CN203537983U

CN203537983U - Indoor planting equipment

Info

Publication number: CN203537983U
Application number: CN201320577267.8U
Authority: CN
Inventors: 蔡增辉
Original assignee: DONGGUAN KAIXIN AGRICULTURAL TECHNOLOGY Co Ltd
Current assignee: DONGGUAN KAIXIN AGRICULTURAL TECHNOLOGY Co Ltd
Priority date: 2013-09-17
Filing date: 2013-09-17
Publication date: 2014-04-16
Anticipated expiration: 2023-09-17

Abstract

The utility model discloses indoor planting equipment comprising a nursery, a planting rack located in the nursery, a new energy power generation device, an energy collection converting system, an electrical control system, a water circulation system, an air circulation system, a data collecting and storing system, an indoor environment data collector and an on-site monitoring system. The planting rack is in a multiple layered structure, semiconducting lights are arranged above each layer, a water channel is arranged below the layer, the semiconducting lights are electrically connected with the electrical control system, and the water channel is communicated with the water circulation system; the air circulation system is located outside the nursery and is communicated with the same; the indoor environment data collector is arranged in the nursery and is electrically connected with the data collecting and storing system; a solar panel and a wind power generating device are arranged outside the nursery and are electrically connected with the energy collection converting system. The indoor planting equipment is energy efficient and environment-friendly, automation level is high, planting environment can be controlled effectively, planting density is increased, pollution is avoided, and production benefits are increased.

Description

Indoor plantation equipment

Technical field

The utility model relates to a kind of agricultural planting field, relates in particular to a kind of energy-saving and environmental protecting, indoor plantation equipment that automaticity is high.

Background technology

Along with scientific and technological progress, people's life style is also constantly improving, from onlying demand the enjoyment cuisines of having enough to eat and wear, emphasizing health; Although scientific and technological progress brings medical system to make rapid progress, and also occurs on the market food, evil mind commodity and the agricultural chemicals vegetables and fruits of many chemosynthesis simultaneously.

The development of current industrial, make the periphery in farmland occur many factories, due to the imperfection of environmental management, the direct blowdown of some factory causes air and soil pollution, therefore, the vegetables of outdoor plantation often contain poisonous chemical substance with heavy metal or other; In addition, the inadequate science of peasant planting, causes agricultural chemicals spray wine excessive, thereby residual in vegetables, these vegetables can reside in after being eaten by people in health and be difficult to discharge, thereby affect people's health.

The developing direction green, healthy, environmental protection becomes current agricultural production; There is now many booths and indoor plantation, but these planting patternss watering, fertilising and illumination supervisor all need manual operation, each production link need to be divided the work and Real Time Observation guarantees that production environment meets the growth needs of plant.Although the vegetables of producing are subject to external environmental degree few, but, its production process needs a large amount of manpower and materials, labour intensity is large, and because the isolation of itself and outdoor environment can not get sunshine, therefore need to expend a large amount of electric energy and produce light source, so that plant meets long illumination.

Therefore, need a kind of energy-saving and environmental protecting, automaticity high, effectively control planting environment, improve planting density, pollution-free, and effectively reduce agriculture production cost, improve the indoor plantation equipment of productivity effect.

Utility model content

The purpose of this utility model is to provide a kind of energy-saving and environmental protecting, automaticity high, effectively controls planting environment, improves planting density, pollution-free, improves the indoor plantation equipment of productivity effect.

To achieve these goals, plantation frame, generation of electricity by new energy device, the energy that the indoor plantation equipment that the utility model provides comprises raising chamber, be positioned at raising chamber collect converter system, electric-control system, water circulation system, air circulation system, data acquisition and stocking system, indoor environment data acquisition unit and Field Monitoring System; Described plantation frame is multilayer architecture, and the top of every one deck is provided with semi-conductor lighting lamp, and below is provided with tank, and described semi-conductor lighting lamp is electrically connected with described electric-control system, and described tank is communicated with described water circulation system; Described air circulation system is positioned at outside described raising chamber and is communicated with described raising chamber; Described indoor environment data acquisition unit is arranged in described raising chamber and with described data acquisition and stocking system and is electrically connected; Described solar panel and wind electricity generating system are placed in outside described raising chamber and collect converter system with the described energy and be electrically connected; Described Field Monitoring System is electrically connected with described data acquisition and stocking system, and the described energy collects converter system, water circulation system, air circulation system and data acquisition and stocking system is electrically connected with described electric-control system respectively.

