightness of the spectrum lamp set.

The vegetable culture equipment further comprises a timing module, a liquid storage tank, an infusion pump and an infusion tube, wherein the liquid storage tank, the infusion pump and a vegetable culture medium are sequentially communicated through the infusion tube, and the control module is respectively connected with the timing module and the infusion pump to control the infusion pump to operate in a timing mode.

The utility model has the advantages that:

the utility model discloses vegetable garden solar energy power generation integrated control device is provided with photovoltaic module and energy storage module on the vegetable garden, through electric energy management module respectively with photovoltaic module, energy storage module and outside commercial power grid-connected connection, again for vegetable cultivation equipment power supply, under the control of electric energy management module, by photovoltaic module, energy storage module and commercial power rational distribution for vegetable cultivation equipment power supply, vegetable cultivation equipment continues the power supply in the operation process, thus does not influence the normal operating of vegetable cultivation equipment, saves the electric energy;

photovoltaic module charges for energy storage module, also can supply power for vegetables cultivation equipment simultaneously, and is less when vegetables cultivation equipment power consumptive to under the full condition of energy storage module electric quantity, photovoltaic module can also return the electric energy for the commercial power through electric energy management module, and when solar energy is not enough, energy storage module and commercial power can supply power for vegetables cultivation equipment, and reasonable allotment makes energy utilization improve greatly, has reduced the power consumption in vegetable garden, can be the electric wire netting feedback energy simultaneously.

Drawings

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the comprehensive control device for power generation in a vegetable garden of the present invention.

Fig. 2 is a schematic diagram of the layout of a vegetable garden.

Fig. 3 is a schematic circuit diagram of a photovoltaic module connected to a mains grid.

Detailed Description

As shown in fig. 1 to 3, a comprehensive control device for solar power generation in a vegetable garden includes:

a vegetable culture apparatus 1;

the photovoltaic module 2 can convert solar energy into electric energy;

energy storage module 3 and electric energy management module 4, electric energy management module 4 respectively with photovoltaic module 2, energy storage module 3 and outside commercial power connection so that photovoltaic module 2, energy storage module 3 and outside commercial power are incorporated into the power networks the operation, electric energy management module 4 is connected for equipment 1 power supply is cultivateed to vegetables with vegetables cultivation equipment 1 to photovoltaic module 2 can be for the commercial power electric energy of returning.

Wherein, including vegetable shed 5 in the vegetable garden, be provided with a plurality of vegetable culture medium 51 in the vegetable shed 5, here vegetable culture medium 51 can have multiple form, for example the water planting plants vegetables, and vegetable culture medium 51 is the water planting groove, and vegetables are planted to earth, then vegetable culture medium 51 is for cultivateing the dish, and energy storage module is storage battery or energy storage capacitor, and photovoltaic module 2 is a plurality of photovoltaic boards of setting on vegetable shed 5, as shown in fig. 2.

The vegetable garden is provided with a photovoltaic module 2 and an energy storage module 3, the photovoltaic module 2, the energy storage module 3 and an external commercial power are respectively connected in a grid-connected mode through an electric energy management module 4, then the vegetable cultivation equipment 1 is supplied with power, the vegetable cultivation equipment 1 is supplied with power through reasonable distribution of the photovoltaic module 2, the energy storage module 3 and the commercial power under the control of the electric energy management module 4, the vegetable cultivation equipment 1 is continuously supplied with power in the operation process, the normal operation of the vegetable cultivation equipment 1 is not influenced, the electric energy is saved, the photovoltaic module 2 charges the energy storage module 3 and can also supply power to the vegetable cultivation equipment 1, when the power consumption of the vegetable cultivation equipment 1 is less and the electric quantity of the energy storage module 3 is full, the photovoltaic module 2 can also return the electric energy to the commercial power through the electric energy management module 4, and when the solar energy is insufficient, the energy storage module 3 and the commercial, reasonable allocation greatly improves the energy utilization rate, reduces the energy consumption of the vegetable garden, and can feed back energy to the power grid to realize power balance.

As shown in fig. 1 and fig. 3, the power management module 4 may be an integrated metering switch converter transformer, and the power management module 4 of the present design includes a management unit 41, a power supply bus 42, a photovoltaic inverter 43, an energy storage bidirectional converter 44, a utility power transforming unit 45, a first metering unit 46, a second metering unit 47, and a third metering unit 48;

the energy storage module 3 is connected with a power supply bus 42 through an energy storage bidirectional converter 44, the photovoltaic module 2 is connected with the power supply bus 42 through a photovoltaic inverter 43, commercial power is connected with the power supply bus 42 through a commercial power transformation unit 45, and the power supply bus 42 is connected with the vegetable cultivation equipment 1 to supply power to the vegetable cultivation equipment 1;

the first metering unit 46 is connected with the photovoltaic inverter 43 to detect photovoltaic side energy supply information, the second metering unit 47 is connected with the energy storage bidirectional converter 44 to detect energy storage electric quantity information and energy storage side energy supply information, and the third metering unit 48 is connected with the power supply bus 42 to detect load side power utilization information;

the management unit 41 is respectively connected with the photovoltaic inverter 43, the energy storage bidirectional converter 44, the utility power transformation unit 45, the first metering unit 46, the second metering unit 47 and the third metering unit 48 to control the operation of the energy storage bidirectional converter 44 and the utility power transformation unit 45 according to the photovoltaic side energy supply information, the energy storage side energy supply information and the load side electricity utilization information.

