CN101743897A

CN101743897A - Solar facility of high industrial production line of forage grass, vegetable, flower and medical material

Info

Publication number: CN101743897A
Application number: CN200810179543A
Authority: CN
Inventors: 陈绍勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-12-01
Filing date: 2008-12-01
Publication date: 2010-06-23

Abstract

The invention relates to a solar facility of a high industrial production line of forage grasses, vegetables, flowers and medical materials, which consists of an insulating production room, a chain ring cycle framework, a nutrient solution culturing plate, carbon dioxide gas, a thermocouple generator, a solar lens thermoelectric generator, a solar cooker thermoelectric generator, a solar lens thermoelectric generator, a heating bag and an LED power generation lamp. The facility can provide renewable energy sources and translucent insulation effect for the high industrial production line. The all-weather heating, insulation and light supplementation can be realized in the facility. The adoption of nutrient solution for culture increases the growth speed and prevents diseases and pests, and the forage grasses, vegetables, flowers and medical materials can be harvested all year round. Another significant feature of the facility is special development. The facility can save a large quantity of farmland, water resources and fertilizers, and can be used for all-weather production in any place (deserts, mountain areas, areas without power supply and areas in front of and behind houses). Moreover, the facility is a significant subject studied around the world at present. The invention can develop new living space for human beings, and has incalculable environmental, economic and social benefits.

Description

The facility of high industrial production line of forage grass, vegetable, flower and medical material of solar energy

Technical field

Farming and animal husbandry mechanical field (herbage-vegetable greenhouse)

Background technology:

Vegetable greenhouse booth extensive use at present; obtained tangible economic benefit; but still exist that floor space is big, illumination is not enough, tinuous production, the energy consumption that can not form batch production be higher; especially produce at the bright grass of livestock breeding; so far do not form the production line of scale; not having bright grass once the domestic animal in winter to severe cold can eat; what is more important; the herbage floor space is big, yield poorly and be subjected to climatic influences bigger; can not guarantee harvest, seriously influence greatly developing of livestock breeding.

Summary of the invention:

According to above-mentioned situation, the inventor has developed " facility of high industrial production line of forage grass, vegetable, flower and medical material of solar energy " patented technology product.At first with the inventor's 7 the relevant energy of having declared to accept and the patented technology of heating, facility as the renewable energy resources and the transparent heat insulating of high-rise industrial production line facility, in facility, carry out round-the-clock heating, insulation and additional illumination, and adopt nutrient solution to cultivate, growth rate is accelerated, disease-free, no insect pest, results are arranged throughout the year everyday, another maximum characteristics are to spatial development, can save a large amount of arable lands and water resource and chemical fertilizer, can (comprise the desert in any place, the mountain region, the area of not having electricity, before the room behind the house) carry out round-the-clock production, it is the important topic that the present whole world is all being studied, appearance of the present invention will be opened up new living space to the mankind, has immeasurable environmental protection and economy and society benefit.

The technical solution adopted for the present invention to solve the technical problems;

Innovative point of the present invention is:

Technology path one: the present invention has adopted the device in 7 patent new technologies of thermo-electric generation that the inventor declared, and principle and structure of each device no longer is described in detail in detail in the present invention, and a concrete application of only introducing in the present invention connects.

Application number: " 200810212395.6 " " honeycomb metal solar heat collector double-superconducting heat pipe household warming device ";

Application number: " 200810148959.4 " " honeycomb metal solar thermal-arrest superconducting pipe is crossed hydro-thermal hot-water supply system device ";

Application number: " 200810149860.6 " " multifunctional household air conditioning device of a kind of heat pipe and semiconductors for refrigeration and power generation ";

Application number: " 200810169663.0 " " solar shower water heater thermo-electric generation and heat pipe go out the hydro-thermal system and device ";

Application number: " 200810168457.8 " " temperature difference electricity generation device that connecting ultra heat pipe connected and semiconductor refrigeration piece is formed ";

Application number: " 200810170651.X " " outdoor infrared automatic control LED lamp device of a kind of wind power/thermotube-thermocouple power generation "

Application number: " 200810176040.6 " " thermotube-thermocouple TRT of solar cooker/cooker/lens/honeycomb heat source ".

Technology path two: following two patented technologies that the present invention has adopted the inventor to declare have solved the warming installation in the greenhouse;

Technology path three: following five patented technologies that the present invention has adopted the inventor to declare have solved the power supply facilities in the greenhouse;

Application number: " 200810176040.6 " " thermotube-thermocouple TRT of solar cooker/cooker/lens/honeycomb heat source "

Beneficial effect of the present invention:

The present invention is the facility of the renewable energy resources and the transparent heat insulating of high-rise industrial production line facility, can in facility, carry out round-the-clock heating, insulation and additional illumination, and adopt nutrient solution to cultivate, growth rate is accelerated, disease-free, no insect pest, results are arranged throughout the year everyday, another maximum characteristics are to spatial development, can save a large amount of arable lands and water resource and chemical fertilizer, can (comprise the desert in any place, the mountain region, the area of not having electricity, before the room behind the house) carry out round-the-clock production, it is the important topic that the present whole world is all being studied, appearance of the present invention will be opened up new living space to the mankind, has immeasurable environmental protection and economy and society benefit.

Description of drawings

Fig. 1: of the present invention three-dimensional high-rise produce outdoor shape diagram (the present invention hereinafter to be referred as: the production machine);

Fig. 1-1: the section diagram when the electric opening and closing window is closed;

Fig. 1-2: the section diagram when the electric opening and closing window is opened;

Fig. 1-3: the cross-section illustration when the electric opening and closing window is opened;

Fig. 1-4: produce outdoor shape diagram.

Fig. 2: dish for cultivating chain circle circulating production line diagram;

Fig. 2-1: the dish for cultivating chain circle circulating production line diagram during no crop;

Fig. 2-2: the dish for cultivating chain circle circulating production line diagram during plant growth.

Fig. 3: nutrient fluid cultivation dish frame structure diagram;

Fig. 3-1: nutrient fluid cultivation dish framework cross-section structure diagram;

Fig. 3-2: nutrient fluid cultivation dish frame plane structural diagrams;

Fig. 3-3: nutrient fluid cultivation dish framework stereochemical structure diagram.

Fig. 4: produce machine dish for cultivating chain circle circulating production line stereochemical structure diagram;

Fig. 5: produce the complementary LED light of machine dish for cultivating chain circle circulating production line crop photograph/TRT diagram;

Fig. 6: produce machine dish for cultivating chain circle circulating production line crop alimentary liquid supplying device diagram;

Fig. 7: produce machine dish for cultivating chain circle circulating production line crop heating plant diagram;

Fig. 8: produce the complementary self-power generation and power supply device diagram of machine dish for cultivating chain circle circulating production line crop;

Fig. 9: the outer complementary self power generation system and device diagram of production machine of the present invention;

Figure 10: complementary self-generating power supply system device diagram in the production machine of the present invention;

Figure 11: production machine three-dimensional representation of the present invention;

Figure 11-1: monomer of the present invention is produced the machine three-dimensional representation;

Figure 11-2: production machine of the present invention three-dimensional representation in actual applications.

