CN105815206A - Vegetable growing system - Google Patents

Abstract

The invention relates to the technical field of vegetable cultivation, in particular to a vegetable growing system. The vegetable growing system comprises a seedling culturing device, a cultivation device and an electromagnetic interference device, wherein the seedling culturing device is used for cultivating vegetable seeds into vegetable seedlings; the cultivation device is used for cultivating the vegetable seedlings into vegetable plants; the electromagnetic interference device is provided with an electrostatic adsorption device and a sonar generator, the electrostatic adsorption device is used for conducting insecticide and disease prevention on the vegetable seedlings, and the sonar generator is used for pushing the vegetable seedlings to grow. The vegetable growing system is simple in structure, small and exquisite in size and suitable for household use; the seedling culturing device is arranged so that soilless seedling culturing can be conducted, and automation of vegetable growing within the whole life cycle is achieved. According to the vegetable growing system, the electromagnetic interference device is arranged so that insecticide and disease prevention can be conducted on the vegetable seedlings, the traditional mode of killing insects through pesticide is replaced, and quality and safety of vegetables are guaranteed.

Description

A kind of vegetable growth system

Technical field

The present invention relates to vegetable culture technique field, especially relate to a kind of vegetable growth system.

Background technology

Make rapid progress along with science and technology and living standard improves day by day, consumer is more desirable to edible pollution-free food, it is especially desirable and can have the fresh vegetables that oneself cultivates, hydroponics growing system has been used for the report of planting vegetable in the mineral nutrition liquid without soil by this area, water planting is the one of soilless culture, classifying in without substrate culture, refer to do not have substrate to fix root system in the environment of plant root growth without substrate culture type, root growth is in nutritional solution or the humid air containing nutritional solution.Vegetable aquaculture refers to that most of root system of vegetable seedling is grown directly upon the Soilless Culture Methods in nutritional solution liquid layer.

The most existing vegetable growth system has problems in that, it is impossible to non-soil culture, needs additionally to purchase finished product seedling；Structure disperses, volume is big, and noise is big, needs larger space, is not suitable for family and uses.Additionally, existing vegetable growth system needs to be come the generation of prevention and elimination of disease and pests by spraying pesticide, thus bring hidden danger for food safety.

Therefore, the afunction that is necessary to exist for existing vegetable growth system, structure disperses, bulky and need the problems such as spraying pesticide, it is provided that a kind of vegetable growth Life cycle automatization, light small and exquisite, be suitable for domestic and house can be improved to a certain extent in the vegetable growth system of air quality.

Summary of the invention

It is an object of the invention to provide the vegetable growth system of a kind of Life cycle automatization, to solve afunction present in existing vegetable growth system, structure disperses, bulky and need the technical problems such as spraying pesticide.

The vegetable growth system that the present invention provides, including device for raising seedlings, breeding apparatus and electromagnetic interference device, described device for raising seedlings is for cultivating into vegetable seedling by vegetable seeds；Described breeding apparatus is for cultivating into vegetable strain by described vegetable seedling；Described electromagnetic interference device is provided with electrostatic adsorption device and sonar generator, and described electrostatic adsorption device for carrying out disinsection prophylaxis to described vegetable seedling, and described sonar generator is for promoting the growth of described vegetable seedling.

Further, described device for raising seedlings includes that seedling bed, the upper surface of described seedling bed are provided with multiple planting groove, is used for cultivating described vegetable seeds；Described breeding apparatus includes vegetable growth chamber and nutrition supply case, and described vegetable growth chamber is used for cultivating described vegetable seedling, and described nutrition supply case is for providing nutritional solution to described vegetable seedling.

Further, the sidewall of described vegetable growth chamber is provided with multiple through hole, plants to described vegetable growth chamber for being inserted by described vegetable seedling.

Further, described nutrition supply case is installed on the lower section of described vegetable growth chamber, and the bottom of described vegetable growth chamber is connected with the top of described nutrition supply case, described nutrition supply case be internally provided with ultrasound atomizer, for making nutrient liquid atomizing, to produce fog.