The management unit 41 may be a hardware circuit having a processing function, such as a CPU, an MCU, or the like, the energy storage bidirectional converter 44 may be a bidirectional converter switch circuit, which may be specifically selected from the existing specifications, and the management unit 41 controls the conduction direction of the energy storage bidirectional converter 44, so as to transform the voltage of the energy storage module 3 for charging, or the energy storage module 3 supplies power to the outside through transformation;

the photovoltaic inverter 43 may be selected conventionally, and the utility voltage transformation unit 45 may be a transformer capable of being controlled by the management unit 41 to switch the line;

the first measuring unit 46, the second measuring unit 47 and the third measuring unit 48 as detecting components can be power meters or current meters, etc., which respectively detect the load power of the shed electric equipment such as the vegetable cultivation equipment 1, the electric quantity information and the energy supply power of the energy storage module 3, and the energy supply power of the photovoltaic module 2, according to the relationship between the power consumption and the power supply of the three, the management unit 41 controls the operation of the photovoltaic inverter 43, the energy storage bidirectional converter 44 and the commercial power transformation unit 45, thereby realizing that the photovoltaic module 2 charges the energy storage module 3 and can also supply power to the vegetable cultivation equipment 1, when the vegetable cultivation equipment 1 consumes less power, and when the energy storage module 3 is full of electricity, the photovoltaic module 2 can also return the electric energy to the commercial power through the electric energy management module 41, and when the solar energy is insufficient, the energy storage module 3 and the commercial power can be used as grid-connected power supply logic for supplying power to the vegetable cultivation equipment 1.

Further, the intelligent vegetable cultivation system also comprises a monitoring terminal 6 and a camera module 7, wherein the monitoring terminal 6 is respectively connected with the electric energy management module 4, the vegetable cultivation device 1 and the camera module 7 are connected to obtain running condition information and camera monitoring information, the camera module 7 is arranged in a vegetable garden and can be arranged in a vegetable shed or outside the vegetable shed to record the field condition, the monitoring terminal 6 can be a terminal computer and is connected with the camera module 7, the electric energy management module 4 and other devices through a network exchanger, and the running condition information and the camera monitoring information are displayed through a screen of the monitoring terminal 6.

And still including filling electric pile 8 that can charge for outside transportation equipment in the vegetable garden, electric energy management module 4 with fill electric pile 8 and be connected for filling electric pile 8 power supply, transportation equipment can be transport vechicle, electric power shallow etc. provides this green energy of electric energy and charges for the electric energy car, optimizes the vegetable garden as the complex of green energy operation, more energy-concerving and environment-protective.

The design also comprises a control module 9, the control module 9 is connected with the vegetable cultivation device 1 to control the operation of the vegetable cultivation device 1, and the control module 9 can be a CPU or an MCU and peripheral circuits thereof.

As shown in fig. 1, the vegetable cultivation device 1 includes a temperature adjusting component 11 and a temperature sensor 12, wherein the temperature adjusting component 11 is disposed in the vegetable shed 5, the temperature sensor 12 is used for detecting temperature information in the vegetable shed 5, the control module 9 is respectively connected with the temperature sensor 12 and the temperature adjusting component 11 to control the operation of the temperature adjusting component 11 according to the temperature information, and the temperature adjusting component 11 can be a variable frequency air conditioner.

The vegetable cultivation device 1 comprises a ventilation component 13, a humidification component 14 and a humidity sensor 15, wherein the ventilation component 13 and the humidification component 14 are all arranged on the vegetable shed 5, the humidity sensor 15 is used for detecting humidity information in the vegetable shed 5, the control module 9 is respectively connected with the humidity sensor 15, the ventilation component 13 and the humidification component 14 to respectively control the ventilation component 13 and the humidification component 14 to operate according to the humidity information, the ventilation component 13 can be an air conditioner or a fan, and the humidification component 14 can be a humidifier or an atomizing nozzle.

The vegetable culture device 1 comprises a water conveying pipe 16 and at least one spray head 17 which is communicated with the water conveying pipe 16 and can be used for applying water to the vegetable culture medium 51, the control module 9 is connected with the spray head 17 to control the spray head 17 to be started and stopped, and the spray head 17 can be arranged above the vegetable culture medium 51 and can be used for watering the vegetable culture medium 51 in a one-to-one correspondence mode.

The vegetable cultivation device 1 further comprises a spectrum lamp group 18 capable of emitting light towards vegetables, the control module 9 is connected with the spectrum lamp group 18 to control color temperature and brightness of the spectrum lamp group 18, the spectrum lamp group 18 can be driven by a color mixing circuit, and the control module 9 controls the spectrum lamp group 18 to be turned on and off and changes color temperature to irradiate plants, so that the plant production period is shortened, and productivity is improved.