Among the figure: (A) insulation production chamber, (A1) sunlight antetheca, (A2) sunlight oblique top, (A3) be incubated right wall, (A4) door, (A5) rear wall backlight, (A5-1) go up the insulation vent window, (A5-2) ventilating fan, (A5-3) be incubated vent window down, (A6) insulated roof, (A7) insulation base plate, (A7-1) footing, (A8) printing opacity window frame, (A9) electric opening and closing window, (A9-1) axis, (A9-2) semicircle tooth, (A9-3) window dc brushless motor, (A10) dish for cultivating harvesting window, (A11-0) edible fungus culturing bed, (A10-1) dish for cultivating platform, (A11) edible mushroom results window; (B) upward chain circle gear, (C) dish for cultivating framework, (C1) rotating shaft, (C2) connection spindle nose, (C3) clamping ring, (C4) linking arm, (C5) backing board, (C6) nutrient fluid cultivation dish, (C7) crops (comprise for chain circle, (B0) chain circle hole, (B1) last chain circle gear, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6); Herbage, vegetables, flowers, Chinese medicinal herbs); (CX-1)～(CX-14) dish for cultivating framework, (CX-9B) shift out dish for cultivating, (D) chain circle circulation framework, (D1) framework horizontal top plate pipe, (D2) framework left side vertical panel pipe, (D3) the right vertical panel pipe of framework, (D4) framework horizonal base plate pipe, (D5) the upper left plate pipe of framework level, (D6) the horizontal lower plate pipe of framework, (D7) the right horizontal upper plate pipe of framework, (D8) the right horizontal lower plate pipe of framework, (D9) go up the Luo bolt, (D10) Luo bolt under, (DCX) (DCX1) (DCX2) charging-discharging controller, (DCB) accumulator, (DCA) accumulator; (E) hand crank, (E1) horizontal teeth wheel shaft, (E2) chain pitch wheel, (E3) driving chain, (E4) motor gear, (E5) motor; (F) LED generating light, (F0) generating light power supply output plug, (F1)～(F9) LED generating light, (TE) thermocouple, (LED) LED light lamp, (DC0) power supply output line; (G) (GA) nutrient solution feedway, (G1) spray clear pipe, (G8) feed flow mouth of pipe, (G9) woven hose, (G10) liquid reserve tank, (G11) solution feed pump, (G12) liquid feeding mouth, (G13) temperature controller, (G14) electric heating appliance, (G140) electric heater connecting line, (G15) nutrient solution circulating and recovering device for nutrient solution case, (G2) fluid level controller, (G3) switch, (G4) carriage, (G5) nutrient solution, (G6) magnetic valve, (G7); (GA) for nutrient solution case, (G30) fluid level controller attaching plug, (G60) power of electromagnetic valve plug, (G110) solution feed pump attaching plug, (G111) solution feed pump power line, (G130) temperature controller attaching plug, (G140) electric heating appliance attaching plug; (H) humidifier device, (H0) edible fungi growth bag, (H1) humidifier, (H2) humidity sensor, (H3) fan, (H4) supply the carbonic acid gas blower fan for carbonic acid gas blower fan, (H10) humidifier device attaching plug, (H30) fan power supply plug, (H40); (K1) the light-operated instrument of light and stay-warm case, (K1-1) optical sensor, (RF) superconducting fluid insulation heat source case, (RF1) (RF2) heat pipe, (RF0) superconducting fluid, (RF2-1) condensation segment, (RF2-2) adiabatic section, (RF2-3) evaporator section, (RF3) fluid level controller, (RF4) liquid level power switch, (RF5) liquid back pipe, (RF6) loop back liquid pump, (RF7) heating installation bag, (RF8) superconducting fluid, (RF9) electric heating appliance, (RF10) for the elevated temperature heat source capsule, (RF11) supplying heat source liquid pipe, (RF12) temperature controller, (RF13) honeycomb metal heat collector, (RF14) footstock plate; (L) electric thermal insulating cover, (L1) both sides drag rope, (L2) stay-warm case, (L3) preceding top block, (L4) back top block, (L5) postbrachium top sheave, (L6) postbrachium middle pulley, (L7) postbrachium lower sheave, (L8) base rear wheel, (L9) base front wheel, (L10) preceding lower sheave, (L11) preceding middle pulley, (L12) front haulage rope bars, (L13) drag rope drive, (L14) stay-warm case direct current generator, (L15) rear haulage rope bars, (L120) stay-warm case dc motor power plug; (RF2-1) condensation segment, (RF2-2) adiabatic section, (RF2-3) evaporator section, (RF8) superconducting fluid, (RF9) electric heating appliance, (RF90) electric heating appliance attaching plug, (RF14) footstock plate, (RF40) power supply switch plug, (RF60) loop back liquid pump attaching plug, (RF90) electric heating appliance attaching plug, (RF120) temperature controller attaching plug, (RX1) heat-insulation layer, (RX2) heat-insulation layer; (J3) heat pipe/thermocouple generating, (J4) be air-cooled pipe-thermocouple generating set, (J30) heat generating tube out-put supply plug, (J40) air-cooled generating out-put supply plug (J4); (K1) the light-operated instrument of light and stay-warm case, (K1-1) light/temperature sensor, (K2) electric opening and closing window controller, (K2-1) light/temperature sensor; (S1) storage battery power supply socket, (S2) accumulator independent power source line tie point, (S3) electric heater power line tie point, (S4) solution feed pump power line socket, (S5) ventilating fan power line socket, (S6) liquid level power switch line socket, (S7) accumulator independent power source line tie point, (S8) window dc brushless motor power connection points, (S9) electric opening and closing window controller power connection points, (S10) electric opening and closing window controller power line, (S11) light/temperature sensor connecting line, (S12) the light-operated instrument power line of light and stay-warm case, (S13) light/temperature sensor connecting line, (S14) window dc brushless motor power switch connecting line, (S15) stay-warm case dc motor power switching line, (S16) LED lamp power line, (S17) humidifier power line, (S18) for carbonic acid gas fan power line, (S19) fan power supply line, (S20) stay-warm case dc motor power line tie point, (S21) stay-warm case dc motor power line, (S22) stay-warm case dc motor power switching line tie point, (S23) stay-warm case dc motor power line, (S11A) input plug, (S11B) gang socket, (S17) power input plug, (S16A) input plug, (S16B) gang socket, (S14) power input plug; (M) wind power generation plant, (M1) air blade, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connect base, (M0) attaching plug; (P1) generating out-put supply line, (P2) solar cooker supply lines, (P3) photoelectric tracer power line, (P4) loop back liquid pump power line, (P5) solar cooker generating out-put supply, (P6) air-cooled generating out-put supply line; (N1) storage battery power supply socket, (N2) wind-power electricity generation out-put supply socket, (N3) air-cooled generating out-put supply socket, (N4) wind-power electricity generation out-put supply socket, (N5) heat generating tube out-put supply socket; (K1) the light-operated instrument of light and stay-warm case, (K1-1) light/temperature sensor, (K2) electric opening and closing window controller, (K1-2) light/temperature sensor; (W1) accumulator general supply line, (W2) temperature controller power line, (W3) electric heater power line, (W4) liquid level power switch line, (W6) solution feed pump power line, (W7) accumulator independent power source line, (W8) accumulator independent power source line, (W9) stay-warm case dc motor power line; (T1) No. 2 controllers, (T2) motor timing controller, (T3) hydrojet timing controller; (X1) solar energy lens temperature difference electricity generation device, (X10) power supply output plug, the gang socket of (N6) power supply, (X2) solar cooker temperature difference electricity generation device, (X2-0) photoelectric sensor, (X2-1) power supply plug, (X2-2) solar cooker electric rotating machine, (X2-3) photoelectric tracer, (X20) power supply output plug, the attachment plug of (X2-1) battery feed.

Embodiment

Embodiment:

In Fig. 1: (A) insulation production chamber, (A1) sunlight antetheca, (A2) sunlight oblique top, (A3) be incubated right wall, (A4) door, (A5) rear wall backlight, (A5-1) go up the insulation vent window, (A5-2) ventilating fan, (A5-3) be incubated vent window down, (A6) insulated roof, (A7) insulation base plate, (A7-1) footing, (A8) printing opacity window frame, (A9) electric opening and closing window, (A9-1) axis, (A9-2) semicircle tooth, (A9-3) window dc brushless motor, (A10) dish for cultivating harvesting window, (A10-1) dish for cultivating platform, (A11) edible mushroom results window.

In the drawings: (A2) sunlight oblique top that is connecting in turn by (A1) sunlight antetheca, (A3) (A4) door of being connected with interior of insulation You Bi and (A5) rear wall backlight and interior (A5-1) insulation vent window that is connected and (A5-2) ventilating fan with (A5-3) be incubated vent window down and reach (A7-1) footing that (A7) is incubated base plate and bottom, and after (A2) sunlight oblique top, connecting (A6) insulated roof, in (A1) sunlight antetheca, connect (A8) printing opacity window frame and (A9) electric opening and closing window, on (A9) electric opening and closing window limit, connecting (A9-1) axis, (A9-2) semicircle tooth, (A9-3) window dc brushless motor; Connect (A10) dish for cultivating harvesting window and (A10-1) dish for cultivating platform in the lower end of (A1) sunlight antetheca, connecting (A11) edible mushroom results window in the lower end of (A10-1) dish for cultivating platform, forming (A) insulation production chamber.

In Fig. 2: (B) chain circle, (B0) chain circle hole, (B1) last chain circle gear, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6) last chain circle gear, (C) dish for cultivating framework, (C7) crops (comprise; Herbage, vegetables, flowers, Chinese medicinal herbs).

In the drawings: (B) the chain circle is connected outside (B1) last chain circle gear, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6) last chain circle gear in turn, leaves (B0) chain circle hole that connects usefulness and formed (B) chain circle in (B) chain circle; (C7) crops that connecting in (C) dish for cultivating framework in (B0) chain circle hole of (B) chain circle (comprise; Herbage, vegetables, flowers, Chinese medicinal herbs).