Further, the bottom of described vegetable growth chamber is provided with poly-liquid portion, and described poly-liquid portion is gradually reduced from top to bottom；Described vegetable growth chamber is connected by liquid return tube with described nutrition supply case, and wherein, one end of described liquid return tube is connected with the bottom in described poly-liquid portion, and the other end of described liquid return tube is positioned at the inside of described nutrition supply case.

Further, described nutrition supply case is provided with blower fan, and the suction side of described blower fan is positioned at the inside of described nutrition supply case, for sucking the fog that described ultrasound atomizer produces；The outfan of described blower fan connects has fog-spray nozzle, described fog-spray nozzle to be positioned at the inside of described vegetable growth chamber.

Further, also including operating display control unit, described electrostatic adsorption device and described sonar generator electrically connect with described operation display control unit respectively.

Further, described device for raising seedlings and described breeding apparatus are provided with light compensating apparatus, described light compensating apparatus includes LED plant growth lamp and optical sensor, and described optical sensor is for detecting the intensity of illumination in surrounding, and described light compensating apparatus electrically connects with described operation display control unit.

Further, described device for raising seedlings and described breeding apparatus are provided with temperature humidity adjusting means, and described temperature humidity adjusting means electrically connects with described operation display control unit.

Further, described nutrition supply case be internally provided with liquidometer, described liquidometer electrically connects with described operation display control unit.

Compared with prior art, the invention have the benefit that

The vegetable growth system of a kind of Life cycle automatization that the present invention provides, including device for raising seedlings, breeding apparatus and electromagnetic interference device, described device for raising seedlings is for cultivating into vegetable seedling by vegetable seeds；Described breeding apparatus is for cultivating into vegetable strain by described vegetable seedling；Described electromagnetic interference device is provided with electrostatic adsorption device and sonar generator, and described electrostatic adsorption device for carrying out disinsection prophylaxis to described vegetable seedling, and described sonar generator is for promoting the growth of described vegetable seedling.Present configuration is simple, compact, is suitable to family and uses, by arranging device for raising seedlings, can carry out non-soil culture, it is not necessary to additionally purchase finished product seedling, it is achieved that vegetable growth Life cycle automatization.The present invention carries out disinsection prophylaxis by arranging electromagnetic interference device to vegetable seedling, instead of traditional agricultural insecticide mode, it is ensured that the quality of vegetable and safety.Wherein, electrostatic adsorption device can not only carry out disinsection prophylaxis to vegetable seedling, and can reduce the antibacterial in air and PM2.5 concentration, such that it is able to improve air quality in family to a certain extent；Sonar generator is to utilize ultrasonic activation to stimulate the principle that the pore on plant leaf blade surface increases, use the ultrasonic stimulation vegetable seedling of dither, its pore is made to increase, absorb more carbon dioxide, make photosynthesis more active, the organic substance of synthesis is continuously increased, thus promotes the growth of vegetable seedling, improves yield of vegetables.

Accompanying drawing explanation

In order to be illustrated more clearly that the specific embodiment of the invention or technical scheme of the prior art, the accompanying drawing used required in detailed description of the invention or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the vegetable growth system that Fig. 1 provides for the embodiment of the present invention one；

The structural representation of the vegetable growth system that Fig. 2 provides for the embodiment of the present invention two.

Reference:

101-device for raising seedlings；102-breeding apparatus；103-electromagnetic interference device；

104-seedling bed；105-vegetable growth chamber；106-nutrition supply case；

107-through hole；108-ultrasound atomizer；109-operates display control unit；

110-poly-liquid portion；111-liquid return tube；112-blower fan；

113-fog-spray nozzle；114-light compensating apparatus；115-temperature humidity adjusting means；

116-liquidometer.

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme is clearly and completely described, it is clear that described embodiment is a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

In describing the invention, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " be based on orientation shown in the drawings or position relationship; be for only for ease of the description present invention and simplifying and describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.Additionally, term " first ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

Below by specific embodiment and combine accompanying drawing the present invention is described in further detail.