The vegetable culture device 1 further comprises a timing module 19, a liquid storage tank 110, an infusion pump 111 and an infusion tube 112, the liquid storage tank 110, the infusion pump 111 and the vegetable culture medium 51 are sequentially communicated through the infusion tube 112, the control module 9 is respectively connected with the timing module 19 and the infusion pump 111 to control the operation of the infusion pump 111 in a timing mode, the timing module 19 can be a crystal oscillator circuit or a timer so as to provide timing signals for the control module 9, and the infusion pump 111 is used for replacing culture solution for the vegetable culture medium 51.

The above is only the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, and the technical solution of the present invention is all within the protection scope of the present invention as long as the present invention is realized by the substantially same means.

Claims (10)

1. The utility model provides a vegetable garden solar energy power generation integrated control device which characterized in that includes:

a vegetable culture device;

the photovoltaic module can convert solar energy into electric energy;

energy storage module and electric energy management module, electric energy management module respectively with photovoltaic module, energy storage module and outside commercial power connection so that photovoltaic module, energy storage module and outside commercial power are incorporated into the power networks the operation, electric energy management module is connected with vegetables cultivation equipment and is supplied power for vegetables cultivation equipment to photovoltaic module can be for the commercial power electric energy of returning.

2. The comprehensive control device for solar power generation in a vegetable garden of claim 1, characterized in that: the electric energy management module comprises a management unit, a power supply bus, a photovoltaic inverter, an energy storage bidirectional converter, a commercial power transformation unit, a first metering unit, a second metering unit and a third metering unit;

the energy storage module is connected with a power supply bus through an energy storage bidirectional converter, the photovoltaic module is connected with the power supply bus through a photovoltaic inverter, the commercial power is connected with the power supply bus through a commercial power transformation unit, and the power supply bus is connected with the vegetable cultivation equipment to supply power to the vegetable cultivation equipment;

the first metering unit is connected with the photovoltaic inverter to detect energy supply information at the photovoltaic side, the second metering unit is connected with the energy storage bidirectional converter to detect energy supply information at the energy storage side, and the third metering unit is connected with the power supply bus to detect power utilization information at the load side;

the management unit is respectively connected with the photovoltaic inverter, the energy storage bidirectional converter, the commercial power transformation unit, the first metering unit, the second metering unit and the third metering unit so as to control the energy storage bidirectional converter and the commercial power transformation unit to operate according to the energy supply information at the photovoltaic side, the energy supply information at the energy storage side and the power consumption information at the load side.

3. The comprehensive control device for solar power generation in a vegetable garden of claim 1, characterized in that: the monitoring terminal is connected with the electric energy management module, the vegetable cultivation equipment and the camera module respectively to acquire running condition information and camera monitoring information.

4. The comprehensive control device for solar power generation in a vegetable garden of claim 1, characterized in that: still including filling the electric pile that can charge for outside transportation equipment, the electric energy management module is connected for filling the electric pile power supply with filling electric pile.

5. The comprehensive control device for solar power generation in a vegetable garden of claim 1, characterized in that: still include control module, control module cultivates equipment with the control vegetable and is connected in order to control the operation of vegetable cultivation equipment.

6. The comprehensive control device for solar power generation in a vegetable garden of claim 5, characterized in that: still include the vegetable greenhouse, the equipment is cultivateed to vegetables is including all setting up the temperature regulation part in the vegetable greenhouse and detecting temperature information's in the vegetable greenhouse temperature sensor, and control module is connected with temperature sensor, temperature regulation part respectively in order to operate according to temperature information control temperature regulation part.

7. The comprehensive control device for solar power generation in a vegetable garden of claim 5, characterized in that: still include the vegetable shed, the equipment is cultivateed to vegetables is including all setting up ventilation parts, humidification part on the vegetable shed and detecting the humidity transducer of humidity information in the vegetable shed, and control module is connected with humidity transducer, ventilation parts, humidification part respectively in order to control ventilation parts, humidification part operation respectively according to humidity information.

8. The comprehensive control device for solar power generation in a vegetable garden of claim 5, characterized in that: the vegetable culture equipment comprises a water conveying pipe and at least one spray head which is communicated with the water conveying pipe and can apply water to the vegetable culture medium, and the control module is connected with the spray head to control the spray head to start and stop.

9. The comprehensive control device for solar power generation at a vegetable garden of claim 8, characterized in that: the vegetable cultivation equipment further comprises a spectrum lamp set which emits light towards vegetables, and the control module is connected with the spectrum lamp set to control the color temperature and the brightness of the spectrum lamp set.

10. The comprehensive control device for solar power generation at a vegetable garden of claim 8, characterized in that: the vegetable culture equipment further comprises a timing module, a liquid storage tank, an infusion pump and an infusion tube, the liquid storage tank, the infusion pump and the vegetable culture medium are sequentially communicated through the infusion tube, and the control module is respectively connected with the timing module and the infusion pump to control the infusion pump to operate in a timing mode.

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