In Fig. 3: (C) dish for cultivating framework, (C1) rotating shaft, (C2) connect spindle nose, (C3) clamping ring, (C4) linking arm, (C5) backing board, (C6) nutrient fluid cultivation dish, (C7) crops.

In the drawings: (C) the dish for cultivating framework connects spindle nose by (C2) of (C1) rotating shaft and inserts and connect (C5) backing board that (C3) clamping ring is connected with (C4) linking arm and form with (C6) interior (C7) crops of nutrient fluid cultivation dish.

In Fig. 4: (D) chain circle circulation framework, (D1) framework horizontal top plate pipe, (D2) framework left side vertical panel pipe, (D3) the right vertical panel pipe of framework, (D4) framework horizonal base plate pipe, (D5) the upper left plate pipe of framework level, (D6) the horizontal lower plate pipe of framework, (D7) the right horizontal upper plate pipe of framework, (D8) the right horizontal lower plate pipe of framework, (D9) go up the Luo bolt, (D10) Luo bolt under, (E) hand crank, (E1) horizontal teeth wheel shaft, (E2) chain pitch wheel, (E3) driving chain, (E4) motor gear, (E5) motor; (B) chain circle, (B0) chain circle hole, (B1) are gone up chain circle gear, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6) and are gone up (B2-1) (B2-2) connecting hole, (C) dish for cultivating framework of gear shaft, (B1-2) of chain circle gear, (B1-1).

In the drawings: (D) the right vertical panel pipe of the upper left plate pipe of (D5) framework level, the horizontal lower plate pipe of (D6) framework and (D3) framework that connects by (D1) framework horizontal top plate pipe that is connecting in turn, (D2) framework left side vertical panel pipe of chain circle circulation framework is connected and (D7) the right horizontal upper plate pipe of framework and (D8) the right horizontal lower plate of framework effective (D9) go up the Luo bolt and (D10) under the Luo bolt be fastenedly connected and (D4) framework horizonal base plate pipe; Interior lower end at (D2) framework left side vertical panel pipe and the right vertical panel pipe of (D3) framework is being connected (E1) horizontal teeth wheel shaft, (E2) chain pitch wheel, (E3) driving chain, (E4) motor gear, (E5) motor in turn, is connecting (E) hand crank in the right vertical panel pipe of (D3) framework outer end of (E1) horizontal teeth wheel shaft and is connecting to form; (B) the chain circle is connected in (D) chain circle circulation framework;

(B) the chain circle be connected in turn (B1) go up chain circle gear and interior (B1-1) that be connected (B2-1) gear shaft, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6) go up outside chain circle gear, in (B) chain circle, leave (B0) chain circle hole of connection usefulness and formed (B) chain circle; (C7) crops that connecting in (C) dish for cultivating framework in (B0) chain circle hole of (B) chain circle (comprise; Herbage, vegetables, flowers, Chinese medicinal herbs).

In Fig. 5: (CX-1)～(CX-14) dish for cultivating framework, (CX-9B) shift out dish for cultivating, (A) insulation production chamber, (A10) dish for cultivating harvesting window, (A10-1) dish for cultivating platform, (A11) edible mushroom results window, (A11-0) edible fungus culturing bed, (A5-2) ventilating fan, (B) chain circle, (D) chain circle circulation framework, (F) LED generating light, (F1)～(F9) LED generating light, (TE) thermocouple, (LED) LED light lamp, (DC0) power supply output line, (DCX) charging-discharging controller, (DC) accumulator.

In the drawings: (A) insulation production chamber in Fig. 1 is installed with (D) chain circle circulation framework among Fig. 4; On (D) chain circle circulation framework, place (CX-1)～(CX-14) dish for cultivating framework and can (CX-9B) shift out dish for cultivating; (F) LED generating light is installed in the middle of (D) chain circle circulation framework; (F1)～(F9) the LED generating light by the fin of (LED) LED light lamp connect (TE) thermocouple and (DC0) power supply output line be connected again (DCX) charging-discharging controller and (DC) accumulator formed production machine dish for cultivating chain circle circulating production line crop complementation LED light photograph/TRT.

In Fig. 6:

(A) insulation production chamber, (A5) rear wall backlight, (A11) edible mushroom results window, (A11-0) edible fungi growth bed, (G) nutrient solution feedway, (G1) for the nutrient solution case, (G2) fluid level controller, (G3) switch, (G4) carriage, (G5) nutrient solution, (G6) magnetic valve, (G7) spray clear pipe, (G8) the feed flow mouth of pipe, (G9) woven hose, (G10) liquid reserve tank, (G11) solution feed pump, (G12) liquid feeding mouth, (G13) temperature controller, (G14) electric heating appliance, (G15) nutrient solution circulating and recovering device, (H) humidifier device, (H0) edible fungi growth bag, (H1) humidifier, (H2) humidity sensor, (H3) fan, (H4) for the carbonic acid gas blower fan.

In the drawings:(A) insulation production chamber in Fig. 1 is installed with (D) chain circle circulation framework among Fig. 4; In this (D) chain circle circulation framework periphery (G) nutrient solution feedway is installed; (G) the nutrient solution feedway comprise (G1) that be connected and installed by (G4) carriage upper end for the nutrient solution case be connected with the upper end (G7) clear pipe of spray that (G6) magnetic valve that (G3) switch that (G2) fluid level controller connects is being connected with left end connecting and (G8) the feed flow mouth of pipe be connected (G5) nutrient solution in (G10) liquid reserve tank that (G9) woven hose connects with the lower end with (G11) solution feed pump and is connected G10) (G13) temperature controller of being connected outside the liquid reserve tank, (G14) electric heating appliance reach (G12) with (G15) nutrient solution circulation reusing device that liquid feeding mouth forms; (H) (H2) humidity sensor of connecting by (H1) humidifier of humidifier device and (H3) fan form; (H0) two vaporized carbon gases of edible fungi growth bag generation (comprise for interior (C7) crops of (C) dish for cultivating framework that the carbonic acid gas blower fan is transported to the upper end through (H4); Herbage, vegetables, flowers, Chinese medicinal herbs) in.

In Fig. 7: (A) insulation production chamber, (A6) insulated roof, (K1) the light-operated instrument of light and stay-warm case, (K1-1) optical sensor, (RF) superconducting fluid insulation heat source case, (RF1) heat pipe, (RF2) superconducting fluid, (RF3) fluid level controller, (RF4) liquid level power switch, (RF5) liquid back pipe, (RF6) loop back liquid pump, (RF7) heating installation bag, (RF8) superconducting fluid, (RF9) electric heating appliance, (RF10) for the elevated temperature heat source capsule, (RF11) supplying heat source liquid pipe, (RF12) temperature controller, (RF13) honeycomb metal heat collector, (RF14) footstock plate, (J4) air-cooled pipe-thermocouple generating set, (L) electric thermal insulating cover, (L1) both sides drag rope, (L2) stay-warm case, (L3) preceding top block, (L4) back top block, (L5) postbrachium top sheave, (L6) postbrachium middle pulley, (L7) postbrachium lower sheave, (L8) base rear wheel, (L9) base front wheel, (L10) preceding lower sheave, (L11) preceding middle pulley, (L12) front haulage rope bars, (L13) drag rope drive, (L14) stay-warm case direct current generator, (L15) rear haulage rope bars.