Embodiment one

The structural representation of the vegetable growth system that Fig. 1 provides for the embodiment of the present invention one.Vegetable growth system shown in Figure 1, that the embodiment of the present invention one provides, including device for raising seedlings 101, breeding apparatus 102 and electromagnetic interference device 103, device for raising seedlings 101 is for cultivating into vegetable seedling by vegetable seeds；Breeding apparatus 102 for cultivating into vegetable strain by vegetable seedling；Electromagnetic interference device 103 is provided with electrostatic adsorption device and sonar generator, wherein electrostatic adsorption device and sonar generator are all existing products, electrostatic adsorption device is for carrying out disinsection prophylaxis to vegetable seedling, and sonar generator is for promoting the growth of described vegetable seedling.By arranging electromagnetic interference device 103, vegetable seedling is carried out disinsection prophylaxis, instead of traditional agricultural insecticide mode, it is ensured that the quality of vegetable and safety.Wherein, electrostatic adsorption device can not only carry out disinsection prophylaxis to vegetable seedling, and can reduce the antibacterial in air and PM2.5 concentration, such that it is able to improve air quality in family to a certain extent；Sonar generator utilizes ultrasonic activation to stimulate the principle that the pore on plant leaf blade surface increases, use the ultrasonic stimulation vegetable seedling of dither, its pore is made to increase, absorb more carbon dioxide, make photosynthesis more active, the organic substance of synthesis is continuously increased, thus promotes the growth of vegetable seedling, improves yield of vegetables.

Device for raising seedlings 101 includes that seedling bed 104, the upper surface of seedling bed 104 are provided with multiple planting groove, is used for cultivating vegetable seeds, is planted in planting groove regularly by vegetable seeds, is cultivated into vegetable seedling；By arranging device for raising seedlings 101, non-soil culture can be carried out, it is not necessary to additionally purchase finished product seedling, it is achieved that vegetable growth Life cycle automatization.Breeding apparatus 102 includes vegetable growth chamber 105 and nutrition supply case 106, and vegetable growth chamber 105 is used for cultivating vegetable seedling, and nutrition supply case 106 is for providing nutritional solution to vegetable seedling.Device for raising seedlings 101 is arranged on the top of vegetable growth chamber 105.

The sidewall of vegetable growth chamber 105 is provided with multiple through hole 107, plants to vegetable growth chamber 105 for being inserted by vegetable seedling.After the vegetable seeds in planting groove roots, grow into vegetable seedling, by the way of artificial graft, the root of vegetable seedling is inserted and plants on the through hole 107 of the sidewall of vegetable growth chamber 105.

Nutrition supply case 106 is installed on the lower section of vegetable growth chamber 105, and the bottom of vegetable growth chamber 105 is connected with the top of nutrition supply case 106, nutrition supply case 106 be internally provided with ultrasound atomizer 108, be used for making nutrient liquid atomizing, to produce fog.Wherein, ultrasound atomizer 108 is positioned at below the liquid level of nutritional solution.

The operation principle of ultrasound atomizer 108 is to utilize electronics high frequency oscillation (frequency of oscillation is 1.7MHz or 2.4MHz, exceed the range of audibility of people, this electronics higher-order of oscillation is to human body and animal fanout free region), high-frequency resonant by pottery atomizing piece, liquid water molecules structure is broken up, thus produces water smoke.Utilize ultrasound atomizer 108 to make nutrient liquid atomizing, be possible not only to orient quantification of vegetable seedling and nutritional solution is provided, and the content of oxygen can be increased, make the root Repiration of vegetable seedling strengthen, thus promote the growth of vegetable seedling.

Additionally, in the atomization process of nutritional solution, substantial amounts of anion also will be discharged, it is possible to harmful substances such as the antibacterials in removal air, air is made to be purified.

In order to realize the Automatic Control of growing vegetables, vegetable growth system also includes operating display control unit 109, and electrostatic adsorption device and sonar generator electrically connect with operation display control unit 109 respectively.