Preferably, described water circulation system comprises liquid reserve tank, water pump, the first control valve, the second control valve, import water pipe and derive water pipe, the water inlet of described water pump is communicated with described liquid reserve tank, the delivery port of described water pump is communicated with the first control valve, described the first control valve is communicated with one end of described importing water pipe, the other end of described importing water pipe is communicated with one end of described tank, the other end of described tank is communicated with one end of described derivation water pipe, the other end of described derivation water pipe is communicated with described the second control valve, described the second control valve is communicated with described liquid reserve tank, described water pump, the first control valve and the second control valve are electrically connected with described electric-control system respectively.By importing water pipe and derive water pipe, be communicated with described tank, and water pump is set, described water pump, first and second control valve are electrically connected with described electric-control system, thereby realize unmanned irrigation, save a large amount of labours, and moisture content recycling, using water wisely, reduces production costs.

Particularly, described water circulation system also comprises feed pipe, drainpipe and draining valve, and one end of described feed pipe is communicated with external water source, and the other end is communicated with described liquid reserve tank; Described draining valve is communicated with delivery port and the drainpipe of described water pump, and described drainpipe is communicated with outside.By feed pipe, drainpipe and draining valve are set, realize described liquid reserve tank moisturizing or unnecessary water are discharged; And described draining valve is normal off status, when opening described draining valve and closing the first control valve, start water pump, can realize described liquid reserve tank is carried out to cleaning inside, simple in structure, easy to use.

Particularly, described water circulation system also comprises nutrient solution adjuster and nutrient solution concentration data collector, described nutrient solution adjuster is communicated with described liquid reserve tank and is electrically connected with described electric-control system, and described nutrient solution concentration data collector is arranged in described liquid reserve tank and is electrically connected with described data acquisition and stocking system.Described nutrient solution concentration data collector can be collected the concentration parameter of nutrient solution in liquid reserve tank, thereby make described electric-control system send instruction to described nutrient solution adjuster, described nutrient solution adjuster just can be carried corresponding nutrient solution in liquid reserve tank, so that it is mixed into water the nutrient solution concentration that is applicable to plant growth.

Particularly, on described importing water pipe, be also provided with filter, described filter filters the impurity in described liquid reserve tank.

Preferably, described air circulation system comprises air-conditioning, appliance for applying carbon dioxide and steam line, the air inlet of described air-conditioning is communicated in described raising chamber bottom, described air-conditioning is communicated with steam line, and described steam line is arranged at the top of described plantation frame and has multiple air outlets to canyon; Described appliance for applying carbon dioxide is arranged at outside described raising chamber and output is communicated with described steam line.Described air-conditioning can provide temperature, gas and humidity to described raising chamber, and described appliance for applying carbon dioxide can provide plant growth required carbon dioxide to described raising chamber, can need flexible modulation according to plant like this, and at plant growth, be isolated from the outside during the course, prevent the pollution of outside air; In addition, automatically control again by described electric-control system, automaticity is high, thereby reaches unattended.

Preferably, described indoor environment data acquisition unit comprises temperature data acquisition device and/or humidity data collector and/or carbonic acid gas data acquisition unit.

Preferably, described indoor plantation equipment also comprises cloud monitoring system, and described cloud monitoring system is electrically connected with described data acquisition and stocking system.Utilize described cloud monitoring system, the environment that monitor staff can remote monitoring raising chamber, thus adjust rapidly environmental parameter, to adapt to the growth demand of plant.

Preferably, described electric-control system comprises city's electrical circuit breakers, central controller, AC output module, direct current output module, described city electrical circuit breakers connects mains supply, described AC output module is electrically connected with described water circulation system and air circulation system, and described direct current output module is electrically connected with described semi-conductor lighting lamp; Described city electrical circuit breakers, AC output module and direct current output module are electrically connected with described central controller respectively.

Preferably, described generation of electricity by new energy device comprises solar panel and/or wind electricity generating system.