In the drawings: (D) chain circle circulation framework that (A) insulation in Fig. 1 is produced among the indoor Fig. 4 of being installed with has been formed production machine dish for cultivating chain circle circulating production line crop heating plant with the two vaporized carbon air feed systems that (H) humidifier device and (H0) edible fungi growth bag produce with (RF7) heating installation bag that (RF) superconducting fluid insulation heat source case is being connected with (G) nutrient solution feedway among Fig. 6; Connect (RF14) footstock plate on (A) insulation top, production chamber, connecting (RF) superconducting fluid insulation heat source case in the upper end of (RF14) footstock plate; (RF) connecting (RF1) heat pipe in the superconducting fluid insulation heat source case, (RF) superconducting fluid insulation heat source case is being connected (RF13) honeycomb metal heat collector outward with (RF1) heat pipe, is connecting (RF3) fluid level controller on (RF) superconducting fluid insulation heat source case top with (RF4) liquid level power switch, filled with (RF2) superconducting fluid in (RF) superconducting fluid is incubated heat source case; Lower end at (RF) superconducting fluid insulation heat source case is connecting (RF5) liquid back pipe in turn, (RF6) loops back liquid pump, (RF7) heating installation bag, outside (RF7) heating installation bag, connecting (RF12) temperature controller and (RF9) electric heating appliance, in (RF7) heating installation bag, injected (RF8) superconducting fluid thermal source full; Bottom face at (RF) superconducting fluid insulation heat source case is connecting (J4) air-cooled pipe-thermocouple generating set; Connecting (RF11) supplying heat source liquid pipe and the upper end that (RF10) is connected to (RF) superconducting fluid insulation heat source case in turn for the elevated temperature heat source capsule in the lower end of (RF7) heating installation bag; Producing indoor connection the (K1) light in (A) insulation is connected with (K1-1) optical sensor on (RF) superconducting fluid of producing outdoor (A6) insulated roof upper end in (A) insulation is incubated heat source case with the light-operated instrument of stay-warm case; On the outdoor frame of (A) insulation production, connecting (L) electric thermal insulating cover; L) the electric thermal insulating cover is made up of (L1) both sides drag rope (L2) stay-warm case that connects and (L3) the preceding top block that is connected in turn, (L4) back top block, (L5) postbrachium top sheave, (L6) postbrachium middle pulley, (L7) postbrachium lower sheave, (L8) base rear wheel, (L9) base front wheel, (L10) preceding lower sheave, (L11) preceding middle pulley, (L12) front haulage rope bars, (L13) drag rope drive, (L14) stay-warm case direct current generator, (L15) rear haulage rope bars;

In Fig. 8:

(A) insulation production chamber, (A6) insulated roof, (A5) rear wall backlight, (A5-2) ventilating fan, (A50) ventilating fan attaching plug; (RF) superconducting fluid insulation heat source case, (RF2) heat pipe, (RF2-1) condensation segment, (RF2-2) adiabatic section, (RF2-3) evaporator section, (RX1) heat-insulation layer, (RX2) heat-insulation layer, (RF14) footstock plate, (RF40) power supply switch plug, (RF60) loop back liquid pump attaching plug, (RF90) electric heating appliance attaching plug, (RF120) temperature controller attaching plug; (J3) thermocouple, (J30) power supply output plug, (J4) air-cooled temperature difference electricity generation device, (J40) power supply output plug (K1) light and the light-operated instrument of stay-warm case, (K1-1) light/temperature sensor, (S11A) input plug, (S11B) gang socket, (S17) power input plug, (K2) electric opening and closing window controller, (K2-1) light/temperature sensor, (S16A) input plug, (S16B) gang socket, (S14) power input plug; (F) LED generating light, (F0) generating light power supply output plug; (GA) for nutrient solution case, (G30) fluid level controller attaching plug, (G60) power of electromagnetic valve plug, (G110) solution feed pump attaching plug, (G130) temperature controller attaching plug, (G140) electric heating appliance attaching plug; (H10) humidifier device attaching plug, (H30) fan power supply plug, (H40) are for the carbonic acid gas blower fan; (L120) stay-warm case dc motor power plug; (M) wind power generation plant, (M1) air blade, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connect base, (M0) attaching plug (DCX) charging-discharging controller, (DC) accumulator.

In the drawings: (D) chain circle circulation framework that (A) insulation in Fig. 1 is produced among the indoor Fig. 4 of being installed with has been formed production machine dish for cultivating chain circle circulating production line crop heating plant in Fig. 7 with the two vaporized carbon air feed systems that (H) humidifier device and (H0) edible fungi growth bag produce with (RF7) heating installation bag that (RF) superconducting fluid insulation heat source case is being connected with (G) nutrient solution feedway among Fig. 6, difference is connecting (J3) thermocouple in turn in (RF) superconducting fluid insulation heat source case back side one side, (RF2) (RF2-1) condensation segment of heat pipe connection, (RF2-2) adiabatic section and (RF2-3) evaporator section, wherein (RF2-3) evaporator section is embedded in (X2) subsurface; (J3) (J30) power supply output plug of thermocouple through connecting connects (DC) accumulator that (DCX) charging-discharging controller connects; Bottom end at (RF) superconducting fluid insulation heat source case is connecting (J4) air-cooled temperature difference electricity generation device connects the connection of (DCX) charging-discharging controller through (J40) power supply output plug (DC) accumulator; Connecting (M) wind power generation plant above the footstock plate at (RF14); (M) wind power generation plant is made up of (M1) air blade that connects in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connection base, (M0) attaching plug; (M0) attaching plug is formed (DC) accumulator that is connecting the connection of (DCX) charging-discharging controller and has been formed the complementary self-power generation and power supply device of production machine dish for cultivating chain circle circulating production line crop.

In Fig. 9: (X1) solar energy lens temperature difference electricity generation device, (X10) power supply output plug, the gang socket of (N6) power supply, (X2) solar cooker temperature difference electricity generation device, (X2-0) photoelectric sensor, (X2-1) power supply plug, (X2-2) solar cooker electric rotating machine, (X2-3) photoelectric tracer, (X20) power supply output plug; (P1) generating out-put supply line, (P2) solar cooker supply lines, (P3) photoelectric tracer power line, (P4) loop back liquid pump power line, (P5) solar cooker generating out-put supply, (P6) air-cooled generating out-put supply line; (RF) superconducting fluid insulation heat source case, (RF1) heat pipe, (RF2) heat pipe, (RF2-0) superconducting fluid, (RF2-1) condensation segment, (RF2-2) adiabatic section, (RF2-3) evaporator section, (RF3) fluid level controller, (RF4) liquid level power switch, (RF6) loop back liquid pump, (RF7) heating installation bag, (RF13) honeycomb metal heat collector; (N1) storage battery power supply socket, (N2) wind-power electricity generation out-put supply socket, (N3) air-cooled generating out-put supply socket, (N4) wind-power electricity generation out-put supply socket, (N5) heat generating tube out-put supply socket; (J3) heat pipe/thermocouple generating, (J4) air-cooled thermocouple generating, (J5) pipe-thermocouple generating set, (J6) pipe-thermocouple generating set, (J30) heat generating tube out-put supply plug, (J40) air-cooled generating out-put supply plug; (M) wind power generation plant, (M1) air blade, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M0) attaching plug; (DCX1) charging-discharging controller, (DCA) accumulator.

In the drawings: (X1) (J5) pipe-thermocouple generating set in the solar energy lens temperature difference electricity generation device is connecting (X10) power supply output plug and connects the gang socket of (N6) power supply and connect (P1) generating out-put supply line again and connect (DCA) accumulator that (DCX1) charging-discharging controller connects and formed complementary (X1) solar energy lens temperature difference electricity generation device; (X2) (P3) photoelectric tracer power line of being connected with (X2-3) photoelectric tracer of (X2-0) photoelectric sensor, (X2-3) photoelectric tracer, (X2-2) solar cooker electric rotating machine that are connecting in turn of solar cooker temperature difference electricity generation device connects (X2-1) power supply plug through (P2) solar cooker supply lines and connects (N1) storage battery power supply socket again and formed (X2) solar cooker electric supply installation; (X2) connecting (J6) pipe-thermocouple generating set in the solar cooker temperature difference electricity generation device and connecting (DCA) accumulator that (DCX1) charging-discharging controller connects again, forming (X2) solar cooker temperature difference electricity generation device through (P5) solar cooker generating out-put supply connection (X20) power supply output plug connection (P1) generating out-put supply line; Connecting (RF4) liquid level power switch that (RF3) fluid level controller connecting in turn is connected in series in (RF6-2) socket that (P4) loop back on the liquid pump power line again and connects (P2) solar cooker supply lines through (RF40) power line again in the upper end of (RF) superconducting fluid insulation heat source case, (RF6) that connect (RF7) heating installation bag again loops back the circuit arrangement of liquid pump, formed the electric supply installation of (RF) superconducting fluid insulation heat source case.Connecting (RF40) attaching plug in the upper end of (RF6-2) socket, loop back the liquid pump power line through (P4) and be connected (RF) superconducting fluid insulation heat source case back side one side and connecting (RF2-1) condensation segment that (J3) thermocouple, (RF2) heat pipe connect, (RF2-2) adiabatic section and (RF2-3) evaporator section in turn, wherein (RF2-3) evaporator section is embedded in (X2) subsurface; (J3) (J30) power supply output plug of thermocouple through connecting connects (N5) heat generating tube out-put supply socket and connects (DCA) accumulator that (P1) generating out-put supply line connects the connection of (DCX1) charging-discharging controller again; Bottom end at (RF) superconducting fluid insulation heat source case is connecting (J4) air-cooled temperature difference electricity generation device has been formed (RF) superconducting fluid insulation heat source case through (DCA) accumulator of (J40) power supply output plug connection (DCX1) charging-discharging controller connection of (P6) power line connection temperature difference electricity generation device; Connecting (M) wind power generation plant above the footstock plate at (RF14); (M) wind power generation plant is made up of (M1) air blade that connects in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connection base, (M0) attaching plug; (M0) attaching plug is connecting (N2) supply socket and is connecting (DC) accumulator that (P1) generating out-put supply line is connecting the connection of (DCX) charging-discharging controller again, has formed (M) wind power generation plant of producing the complementary self-power generation and power supply of machine dish for cultivating chain circle circulating production line crop; (M) wind power generation plant comprises that connecting (N2) wind-power electricity generation out-put supply socket by (M1) air blade that is connecting in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M0) attaching plug connects (DCA) accumulator that (DCX1) charging-discharging controller connects again and formed (RF) superconducting fluid insulation thermal source oven temperature, difference TRT;