Electrostatic adsorption device can not only carry out disinsection prophylaxis to vegetable seedling, and can reduce the antibacterial in air and PM2.5 concentration, such that it is able to improve air quality in family to a certain extent；Sonar generator is to utilize ultrasonic activation to stimulate the principle that the pore on plant leaf blade surface increases, use the ultrasonic stimulation vegetable seedling of dither, its pore is made to increase, absorb more carbon dioxide, make photosynthesis more active, the organic substance of synthesis is continuously increased, thus promotes the growth of vegetable seedling, improves yield of vegetables.

Vegetable at different growth phases to intensity of illumination, light application time and light quality (blue light, green glow, gold-tinted, HONGGUANG, white light) demand be different, therefore, device for raising seedlings 101 and breeding apparatus 102 are provided with light compensating apparatus 114, light compensating apparatus 114 includes LED plant growth lamp and optical sensor, optical sensor is for detecting the intensity of illumination in surrounding, light compensating apparatus 114 electrically connects with operation display control unit 109, for obtaining Lighting information and comparing with default value, by operation display control unit 109 regulating illumination intensity, light application time and light quality.

Temperature is to affect germination, growth of seedling speed and the root system key factor to Nutrient Absorption, moisture is indispensable material in vegetable vital movement, it is not only the carrier of mineral nutrient and Photosynthate trasport, it is also possible to regulated the humidity of vegetable by leaf transpiration effect.The requirement of moisture can be divided into root system to the requirement of moisture and the plant requirement to air humidity by vegetable.Generally, seed is higher to the demand of moisture in the period of taking root of germinateing, vegetable is at different growth phases, the water absorbing capacity of its root system and the water consumption of plant are had nothing in common with each other, therefore, device for raising seedlings 101 and breeding apparatus 102 are provided with temperature humidity adjusting means 115, and temperature humidity adjusting means 115 electrically connects with operation display control unit 109, for controlling and regulate temperature, moisture and air humidity, to adapt to vegetable in the different growth phases demand to temperature, moisture and air humidity.

Different vegetable is different to the demand of nutrition, and the different growing stage of same vegetable is the most different to the demand of nutrition, nutrition supply case be internally provided with liquidometer 116, liquidometer 116 electrically connects with operating display control unit 109.The liquid level information of the nutritional solution in the nutrition supply case 106 collected by liquidometer 116 compares with default value, by operation display control unit 109, ultrasound atomizer 108 is controlled again, the frequency of vibration of regulation ultrasound atomizer 108 and time of vibration, for the nutritional solution needed for the vegetable offer of different growth phases.

The vegetable growth system structure of the present invention is simple, compact, carries out disinsection prophylaxis by arranging electromagnetic interference device 103 to vegetable seedling, instead of traditional agricultural insecticide mode, ensure that quality and the safety of vegetable, and be capable of the Automatic Control of family's growing vegetables.

Embodiment two

The structural representation of the vegetable growth system that Fig. 2 provides for the embodiment of the present invention two.Shown in Figure 2, this embodiment also provides a kind of vegetable growth system, and the vegetable growth system description of this embodiment provides the another kind of implementation of nutritional solution, and the technical scheme of embodiment one in addition falls within this embodiment, be not repeated at this to describe.Identical parts use the reference identical with embodiment one, at this with reference to the description to embodiment one.

Distinguishing with embodiment one, the bottom of vegetable growth chamber 105 is provided with poly-liquid portion 110, and poly-liquid portion 110 is gradually reduced from top to bottom；Vegetable growth chamber 105 is connected by liquid return tube 111 with nutrition supply case 106, and wherein, one end of liquid return tube 111 is connected with the bottom in poly-liquid portion 110, and the other end of liquid return tube 111 is positioned at the inside of nutrition supply case 106.

Nutrition supply case 106 is provided with blower fan 112, and the suction side of blower fan 112 is positioned at the inside of nutrition supply case 106.Ultrasound atomizer 108 is by nutrient liquid atomizing, and after producing fog, fog is sucked by the suction side of blower fan 112；The outfan of blower fan 112 connects has fog-spray nozzle 113, fog-spray nozzle 113 to be positioned at the inside of vegetable growth chamber 105, fog-spray nozzle 113 spray nutritional solution to vegetable seedling.