Compared with prior art, because the utility model arranges raising chamber, and generation of electricity by new energy device is set outside raising chamber, by utilizing electric control system controls, make the indoor plantation equipment of the utility model between civil power and generation of electricity by new energy, to switch and to use as required, thereby avoid the peak of power consumption period, reach the benefit of energy-saving and emission-reduction and the reduction electricity charge; In addition, by water circulation system and air circulation system are set, the nurturing an environment in raising chamber are isolated from the outside, thereby are not subject to external influence or pollution, reach the object that environmental parameter can freely control to adjust, thus can be according to the process of growth of the growth needs control plant of plant; And, utilize the indoor various environmental datas of indoor environment data acquisition unit and data acquisition and stocking system automatic acquisition, by the described electric-control system hydrous water circulatory system and air circulation system, automatically regulate again, thereby need not monitor manually and regulate, realize the automation of height, save a large amount of manpower and materials; Described plantation frame adopts multilayer architecture can improve planting density; Whole system can effectively reduce agriculture production cost, improve productivity effect, and production process is pollution-free, meets environmental and ecological agricultural, the developing direction of the environmental protection industries such as pollution-free food, and application prospect is very extensive.

Accompanying drawing explanation

Fig. 1 is the structural representation of the indoor plantation equipment of the utility model.

Fig. 2 is the schematic flow sheet of the indoor plantation equipment of the utility model.

Fig. 3 is the schematic diagram that the utility model electric-control system and the energy collect converter system.

Embodiment

For the effect that describes technology contents of the present utility model, structural feature in detail, realizes, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.

As shown in Figure 1 and Figure 2, the indoor plantation equipment 100 of the utility model comprises raising chamber 1, the plantation frame 2, solar panel 3, wind electricity generating system 4, the energy that are positioned at raising chamber 1 collects converter system 5, electric-control system 6, water circulation system 7, air circulation system 8, data acquisition and stocking system 9, indoor environment data acquisition unit 10 and Field Monitoring System 11.Described solar panel 3 and wind electricity generating system 4 are placed in outside described raising chamber 1 and collect converter system 5 with the described energy and be electrically connected; Described indoor environment data acquisition unit 10 is arranged in described raising chamber 1 and is electrically connected with described data acquisition and stocking system 9; Described Field Monitoring System 11 is electrically connected with described data acquisition and stocking system 9, and the described energy collects converter system 5, water circulation system 7, air circulation system 8 and data acquisition and stocking system 9 is electrically connected with described electric-control system 6 respectively.The described energy collects converter system 5, electric-control system 6, data acquisition and stocking system 9 and is all placed in a control room 12, prevents external influence.The indoor plantation equipment 100 of the utility model can also comprise other generation of electricity by new energy devices, and other generation of electricity by new energy devices collect converter system 5 with the described energy and are electrically connected, and uses multiple generation of electricity by new energy device can save the usage amount of civil power.

Refer to Fig. 1, described plantation frame 2 is multilayer architecture, and the top of every one deck is provided with semi-conductor lighting lamp 21, below is provided with tank 22, centre is provided with definite value plate, the control of described definite value plate can be set according to the size in the process of growth of plant and shared space, and described semi-conductor lighting lamp 21 can send the required luminous energy of plant growth, and the semi-conductor lighting lamp 21 of every one deck is electrically connected with described electric-control system 6 respectively in parallel.