In Figure 10: (K1) the light-operated instrument of light and stay-warm case, (K1-1) light/temperature sensor, (K2) electric opening and closing window controller, (K1-2) light/temperature sensor; (A5-0) ventilating fan temperature controller, (A5-2) ventilating fan, (A50) ventilating fan attaching plug; (W1) accumulator general supply line, (W2) temperature controller power line, (W3) electric heater power line, (W4) liquid level power switch line, (W5) ventilating fan power line, (W6) solution feed pump power line, (W7) accumulator independent power source line, (W8) accumulator independent power source line, (W9) stay-warm case dc motor power line; (S1) storage battery power supply socket, (S2) accumulator independent power source line tie point, (S3) electric heater power line tie point, (S4) solution feed pump power line socket, (S5) ventilating fan power line socket, (S6) liquid level power switch line socket, (S7) accumulator independent power source line tie point, (S8) window dc brushless motor power connection points, (S9) electric opening and closing window controller power connection points, (S10) electric opening and closing window controller power line, (S11) light/temperature sensor connecting line, (S12) the light-operated instrument power line of light and stay-warm case, (S13) light/temperature sensor connecting line, (S14) window dc brushless motor power switch connecting line, (S15) stay-warm case dc motor power switching line, (S16) LED lamp power line, (S17) humidifier power line, (S18) for carbonic acid gas fan power line, (S19) fan power supply line, (S20) stay-warm case dc motor power line tie point, (S21) stay-warm case dc motor power line, (S22) stay-warm case dc motor power switching line tie point, (S23) stay-warm case dc motor power line; (T1) No. 2 controllers, (T2) motor timing controller, (T3) hydrojet timing controller; (Y1) thermo-electric generation output general supply line, (Y2) air-cooled thermocouple generating out-put supply line; (H1) humidifier, (H3) fan, (H4) are for the carbonic acid gas blower fan; (B) chain circle, (E4) motor gear, (E5) motor; (F) LED generating light, (F0) generating light power supply output plug; (L13) drag rope drive, (L14) stay-warm case direct current generator; (J3) heat pipe/thermocouple generating, (J4) air-cooled thermocouple generating, (J30) heat pipe/thermocouple generating plug, (J40) air-cooled thermocouple generating plug; (RF) superconducting fluid insulation heat source case, (RF1) heat pipe, (RF2) heat pipe, (RF3) fluid level controller, (RF13) honeycomb metal heat collector, (RF40) power supply switch plug, (RF8) superconducting fluid, (RF9) electric heating appliance, (RF90) electric heating appliance attaching plug, (RF120) temperature controller attaching plug; (G) (GA) nutrient solution feedway, (G6) magnetic valve, (G10) liquid reserve tank, (G11) solution feed pump, (G110), (G111) solution feed pump power line, (G13) temperature controller, (G130) power line tie point, (G14) electric heating appliance, (G140) electric heating appliance, (G30) fluid level controller attaching plug, (G60) power line tie point; (Q1) generating input socket, (Q2) generating input socket, (Q3) incoming junction that generates electricity; (X2-1) battery feed attachment plug; (DCX2) charging-discharging controller; (DCB) accumulator.

In the drawings: (S16) LED lamp power line is connecting (F) LED generating light and is connecting (T1) No. 2 controllers again; (F0) generating light power supply output line of (F) LED generating light connection simultaneously connects (Y1) thermo-electric generation output general supply line through (Q3) generating incoming junction; (J3) heat pipe/thermocouple generating is connecting (J30) heat pipe/thermocouple generating plug and is connecting (Y1) thermo-electric generation output general supply line that (Q1) generating input socket connects again; (J4) generating of air-cooled thermocouple is connecting (Y2) air-cooled thermocouple generating out-put supply line and is connected (Q2) input socket that generates electricity with (J40) air-cooled thermocouple generating plug and connects (Y1) thermo-electric generation again and export the general supply line; (M) wind power generation plant comprises that connecting (N2) wind-power electricity generation out-put supply socket by (M1) air blade that is connecting in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M0) attaching plug connects (Y1) thermo-electric generation output general supply line again and connect (DCB) accumulator that (DCX2) charging-discharging controller connects and formed (M) wind power generation plant; (Y1) thermo-electric generation output general supply line is connecting (DCB) accumulator that (DCX2) charging-discharging controller connects; (RF40) power supply switch plug connects (S23) liquid pump power line and connects (RF6) liquid pump again; (RF9) electric heating appliance is connected in series (RF120) temperature controller attaching plug through (S3) electric heater power line tie point connection (W1) accumulator general supply line by (RF90) electric heating appliance attaching plug; (K1-1) (S13) light/temperature sensor connecting line of light/temperature sensor is connecting (K1) light and is connected (S12) light and the light-operated instrument power line of stay-warm case with the light-operated instrument of stay-warm case and is connected (W8) accumulator independent power source line and (T1) No. 2 controllers again; (T1) road of No. 2 controllers connects (S15) stay-warm case dc motor power switching line and connects (W8) accumulator independent power source line again through be connected in series (S22) stay-warm case dc motor power switching line tie point of (S23) stay-warm case dc motor power line of (L14) stay-warm case direct current generator of (W9) stay-warm case dc motor power line, is connecting (W7) accumulator independent power source line through (S7) accumulator independent power source line tie point and is connecting (S2) accumulator independent power source line tie point again and connect (W1) accumulator general supply line; (H1) humidifier connects (S19) fan power supply line and (H3) fan and is connected (S18) again and connects (H4) for carbonic acid gas fan power line and connect (W8) accumulator independent power source line for the carbonic acid gas blower fan through (S17) humidifier power line and connect (S7) accumulator independent power source line tie point again and be connected (S2) accumulator independent power source line tie point connection (W1) accumulator general supply line with (W7) accumulator independent power source line; (E5) motor joining (T2) motor timing controller connects (S21) stay-warm case dc motor power line again and is connected (W8) accumulator independent power source line with (S20) stay-warm case dc motor power line tie point; (K1-2) (S11) light of light/temperature sensor/temperature sensor connecting line connects (K2) electric opening and closing window controller and connects (S9) electric opening and closing window controller power connection points again and connect (S10) electric opening and closing window controller power line (S14) window dc brushless motor power switch connecting line that is connected in series and connect (A9-3) window dc brushless motor and be connected (W8) accumulator independent power source line with (S8) window dc brushless motor power connection points; (A5-2) ventilating fan is connecting (A5-0) ventilating fan temperature controller and connects (W5) ventilating fan power line and connect (A50) ventilating fan attaching plug again and connect (S5) ventilating fan power line socket and connect (W1) accumulator general supply line again; (W1) accumulator general supply line is connecting (S4) solution feed pump power line socket and is connecting that (G30) fluid level controller attaching plug that (G110) solution feed pump power line is connected in series connects (W6) solution feed pump power line, (G111) solution feed pump power line connects (G11) solution feed pump at last again; (W1) be connected in series (G60) power line tie point that (T3) hydrojet timing controller connects of accumulator general supply line connects (RF4) liquid level power switch in (G6) magnetic valve (RF3) fluid level controller and is connecting (RF40) power supply switch plug that (W4) liquid level power switch line connects and connect (S6) liquid level power switch line socket and (W1) accumulator general supply line again; (W1) accumulator general supply line is connecting (W2) temperature controller power line that (G130) power line tie point connects and is connecting (G13) temperature controller; (W3) the electric heater power line is connected on and connects (G140) electric heating appliance in (W2) temperature controller power line again; (DCX2) (DCB) accumulator of charging-discharging controller connection is connecting the attachment plug of (X2-1) battery feed and is connecting (W1) accumulator general supply line, has formed complementary self-generating power supply system device in the production machine.