In this embodiment, use Automatic Cycle feed liquid way, nutritional solution circulation-supplied system is formed by nutrition supply case 106, blower fan 112, the suction side of blower fan 112 and outfan, fog-spray nozzle 113 and liquid return tube 111, ultrasound atomizer 108 is by nutrient liquid atomizing, after producing fog, fog is sucked by the suction side of blower fan 112；The outfan of blower fan 112 connects has fog-spray nozzle 113, fog-spray nozzle 113 to be positioned at the inside of vegetable growth chamber 105, fog-spray nozzle 113 spray nutritional solution to vegetable seedling, and nutritional solution is assembled in poly-liquid portion 110, is back to the inside of nutrition supply case 106 from liquid return tube 111.

There is bigger spacing between the bottom of vegetable growth chamber 105 and nutrition supply case 106, the sidewall of vegetable growth chamber 105 can be offered more through hole 107 such that it is able to plant more vegetable seedling.Fog-spray nozzle 113 is preferably provided at the center of vegetable growth chamber 105, set gradually from top to bottom, the quantity of fog-spray nozzle 113 and the quantity of through hole 107 match, in general, every 5～6 through holes 107 configure 2 fog-spray nozzles 113, spray in order to realize the large area of nutritional solution, the beneficially growth of vegetable seedling, improve yield of vegetables.

The operation principle of the vegetable growth system of the present invention is: planted by vegetable seeds in the planting groove of seedling bed 104, first pass through operation display control unit 109 and set the temperature needed for vegetable seeds, humidity and illumination condition, by temperature humidity adjusting means 115 with temperature, humidity and the Lighting information in the device for raising seedlings 101 that optical sensor is collected compared with default value, controlling temperature humidity adjusting means 115 and light compensating apparatus 114 by operation display control unit 109 again, rooting for vegetable seeds provides good growing environment.After germination of vegetable seeds is taken root, grow into vegetable seedling, by artificial graft's mode, the root of vegetable seedling is inserted and plants on the through hole 107 of the sidewall of vegetable growth chamber 105.The temperature needed for vegetable seedling, humidity, illumination condition and nutritional solution liquid level information is set by operation display control unit 109, the liquid level information of the nutritional solution in the nutrition supply case 106 collect temperature humidity adjusting means 115 with temperature, humidity and the Lighting information in the vegetable growth chamber 105 that optical sensor is collected and liquidometer 116 is compared with default value, temperature humidity adjusting means 115, light compensating apparatus 114 and ultrasound atomizer 108 is controlled again, for the growing environment providing good of growing up of vegetable seedling by operation display control unit 109.

Growing vegetables whole during, control electromagnetic interference device 103 by operation display control unit 109 and vegetable seedling is carried out disinsection prophylaxis, wherein, electrostatic adsorption device is for carrying out disinsection prophylaxis to vegetable seedling, and sonar generator is for promoting the growth of described vegetable seedling.