Referring to water circulation system 7 described in Fig. 1 comprises liquid reserve tank 711, water pump 712, the first control valve 713, the second control valve 714, imports water pipe 715, derives water pipe 716, feed pipe 717, drainpipe 718, draining valve 719, nutrient solution adjuster 720 and nutrient solution concentration data collector 721 again.Described liquid reserve tank 711 is positioned under described plantation frame 2, the water inlet of described water pump 712 is communicated with described liquid reserve tank 711, the delivery port of described water pump 712 is communicated with the first control valve 713, described the first control valve 713 is communicated with one end of described importing water pipe 715, the other end of described importing water pipe 715 is communicated with one end of the tank 22 of described plantation frame 2 every one decks, the other end of described tank 22 is communicated with one end of described derivation water pipe 716, the other end of described derivation water pipe 716 is communicated with described the second control valve 714, described the second control valve 714 is communicated with described liquid reserve tank 711, described water pump 712, the first control valve 713 and the second control valve 714 are electrically connected with described electric-control system 6 respectively, described electric-control system 6 is controlled described the first control valve 713, the switch of the second control valve 714, and the unlatching of described water pump 712 or stop.By importing water pipe 715 and derive water pipe 716, be communicated with described tank 22, and water pump 712 is set, described water pump 712, first and second control valve 713,714 are electrically connected with described electric-control system 6, thereby realize unmanned irrigation, save a large amount of labours, and moisture content recycling, using water wisely, reduces production costs.One end of described feed pipe 717 is communicated with external water source, and the other end is communicated with described liquid reserve tank 711; The two ends of described draining valve 719 are communicated with delivery port and the drainpipe 718 of described water pump 712, and described drainpipe 718 is communicated with outside.When irrigating, described draining valve 719 is normal off status, and described the first control valve 713 is opened, and the second control valve 714 is closed, and described water pump 712 starts, and water is extracted on described tank 22, thereby supplies water to plant; In addition, on described importing water pipe 715, be provided with filter 722, water also needs through described filter 722 in the process process of described importing water pipe 715, thereby filters the impurity in described liquid reserve tank 711.When using a period of time to clean described liquid reserve tank 711, open described draining valve 719 and close the first control valve 713, start water pump 712, water pump 712 is extracted into the external world by the water in liquid reserve tank 711 through drainpipe 718, can realize described liquid reserve tank 711 is carried out to cleaning inside, simple in structure, easy to use.Described nutrient solution adjuster 720 is communicated with described liquid reserve tank 711 and is electrically connected with described electric-control system 6, and described nutrient solution concentration data collector 721 is arranged in described liquid reserve tank 711 and is electrically connected with described data acquisition and stocking system 9.Described nutrient solution concentration data collector 721 can be collected the concentration parameter of liquid reserve tank 711 interior nutrient solutions, thereby make described electric-control system 6 calculate suitable nutrition liquid measure according to the watermeter in concentration and liquid reserve tank 711, to described nutrient solution adjuster 720, send instruction again, described nutrient solution adjuster 720 just can be according to instruction to the corresponding nutrient solution of the interior conveying of liquid reserve tank 711, so that it is mixed into water the nutrient solution concentration that is applicable to plant growth.

Again as shown in Figure 1, described air circulation system 8 is positioned at outside described raising chamber 1, it comprises air-conditioning 81, appliance for applying carbon dioxide 82 and steam line 83, the air inlet 811 of described air-conditioning 81 is communicated in the inner bottom part of described raising chamber 1, described air-conditioning 81 is communicated with steam line 83, described steam line 83 is arranged at the top of described plantation frame 2 and has multiple air outlets 831 to canyon, and described air-conditioning 81 is electrically connected with described electric-control system 6; Described appliance for applying carbon dioxide 82 is arranged at outside described raising chamber 1, and it comprises carbon dioxide canister 821 and flow control valve 822, and the output of described carbon dioxide canister 821 is communicated with described steam line 83; Described flow control valve 822 is arranged between the output and steam line 83 of described carbon dioxide canister 821, and is electrically connected with described electric-control system 6.Described air-conditioning 81 can provide temperature, gas and humidity to described raising chamber 1, and described appliance for applying carbon dioxide 82 can provide plant growth required carbon dioxide to described raising chamber 1, can need flexible modulation according to plant like this, and at plant growth, be isolated from the outside during the course, prevent the pollution of outside air; In addition, automatically control again by described electric-control system 6, automaticity is high, thereby reaches unattended.

Described indoor environment data acquisition unit 10 comprises temperature data acquisition device 101, humidity data collector 102 and carbonic acid gas data acquisition unit 103, in described data acquisition and stocking system 9, store the environmental parameter of the standard of a set of applicable plant growth, described temperature data acquisition device 101, humidity data collector 102 is stored in described data acquisition and stocking system 9 after collecting temperature in raising chamber 1 and humidity, after contrasting according to the data of described data acquisition and stocking system 9, electric-control system 6 draws when temperature at that time of raising chamber 1 and humidity are higher or lower, control described air-conditioning 81, air value of being near the mark that it is blown out.In like manner, thus described carbonic acid gas data acquisition unit 103 also can gather the concentration of the carbonic acid gas of raising chamber 1 makes electric-control system 6 control described flow control valve 822 to the appropriate carbonic acid gas of the interior conveying of raising chamber 1.