In Figure 11: production machine graphics content of the present invention is with above-mentioned each figure;

In the drawings: for monomer of the present invention is produced machine three-dimensional representation and production machine three-dimensional representation in actual applications.

Claims

1. the facility of high industrial production line of forage grass, vegetable, flower and medical material of solar energy comprises by (A) insulation production chamber, (A1) sunlight antetheca, (A2) sunlight oblique top, (A3) be incubated right wall, (A4) door, (A5) rear wall backlight, (A5-1) go up the insulation vent window, (A5-2) ventilating fan, (A5-3) be incubated vent window down, (A6) insulated roof, (A7) insulation base plate, (A7-1) footing, (A8) printing opacity window frame, (A9) electric opening and closing window, (A9-1) axis, (A9-2) semicircle tooth, (A9-3) window dc brushless motor, (A10) dish for cultivating harvesting window, (A11-0) edible fungus culturing bed, (A10-1) dish for cultivating platform, (A11) edible mushroom results window; (B) upward chain circle gear, (C) dish for cultivating framework, (C1) rotating shaft, (C2) connection spindle nose, (C3) clamping ring, (C4) linking arm, (C5) backing board, (C6) nutrient fluid cultivation dish, (C7) crops (comprise for chain circle, (B0) chain circle hole, (B1) last chain circle gear, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6); Herbage, vegetables, flowers, Chinese medicinal herbs); (CX-1)～(CX-14) dish for cultivating framework, (CX-9B) shift out dish for cultivating, (D) chain circle circulation framework, (D1) framework horizontal top plate pipe, (D2) framework left side vertical panel pipe, (D3) the right vertical panel pipe of framework, (D4) framework horizonal base plate pipe, (D5) the upper left plate pipe of framework level, (D6) the horizontal lower plate pipe of framework, (D7) the right horizontal upper plate pipe of framework, (D8) the right horizontal lower plate pipe of framework, (D9) go up the Luo bolt, (D10) Luo bolt under, (DCX) (DCX1) (DCX2) charging-discharging controller, (DCB) accumulator, (DCA) accumulator; (E) hand crank, (E1) horizontal teeth wheel shaft, (E2) chain pitch wheel, (E3) driving chain, (E4) motor gear, (E5) motor; (F) LED generating light, (F0) generating light power supply output plug, (F1)～(F9) LED generating light, (TE) thermocouple, (LED) LED light lamp, (DC0) power supply output line; (G) (GA) nutrient solution feedway, (G1) spray clear pipe, (G8) feed flow mouth of pipe, (G9) woven hose, (G10) liquid reserve tank, (G11) solution feed pump, (G12) liquid feeding mouth, (G13) temperature controller, (G14) electric heating appliance, (G140) electric heater connecting line, (G15) nutrient solution circulating and recovering device for nutrient solution case, (G2) fluid level controller, (G3) switch, (G4) carriage, (G5) nutrient solution, (G6) magnetic valve, (G7); (GA) for nutrient solution case, (G30) fluid level controller attaching plug, (G60) power of electromagnetic valve plug, (G110) solution feed pump attaching plug, (G111) solution feed pump power line, (G130) temperature controller attaching plug, (G140) electric heating appliance attaching plug; (H) humidifier device, (H0) edible fungi growth bag, (H1) humidifier, (H2) humidity sensor, (H3) fan, (H4) supply the carbonic acid gas blower fan for carbonic acid gas blower fan, (H10) humidifier device attaching plug, (H30) fan power supply plug, (H40); (K1) the light-operated instrument of light and stay-warm case, (K1-1) optical sensor, (RF) superconducting fluid insulation heat source case, (RF1) (RF2) heat pipe, (RF0) superconducting fluid, (RF2-1) condensation segment, (RF2-2) adiabatic section, (RF2-3) evaporator section, (RF3) fluid level controller, (RF4) liquid level power switch, (RF5) liquid back pipe, (RF6) loop back liquid pump, (RF7) heating installation bag, (RF8) superconducting fluid, (RF9) electric heating appliance, (RF10) for the elevated temperature heat source capsule, (RF11) supplying heat source liquid pipe, (RF12) temperature controller, (RF13) honeycomb metal heat collector, (RF14) footstock plate; (L) electric thermal insulating cover, (L1) both sides drag rope, (L2) stay-warm case, (L3) preceding top block, (L4) back top block, (L5) postbrachium top sheave, (L6) postbrachium middle pulley, (L7) postbrachium lower sheave, (L8) base rear wheel, (L9) base front wheel, (L10) preceding lower sheave, (L11) preceding middle pulley, (L12) front haulage rope bars, (L13) drag rope drive, (L14) stay-warm case direct current generator, (L15) rear haulage rope bars, (L120) stay-warm case dc motor power plug; (RF2-1) condensation segment, (RF2-2) adiabatic section, (RF2-3) evaporator section, (RF8) superconducting fluid, (RF9) electric heating appliance, (RF90) electric heating appliance attaching plug, (RF14) footstock plate, (RF40) power supply switch plug, (RF60) loop back liquid pump attaching plug, (RF90) electric heating appliance attaching plug, (RF120) temperature controller attaching plug, (RX1) heat-insulation layer, (RX2) heat-insulation layer; (J3) heat pipe/thermocouple generating, (J4) air-cooled thermocouple generating, (J30) heat generating tube out-put supply plug, (J40) air-cooled generating out-put supply plug; (K1) the light-operated instrument of light and stay-warm case, (K1-1) light/temperature sensor, (K2) electric opening and closing window controller, (K2-1) light/temperature sensor; (S1) storage battery power supply socket, (S2) accumulator independent power source line tie point, (S3) electric heater power line tie point, (S4) solution feed pump power line socket, (S5) ventilating fan power line socket, (S6) liquid level power switch line socket, (S7) accumulator independent power source line tie point, (S8) window dc brushless motor power connection points, (S9) electric opening and closing window controller power connection points, (S10) electric opening and closing window controller power line, (S11) light/temperature sensor connecting line, (S12) the light-operated instrument power line of light and stay-warm case, (S13) light/temperature sensor connecting line, (S14) window dc brushless motor power switch connecting line, (S15) stay-warm case dc motor power switching line, (S16) LED lamp power line, (S17) humidifier power line, (S18) for carbonic acid gas fan power line, (S19) fan power supply line, (S20) stay-warm case dc motor power line tie point, (S21) stay-warm case dc motor power line, (S22) stay-warm case dc motor power switching line tie point, (S23) stay-warm case dc motor power line, (S11A) input plug, (S11B) gang socket, (S17) power input plug, (S16A) input plug, (S16B) gang socket, (S14) power input plug; (M) wind power generation plant, (M1) air blade, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connect base, (M0) attaching plug; (P1) generating out-put supply line, (P2) solar cooker supply lines, (P3) photoelectric tracer power line, (P4) loop back liquid pump power line, (P5) solar cooker generating out-put supply, (P6) air-cooled generating out-put supply line; (N1) storage battery power supply socket, (N2) wind-power electricity generation out-put supply socket, (N3) air-cooled generating out-put supply socket, (N4) wind-power electricity generation out-put supply socket, (N5) heat generating tube out-put supply socket; (K1) the light-operated instrument of light and stay-warm case, (K1-1) light/temperature sensor, (K2) electric opening and closing window controller, (K1-2) light/temperature sensor; (W1) accumulator general supply line, (W2) temperature controller power line, (W3) electric heater power line, (W4) liquid level power switch line, (W6) solution feed pump power line, (W7) accumulator independent power source line, (W8) accumulator independent power source line, (W9) stay-warm case dc motor power line; (T1) No. 2 controllers, (T2) motor timing controller, (T3) hydrojet timing controller; (X1) solar energy lens temperature difference electricity generation device, (X10) power supply output plug, the gang socket of (N6) power supply, (X2) solar cooker temperature difference electricity generation device, (X2-0) photoelectric sensor, (X2-1) power supply plug, (X2-2) solar cooker electric rotating machine, (X2-3) photoelectric tracer, (X20) power supply output plug, the attachment plug of (X2-1) battery feed are formed, and it is characterized in that; (A) insulation is produced and is connected (L) electric thermal insulating cover on the outdoor edge, at interior being installed with (D) chain circle circulation framework; In (D) chain circle circulation framework, install and connecting (B) chain circle (C6) nutrient fluid cultivation dish is installed on (C) dish for cultivating framework with (C) dish for cultivating framework, produce indoor upper and lower side in (A) insulation (G) nutrient solution feedway and (H) humidifier device and (H0) two vaporized carbon gases of edible fungi growth bag generation are installed, produce the installation of outdoor frame top in (A) insulation and connecting (RF) superconducting fluid insulation heat source case and (J3) heat pipe/thermocouple generating, (J4) air-cooled temperature difference electricity generation device, (X1) solar energy lens temperature difference electricity generation device, (M) wind power generation plant, (X2) solar cooker temperature difference electricity generation device, (X1) solar energy lens temperature difference electricity generation device, at (RF7) heating installation bag crop heating plant and (F) LED generating light of interior the connection, constituted the facility of high industrial production line of forage grass, vegetable, flower and medical material of sending out solar energy of the present invention.