The vegetable growth system of the present invention, preferably include multiple breeding apparatus, various vegetables is cultivated, including root vegetables (such as Radix Dauci Sativae), stem dish class (such as Rhizoma Solani tuber osi), leaf vegetables (such as Herba Spinaciae), flower vegetables (such as Brassica oleracea L. var. botrytis L.) and fruit vegetables (such as Fructus Lycopersici esculenti) etc. for simultaneously.As a example by planting Radix Dauci Sativae, Rhizoma Solani tuber osi and Fructus Lycopersici esculenti, the planting process of various vegetables is described simultaneously.The vegetable growth system that this planting process is used includes three breeding apparatus 102, three breeding apparatus are all the breeding apparatus that the present invention provides, the breeding apparatus 102 that embodiment one or embodiment two provide can be used, for the ease of difference, three breeding apparatus are respectively designated as the first breeding apparatus, the second breeding apparatus and the 3rd breeding apparatus.Carrot Seed is planted in the planting groove of seedling bed 104, after Carrot Seed roots, grow into Radix Dauci Sativae seedling, by artificial graft's mode, on the through hole 107 of the sidewall that the Radix Dauci Sativae seedling in seedling bed 104 inserts the vegetable growth chamber 105 planted in the first breeding apparatus, the nutritional solution special with Radix Dauci Sativae is cultivated；Potato seed is planted in the planting groove of seedling bed 104 again, after potato seed roots, grow into potato seedling, by artificial graft's mode, on the through hole 107 of the sidewall that the potato seedling in seedling bed 104 is inserted the vegetable growth chamber 105 planted in the second breeding apparatus, the nutritional solution special with Rhizoma Solani tuber osi is cultivated；Finally tomato seeds is planted in the planting groove of seedling bed 104, after tomato seeds roots, grow into tomato seedling, by artificial graft's mode, on the through hole 107 of the sidewall that the tomato seedling in seedling bed 104 is inserted the vegetable growth chamber 105 planted in the 3rd breeding apparatus, the nutritional solution special with Fructus Lycopersici esculenti is cultivated.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit；Although the present invention being described in detail with reference to foregoing embodiments, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or the most some or all of technical characteristic is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a vegetable growth system, it is characterised in that: including device for raising seedlings, breeding apparatus and electromagnetic interference device, described device for raising seedlings is for cultivating into vegetable seedling by vegetable seeds；Described breeding apparatus is for cultivating into vegetable strain by described vegetable seedling；Described electromagnetic interference device is provided with electrostatic adsorption device and sonar generator, and described electrostatic adsorption device for carrying out disinsection prophylaxis to described vegetable seedling, and described sonar generator is for promoting the growth of described vegetable seedling.

Vegetable growth system the most according to claim 1, it is characterised in that: described device for raising seedlings includes that seedling bed, the upper surface of described seedling bed are provided with multiple planting groove, is used for cultivating described vegetable seeds；Described breeding apparatus includes vegetable growth chamber and nutrition supply case, and described vegetable growth chamber is used for cultivating described vegetable seedling, and described nutrition supply case is for providing nutritional solution to described vegetable seedling.

Vegetable growth system the most according to claim 2, it is characterised in that: the sidewall of described vegetable growth chamber is provided with multiple through hole, plants to described vegetable growth chamber for being inserted by described vegetable seedling.

4. according to the vegetable growth system described in Claims 2 or 3, it is characterized in that: described nutrition supply case is installed on the lower section of described vegetable growth chamber, and the described bottom of vegetable growth chamber is connected with the top of described nutrition supply case, described nutrition supply case be internally provided with ultrasound atomizer, for making nutrient liquid atomizing, to produce fog.

Vegetable growth system the most according to claim 4, it is characterised in that: the bottom of described vegetable growth chamber is provided with poly-liquid portion, and described poly-liquid portion is gradually reduced from top to bottom；Described vegetable growth chamber is connected by liquid return tube with described nutrition supply case, and wherein, one end of described liquid return tube is connected with the bottom in described poly-liquid portion, and the other end of described liquid return tube is positioned at the inside of described nutrition supply case.

Vegetable growth system the most according to claim 5, it is characterised in that: described nutrition supply case is provided with blower fan, and the suction side of described blower fan is positioned at the inside of described nutrition supply case, for sucking the fog that described ultrasound atomizer produces；The outfan of described blower fan connects has fog-spray nozzle, described fog-spray nozzle to be positioned at the inside of described vegetable growth chamber.

Vegetable growth system the most according to claim 2, it is characterised in that: also including operating display control unit, described electrostatic adsorption device and described sonar generator electrically connect with described operation display control unit respectively.

Vegetable growth system the most according to claim 7, it is characterized in that: described device for raising seedlings and described breeding apparatus are provided with light compensating apparatus, described light compensating apparatus includes LED plant growth lamp and optical sensor, described optical sensor is for detecting the intensity of illumination in surrounding, and described light compensating apparatus electrically connects with described operation display control unit.

Vegetable growth system the most according to claim 7, it is characterised in that: described device for raising seedlings and described breeding apparatus are provided with temperature humidity adjusting means, and described temperature humidity adjusting means electrically connects with described operation display control unit.

Vegetable growth system the most according to claim 7, it is characterised in that: described nutrition supply case be internally provided with liquidometer, described liquidometer electrically connects with described operation display control unit.