As shown in Figure 2, described indoor plantation equipment 100 also comprises cloud monitoring system 13, and described cloud monitoring system 13 is electrically connected with described data acquisition and stocking system 9.Particularly, described cloud monitoring system 13 comprises router-module and server module, router-module is transferred to server module through router-module and communication apparatus after obtaining the data in data acquisition and stocking system 9, and far-end operating personnel can receive and reading out data after game server.Utilize described cloud monitoring system 13, monitor staff can long-range reading out data collection and the data of stocking system 9, thereby the environment of monitoring raising chamber 1 is realized and adjusted rapidly environmental parameter, to adapt to the growth demand of plant.

Described Field Monitoring System 11 comprises host module and display, data in the collection of described host module reading out data and stocking system 9 also show in display, operating personnel can monitor the environment in raising chamber by display, thereby and can setting data collection and stocking system 9 in various parameters adjust the environment in raising chamber 1.

Refer to Fig. 3, described electric-control system 6 comprises city's electrical circuit breakers 61, central controller 62, AC output module 63, direct current output module 64, and described city electrical circuit breakers 61 connects mains supply, and when using solar energy or wind power generation, city's electrical circuit breakers 61 disconnects.Described AC output module 63 can become alternating current by the current conversion of solar panel 3 and wind electricity generating system 4, thereby is connected with the water pump 712 of described water circulation system 7 and the air conditioner electric of air circulation system 8, for water pump 712 and air-conditioning 81 are powered.Described direct current output module 64 can become direct current by the current conversion of solar panel 3 and wind electricity generating system 4, thereby is electrically connected with each valve of described semi-conductor lighting lamp 21 and native system, is semi-conductor lighting lamp 21 and the power supply of each valve.Described city electrical circuit breakers 61, AC output module 63 and direct current output module 64 are electrically connected with described central controller 62 respectively, and described central controller 62 is controlled modules and cooperated in harmony.The described energy collects converter system 5 and comprises control module 51, unsteady flow module 52 and energy-storage module 53; Described control module 51 is electrically connected with described solar panel 3, wind electricity generating system 4 respectively, and receive the electric power that produced by solar panel 3, wind electricity generating system 4, described unsteady flow module 52 is electrically connected with described control module 51 and electric-control system 6 respectively and adjustable variable pressure, electric current and frequency, described energy-storage module 53 is electrically connected with described control module 51, when described solar panel 3, wind electricity generating system 4 generated energy are when too much, electric energy can be stored in described energy-storage module 53 in order to later required, thereby saves electric energy.

Compared with prior art, because the utility model arranges raising chamber, and solar panel 3, wind electricity generating system 4 or other new sources are set outside raising chamber can TRT, by utilizing electric-control system 6, control, make the indoor plantation equipment 100 of the utility model between civil power and generation of electricity by new energy, to switch and to use as required, thereby avoid the peak of power consumption period, reach the benefit of energy-saving and emission-reduction and the reduction electricity charge; In addition, by water circulation system 7 and air circulation system 8 are set, the nurturing an environment in raising chamber 1 are isolated from the outside, thereby are not subject to external influence or pollution, reach the object that environmental parameter can freely control to adjust, thus can be according to the process of growth of the growth needs control plant of plant; And, utilize the indoor various environmental datas of indoor environment data acquisition unit 10 and data acquisition and stocking system 9 automatic acquisitions, by the described electric-control system 6 hydrous water circulatory systems 7 and air circulation system 8, automatically regulate again, thereby need not monitor manually and regulate, realize the automation of height, save a large amount of manpower and materials; Plantation frame 2 adopts multilayer architecture can improve planting density; Whole system can effectively reduce agriculture production cost, improve productivity effect, and production process is pollution-free, meets environmental and ecological agricultural, the developing direction of the environmental protection industries such as pollution-free food, and application prospect is very extensive.