2. the facility of high industrial production line of forage grass, vegetable, flower and medical material of solar energy according to claim 1 is characterized in that; (A2) sunlight oblique top that is connecting in turn by (A1) sunlight antetheca, (A3) (A4) door of being connected with interior of insulation You Bi and (A5) rear wall backlight and interior (A5-1) that is connected go up the insulation vent window and (A5-2) ventilating fan with (A5-3) be incubated vent window down and reach (A7-1) footing that (A7) is incubated base plate and bottom, and after (A2) sunlight oblique top, connecting (A6) insulated roof, in (A1) sunlight antetheca, connect (A8) printing opacity window frame and (A9) electric opening and closing window, on (A9) electric opening and closing window limit, connecting (A9-1) axis, (A9-2) semicircle tooth, (A9-3) window dc brushless motor; Connect (A10) dish for cultivating harvesting window and (A10-1) dish for cultivating platform in the lower end of (A1) sunlight antetheca, connecting (A11) edible mushroom results window in the lower end of (A10-1) dish for cultivating platform, forming (A) insulation production chamber; (A) insulation produce that the right vertical panel pipe of the upper left plate pipe of (D5) framework level, the horizontal lower plate pipe of (D6) framework and (D3) framework that indoor being installed with (D) chain circle circulation framework connects by (D1) framework horizontal top plate pipe that is connecting in turn, (D2) framework left side vertical panel pipe is connected and (D7) the right horizontal upper plate pipe of framework and (D8) the right horizontal lower plate of framework effective (D9) go up the Luo bolt and (D10) under the Luo bolt be fastenedly connected and (D4) framework horizonal base plate pipe; Interior lower end at (D2) framework left side vertical panel pipe and the right vertical panel pipe of (D3) framework is being connected (E1) horizontal teeth wheel shaft, (E2) chain pitch wheel, (E3) driving chain, (E4) motor gear, (E5) motor in turn, is connecting (E) hand crank in the right vertical panel pipe of (D3) framework outer end of (E1) horizontal teeth wheel shaft and is connecting to form; (B) the chain circle is connected in (D) chain circle circulation framework; (B) chain circle is installed is connected in turn outside (B1) last chain circle gear, (B2) upper right chain circle gear, (B3) upper left chain circle gear, (B4) upper right chain circle gear, (B5) lower-left chain circle gear, (B6) last chain circle gear, in (B) chain circle, leave (B0) chain circle hole that connects usefulness and formed (B) chain circle; (C7) crops that connecting in (C) dish for cultivating framework in (B0) chain circle hole of (B) chain circle (comprise; Herbage, vegetables, flowers, Chinese medicinal herbs); Being connected spindle nose by (C2) of (C1) rotating shaft at (C) dish for cultivating framework inserts and connects (C5) backing board that (C3) clamping ring is connected with (C4) linking arm and form with (C7) crops in (C6) the nutrient fluid cultivation dish.

3. according to the facility of high industrial production line of forage grass, vegetable, flower and medical material of claim 1 and 2 described solar energy, it is characterized in that; On (D) chain circle circulation framework, place (CX-1)～(CX-14) dish for cultivating framework and can (CX-9B) shift out dish for cultivating; (F) LED generating light is installed in the middle of (D) chain circle circulation framework; (F1)～(F9) the LED generating light by the fin of (LED) LED light lamp connect (TE) thermocouple and (DC0) power supply output line be connected again (DCX) charging-discharging controller and (DC) accumulator formed production machine dish for cultivating chain circle circulating production line crop complementation LED light photograph/TRT; In this (D) chain circle circulation framework periphery (G) nutrient solution feedway is installed; (G) the nutrient solution feedway comprise (G1) that be connected and installed by (G4) carriage upper end for the nutrient solution case be connected with the upper end (G7) clear pipe of spray that (G6) magnetic valve that (G3) switch that (G2) fluid level controller connects is being connected with left end connecting and (G8) the feed flow mouth of pipe be connected (G5) nutrient solution in (G10) liquid reserve tank that (G9) woven hose connects with the lower end with (G11) solution feed pump and is connected G10) (G13) temperature controller of being connected outside the liquid reserve tank, (G14) electric heating appliance reach (G12) with (G15) nutrient solution circulation reusing device that liquid feeding mouth forms; (H) (H2) humidity sensor of connecting by (H1) humidifier of humidifier device and (H3) fan form; (H0) two vaporized carbon gases of edible fungi growth bag generation (comprise for interior (C7) crops of (C) dish for cultivating framework that the carbonic acid gas blower fan is transported to the upper end through (H4); Herbage, vegetables, flowers, Chinese medicinal herbs) in.

4. according to the facility of high industrial production line of forage grass, vegetable, flower and medical material of claim 1 and 3 described solar energy, it is characterized in that; (G) the nutrient solution feedway has been formed production machine dish for cultivating chain circle circulating production line crop heating plant with the two vaporized carbon air feed systems that (H) humidifier device and (H0) edible fungi growth bag produce with (RF7) heating installation bag that (RF) superconducting fluid insulation heat source case is being connected; Connect (RF14) footstock plate on (A) insulation top, production chamber, connecting (RF) superconducting fluid insulation heat source case in the upper end of (RF14) footstock plate; (RF) connecting (RF1) heat pipe in the superconducting fluid insulation heat source case, (RF) superconducting fluid insulation heat source case is being connected (RF13) honeycomb metal heat collector outward with (RF1) heat pipe, is connecting (RF3) fluid level controller on (RF) superconducting fluid insulation heat source case top with (RF4) liquid level power switch, filled with (RF2) superconducting fluid in (RF) superconducting fluid is incubated heat source case; Lower end at (RF) superconducting fluid insulation heat source case is connecting (RF5) liquid back pipe in turn, (RF6) loops back liquid pump, (RF7) heating installation bag, outside (RF7) heating installation bag, connecting (RF12) temperature controller and (RF9) electric heating appliance, in (RF7) heating installation bag, injected (RF8) superconducting fluid thermal source full; Bottom face at (RF) superconducting fluid insulation heat source case is connecting (J4) air-cooled pipe-thermocouple generating set; Connecting (RF11) supplying heat source liquid pipe and the upper end that (RF10) is connected to (RF) superconducting fluid insulation heat source case in turn for the elevated temperature heat source capsule in the lower end of (RF7) heating installation bag; Producing indoor connection the (K1) light in (A) insulation is connected with (K1-1) optical sensor on (RF) superconducting fluid of producing outdoor (A6) insulated roof upper end in (A) insulation is incubated heat source case with the light-operated instrument of stay-warm case; On the outdoor frame of (A) insulation production, connecting (L) electric thermal insulating cover; (L) the electric thermal insulating cover is by (L2) stay-warm case and (L3) the preceding top block that is connected in turn of the connection of (L1) both sides drag rope, (L4) back top block, (L5) postbrachium top sheave, (L6) postbrachium middle pulley, (L7) postbrachium lower sheave, (L8) base rear wheel, (L9) base front wheel, (L10) preceding lower sheave, (L11) preceding middle pulley, (L12) front haulage rope bars, (L13) drag rope drive, (L14) stay-warm case direct current generator, (L15) the rear haulage rope bars has been formed (L) electric thermal insulating closure assembly.

5. according to the facility of high industrial production line of forage grass, vegetable, flower and medical material of claim 1 and 4 described solar energy, it is characterized in that; Connecting (RF2-1) condensation segment that (J3) thermocouple, (RF2) heat pipe connect, (RF2-2) adiabatic section and (RF2-3) evaporator section in turn in (RF) superconducting fluid insulation heat source case back side one side, wherein (RF2-3) evaporator section is embedded in (X2) subsurface; (J3) (J30) power supply output plug of thermocouple through connecting connects (DC) accumulator that (DCX) charging-discharging controller connects; Bottom end at (RF) superconducting fluid insulation heat source case is connecting (J4) air-cooled temperature difference electricity generation device connects the connection of (DCX) charging-discharging controller through (J40) power supply output plug (DC) accumulator; Connecting (M) wind power generation plant above the footstock plate at (RF14); (M) wind power generation plant is made up of (M1) air blade that connects in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connection base, (M0) attaching plug; (M0) attaching plug is formed (DC) accumulator that is connecting the connection of (DCX) charging-discharging controller and has been formed the complementary self-power generation and power supply device of production machine dish for cultivating chain circle circulating production line crop.