Above disclosed is only preferred embodiments of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim, still belongs to the scope that the utility model is contained.

Claims

1. an indoor plantation equipment, is characterized in that: the plantation frame, generation of electricity by new energy device, the energy that comprise raising chamber, are positioned at raising chamber collect converter system, electric-control system, water circulation system, air circulation system, data acquisition and stocking system, indoor environment data acquisition unit and Field Monitoring System; Described plantation frame is multilayer architecture, and the top of every one deck is provided with semi-conductor lighting lamp, and below is provided with tank, and described semi-conductor lighting lamp is electrically connected with described electric-control system, and described tank is communicated with described water circulation system; Described air circulation system is positioned at outside described raising chamber and is communicated with described raising chamber; Described indoor environment data acquisition unit is arranged in described raising chamber and with described data acquisition and stocking system and is electrically connected; Described generation of electricity by new energy device is placed in outside described raising chamber and collects converter system with the described energy and is electrically connected; Described Field Monitoring System is electrically connected with described data acquisition and stocking system, and the described energy collects converter system, water circulation system, air circulation system and data acquisition and stocking system is electrically connected with described electric-control system respectively.

2. indoor plantation equipment as claimed in claim 1, it is characterized in that: described water circulation system comprises liquid reserve tank, water pump, the first control valve, the second control valve, import water pipe and derive water pipe, the water inlet of described water pump is communicated with described liquid reserve tank, the delivery port of described water pump is communicated with the first control valve, described the first control valve is communicated with one end of described importing water pipe, the other end of described importing water pipe is communicated with one end of described tank, the other end of described tank is communicated with one end of described derivation water pipe, the other end of described derivation water pipe is communicated with described the second control valve, described the second control valve is communicated with described liquid reserve tank, described water pump, the first control valve and the second control valve are electrically connected with described electric-control system respectively.

3. indoor plantation equipment as claimed in claim 2, is characterized in that: described water circulation system also comprises feed pipe, drainpipe and draining valve, and one end of described feed pipe is communicated with external water source, and the other end is communicated with described liquid reserve tank; Described draining valve is communicated with delivery port and the drainpipe of described water pump, and described drainpipe is communicated with outside.

4. indoor plantation equipment as claimed in claim 2, it is characterized in that: described water circulation system also comprises nutrient solution adjuster and nutrient solution concentration data collector, described nutrient solution adjuster is communicated with described liquid reserve tank and is electrically connected with described electric-control system, and described nutrient solution concentration data collector is arranged in described liquid reserve tank and is electrically connected with described data acquisition and stocking system.

5. indoor plantation equipment as claimed in claim 2, is characterized in that: on described importing water pipe, be also provided with filter, described filter filters the impurity in described liquid reserve tank.

6. indoor plantation equipment as claimed in claim 1, it is characterized in that: described air circulation system comprises air-conditioning, appliance for applying carbon dioxide and steam line, the air inlet of described air-conditioning is communicated in described raising chamber bottom, described air-conditioning is communicated with steam line, and described steam line is arranged at the top of described plantation frame and has multiple air outlets to canyon; Described appliance for applying carbon dioxide is arranged at outside described raising chamber and output is communicated with described steam line.

7. indoor plantation equipment as claimed in claim 1, is characterized in that: described indoor environment data acquisition unit comprises temperature data acquisition device and/or humidity data collector and/or carbonic acid gas data acquisition unit.

8. indoor plantation equipment as claimed in claim 1, is characterized in that: described indoor plantation equipment also comprises cloud monitoring system, and described cloud monitoring system is electrically connected with described data acquisition and stocking system.

9. indoor plantation equipment as claimed in claim 1, it is characterized in that: described electric-control system comprises city's electrical circuit breakers, central controller, AC output module, direct current output module, described city electrical circuit breakers connects mains supply, described AC output module is electrically connected with described water circulation system and air circulation system, and described direct current output module is electrically connected with described semi-conductor lighting lamp; Described city electrical circuit breakers, AC output module and direct current output module are electrically connected with described central controller respectively.

10. indoor plantation equipment as claimed in claim 1, is characterized in that: described generation of electricity by new energy device comprises solar panel and/or wind electricity generating system.