6. according to the facility of high industrial production line of forage grass, vegetable, flower and medical material of claim 1 and 5 described solar energy, it is characterized in that; (X1) (J5) pipe-thermocouple generating set in the solar energy lens temperature difference electricity generation device is connecting (X10) power supply output plug and connects the gang socket of (N6) power supply and connect (P1) generating out-put supply line again and connect (DCA) accumulator that (DCX1) charging-discharging controller connects and formed complementary (X1) solar energy lens temperature difference electricity generation device; (X2) (P3) photoelectric tracer power line of being connected with (X2-3) photoelectric tracer of (X2-0) photoelectric sensor, (X2-3) photoelectric tracer, (X2-2) solar cooker electric rotating machine that are connecting in turn of solar cooker temperature difference electricity generation device connects (X2-1) power supply plug through (P2) solar cooker supply lines and connects (N1) storage battery power supply socket again and formed (X2) solar cooker electric supply installation; (X2) connecting (J6) pipe-thermocouple generating set in the solar cooker temperature difference electricity generation device and connecting (DCA) accumulator that (DCX1) charging-discharging controller connects again, forming (X2) solar cooker temperature difference electricity generation device through (P5) solar cooker generating out-put supply connection (X20) power supply output plug connection (P1) generating out-put supply line; Connecting (RF4) liquid level power switch that (RF3) fluid level controller connecting in turn is connected in series in (RF6-2) socket that (P4) loop back on the liquid pump power line again and connects (P2) solar cooker supply lines through (RF40) power line again in the upper end of (RF) superconducting fluid insulation heat source case, (RF6) that connect (RF7) heating installation bag again loops back the circuit arrangement of liquid pump, formed the electric supply installation of (RF) superconducting fluid insulation heat source case.Connecting (RF40) attaching plug in the upper end of (RF6-2) socket, loop back the liquid pump power line through (P4) and be connected (RF) superconducting fluid insulation heat source case back side one side and connecting (RF2-1) condensation segment that (J3) thermocouple, (RF2) heat pipe connect, (RF2-2) adiabatic section and (RF2-3) evaporator section in turn, wherein (RF2-3) evaporator section is embedded in (X2) subsurface; (J3) (J30) power supply output plug of thermocouple through connecting connects (N5) heat generating tube out-put supply socket and connects (DCA) accumulator that (P1) generating out-put supply line connects the connection of (DCX1) charging-discharging controller again; Bottom end at (RF) superconducting fluid insulation heat source case is connecting (J4) air-cooled temperature difference electricity generation device has been formed (RF) superconducting fluid insulation heat source case through (DCA) accumulator of (J40) power supply output plug connection (DCX1) charging-discharging controller connection of (P6) power line connection temperature difference electricity generation device; Connecting (M) wind power generation plant above the footstock plate at (RF14); (M) wind power generation plant is made up of (M1) air blade that connects in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M6) connection base, (M0) attaching plug; (M0) attaching plug is connecting (N2) supply socket and is connecting (DC) accumulator that (P1) generating out-put supply line is connecting the connection of (DCX) charging-discharging controller again, has formed (M) wind power generation plant of producing the complementary self-power generation and power supply of machine dish for cultivating chain circle circulating production line crop; (M) wind power generation plant comprises that connecting (N2) wind-power electricity generation out-put supply socket by (M1) air blade that is connecting in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M0) attaching plug connects (DCA) accumulator that (DCX1) charging-discharging controller connects again and formed (RF) superconducting fluid insulation thermal source oven temperature, difference TRT.

7. according to the facility of high industrial production line of forage grass, vegetable, flower and medical material of claim 1 and 6 described solar energy, it is characterized in that (S16) LED lamp power line is connecting (F) LED generating light and connecting (T1) No. 2 controllers again; (F0) generating light power supply output line of (F) LED generating light connection simultaneously connects (Y1) thermo-electric generation output general supply line through (Q3) generating incoming junction; (J3) heat pipe/thermocouple generating is connecting (J30) heat pipe/thermocouple generating plug and is connecting (Y1) thermo-electric generation output general supply line that (Q1) generating input socket connects again; (J4) generating of air-cooled thermocouple is connecting (Y2) air-cooled thermocouple generating out-put supply line and is connected (Q2) input socket that generates electricity with (J40) air-cooled thermocouple generating plug and connects (Y1) thermo-electric generation again and export the general supply line; (M) wind power generation plant comprises that connecting (N2) wind-power electricity generation out-put supply socket by (M1) air blade that is connecting in turn, (M2) speed changer, (M3) generator, (M4) tube connector, (M5) out-put supply line, (M0) attaching plug connects (Y1) thermo-electric generation output general supply line again and connect (DCB) accumulator that (DCX2) charging-discharging controller connects and formed (M) wind power generation plant; (Y1) thermo-electric generation output general supply line is connecting (DCB) accumulator that (DCX2) charging-discharging controller connects; (RF40) power supply switch plug connects (S23) liquid pump power line and connects (RF6) liquid pump again; (RF9) electric heating appliance is connected in series (RF120) temperature controller attaching plug through (S3) electric heater power line tie point connection (W1) accumulator general supply line by (RF90) electric heating appliance attaching plug; (K1-1) (S13) light/temperature sensor connecting line of light/temperature sensor is connecting (K1) light and is connected (S12) light and the light-operated instrument power line of stay-warm case with the light-operated instrument of stay-warm case and is connected (W8) accumulator independent power source line and (T1) No. 2 controllers again; (T1) road of No. 2 controllers connects (S15) stay-warm case dc motor power switching line and connects (W8) accumulator independent power source line again through be connected in series (S22) stay-warm case dc motor power switching line tie point of (S23) stay-warm case dc motor power line of (L14) stay-warm case direct current generator of (W9) stay-warm case dc motor power line, is connecting (W7) accumulator independent power source line through (S7) accumulator independent power source line tie point and is connecting (S2) accumulator independent power source line tie point again and connect (W1) accumulator general supply line; (H1) humidifier connects (S19) fan power supply line and (H3) fan and is connected (S18) again and connects (H4) for carbonic acid gas fan power line and connect (W8) accumulator independent power source line for carbonic acid gas blower fan (S17) humidifier power line and connect (S7) accumulator independent power source line tie point again and be connected (S2) accumulator independent power source line tie point connection (W1) accumulator general supply line with (W7) accumulator independent power source line; (E5) motor joining (T2) motor timing controller connects (S21) stay-warm case dc motor power line again and is connected (W8) accumulator independent power source line with (S20) stay-warm case dc motor power line tie point; (K1-2) (S11) light of light/temperature sensor/temperature sensor connecting line connects (K2) electric opening and closing window controller and connects (S9) electric opening and closing window controller power connection points again and connect (S10) electric opening and closing window controller power line (S14) window dc brushless motor power switch connecting line that is connected in series and connect (A9-3) window dc brushless motor and be connected (W8) accumulator independent power source line with (S8) window dc brushless motor power connection points; (A5-2) ventilating fan is connecting (A5-0) ventilating fan temperature controller and connects (W5) ventilating fan power line and connect (A50) ventilating fan attaching plug again and connect (S5) ventilating fan power line socket and connect (W1) accumulator general supply line again; (W1) accumulator general supply line is connecting (S4) solution feed pump power line socket and is connecting that (G30) fluid level controller attaching plug that (G110) solution feed pump power line is connected in series connects (W6) solution feed pump power line, (G111) solution feed pump power line connects (G11) solution feed pump at last again; (W1) be connected in series (G60) power line tie point that (T3) hydrojet timing controller connects of accumulator general supply line connects (RF4) liquid level power switch in (G6) magnetic valve (RF3) fluid level controller and is connecting (RF40) power supply switch plug that (W4) liquid level power switch line connects and connect (S6) liquid level power switch line socket and (W1) accumulator general supply line again; (W1) accumulator general supply line is connecting (W2) temperature controller power line that (G130) power line tie point connects and is connecting (G13) temperature controller; (W3) the electric heater power line is connected on and connects (G140) electric heating appliance in (W2) temperature controller power line again; (DCX2) (DCB) accumulator of charging-discharging controller connection is connecting the attachment plug of (X2-1) battery feed and is connecting (W1) accumulator general supply line, has formed complementary self-generating power supply system device in the production machine.