CN111937621A - Quinoa culture room and method for removing saponin - Google Patents

Abstract

The invention relates to the technical field of planting, in particular to a quinoa culture chamber for removing saponin and a culture method, comprising an incubator, an irradiation component and an air cooling component, wherein the irradiation component is arranged in the incubator; the irradiation assembly comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the saponin and/or the chemical bond absorption interval contained in the saponin; the air cooling component controls the temperature of the quinoa to be between 15 and 20 ℃; the irradiation of the saponin of the quinoa can be realized by the same wavelength emitted by the irradiation lamp as the absorption interval of the saponin and/or the chemical bond absorption interval contained in the saponin, and the saponin or the chemical bond thereof absorbs excessive energy to cause the energy absorption and disintegration of the bond maintaining the molecular structure of the saponin, so that the spatial structure of the saponin is changed or decomposed, and the quinoa is removed in the planting process; through the setting of forced air cooling subassembly, can make the cooling of chenopodium quinoa, avoid overheated plant death that leads to.

Description

Quinoa culture room and method for removing saponin

Technical Field

The invention relates to the technical field of planting, in particular to a quinoa culture room and a quinoa culture method for removing saponin.

Background

Chenopodium quinoa willd (school name) is originally produced in Andes mountain areas of south America and is a main traditional food for indigenous residents in printed and native America. In 2008, introduction of seeds was successful in Jingle county of Shanxi province in China, and large-area planting was started. Quinoa is the only whole-grain full-nutrition complete protein alkaline food, the endosperm accounts for 68% of seeds, the quinoa has nutritional activity, the protein content is up to 16% -22%, the quinoa is equivalent to milk powder and meat in quality, the quinoa is rich in various amino acids, wherein all 9 essential amino acids necessary for human bodies are contained, the proportion is proper, the quinoa is easy to absorb, the quinoa is particularly rich in lysine, calcium, magnesium, phosphorus, potassium, iron, zinc, selenium, manganese, copper and other mineral substances which are lacked in plants, the quinoa is rich in unsaturated fatty acid, flavonoid, B vitamins, vitamin E, choline, betaine, folic acid, alpha-linolenic acid, beta-glucan and other beneficial compounds, the dietary cellulose content is up to 7.1%, the cholesterol is 0, the quinoa is free of gluten, and the quinoa is low in fat and low in calorie (305 kcal/100 g).

Chenopodium quinoa willd belongs to an easily cooked and digestible food, has unique taste, has the effects of balancing and supplementing nutrition, enhancing body functions, repairing physique, regulating immunity and endocrine, improving stress capability of the body, preventing diseases, resisting cancer, losing weight, assisting in treatment and the like, and is suitable for all groups to eat. The quinoa meets the requirements of human on food safety, health, nutrition and naturalness.

However, the skin of quinoa has a layer of water-soluble saponin, which can cause irritation to human intestinal tract if eaten directly without treatment, has bitter taste, and hinders the absorption of some nutrient substances, so it is very inconvenient.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: providing a quinoa culture chamber and a quinoa culture method capable of removing saponin in quinoa;

in order to solve the technical problems, the invention adopts the technical scheme that:

a quinoa culture chamber for removing saponin comprises an incubator, an irradiation component and an air cooling component, wherein the irradiation component is arranged in the incubator;

the irradiation assembly comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the saponin and/or the chemical bond absorption interval contained in the saponin;

the air cooling component cools the quinoa.

In order to solve the technical problem, the invention adopts another technical scheme as follows:

a method for culturing quinoa culture chamber with saponin removed comprises

Transplanting the chenopodium quinoa seedlings after seedling emergence into a culture box, and keeping the plant spacing between 15 and 25 centimeters;

turning on a lamp to continuously illuminate the quinoa wheat seedlings until the mature period;

and controlling the air cooling component to control the quinoa temperature to be between 15 and 20 ℃ while irradiating.

The invention has the beneficial effects that: the irradiation of the saponin of the chenopodium quinoa can be realized by the same wavelength emitted by the irradiation lamp as the absorption interval of the saponin and/or the chemical bond absorption interval contained in the saponin, and the saponin or the chemical bond thereof absorbs excessive energy to cause the energy absorption and disintegration of the bond maintaining the molecular structure of the saponin, so that the spatial structure of the saponin is changed or decomposed, and the chenopodium quinoa is removed in the planting process; through the setting of air-cooled subassembly, can make the chenopodium quinoa cooling, avoid overheated plant that leads to dies, the air-cooled subassembly can drive the chenopodium quinoa and sway along with the wind simultaneously for the chenopodium quinoa seed of different positions can both receive shining of lamp, guarantees getting rid of the effect of saponin.

Drawings

FIG. 1 is a schematic structural diagram of a quinoa culture chamber with saponin removed according to an embodiment of the present invention;

description of reference numerals: 1. an incubator; 11. an air inlet; 12. a pressure regulating port; 2. an illumination assembly; 3. an air-cooled assembly; 31. a fan; 32. a circulation channel; 4. a vacuum pump; 5. a first solenoid valve; 6. a thermal imaging camera; 7. a second solenoid valve; 8. a reflective film.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, a quinoa cultivation room for removing saponin comprises an incubator 1, an irradiation component 2 and an air cooling component 3, wherein the irradiation component 2 is arranged in the incubator 1;

the irradiation assembly 2 comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the saponin and/or the absorption interval of chemical bonds/functional groups contained in the saponin;

the air cooling component 3 cools the quinoa.

From the above description, the irradiation of the saponin of chenopodium quinoa can be realized by the same wavelength emitted by the irradiation lamp as the absorption interval of the saponin and/or the chemical bond absorption interval contained in the saponin, and the saponin or the chemical bond thereof absorbs excessive energy to cause the energy absorption and disintegration of the bond maintaining the molecular structure of the saponin, so that the spatial structure of the saponin is changed or decomposed, and the chenopodium quinoa is removed in the planting process; through air-cooled subassembly 3's setting, can make the chenopodium quinoa cooling, avoid overheated plant that leads to die, air-cooled subassembly 3 can drive the chenopodium quinoa and sway along with the wind simultaneously for the chenopodium quinoa seed of different positions can both receive shining of lamp, guarantees the effect of getting rid of saponin.

Further, the air cooling assembly 3 comprises a fan 31, the bottom of the incubator 1 is provided with a plurality of vertically arranged air inlets 11, and the fan 31 is arranged below the incubator 1.

From the above description, the setting of the fan 31 can ensure that the direction of the airflow is vertically upward, so as to avoid the chenopodium quinoa from lodging due to wind and ensure the growth of the chenopodium quinoa; meanwhile, the flow of the gas can enhance the reaction of the quinoa and the carbon dioxide, so that the growth of the quinoa is ensured.

Further, the air cooling assembly 3 further comprises a circulating channel 32, the fan 31 is arranged in the circulating channel 32, one end of the circulating channel 32 is communicated with the air inlet 11, and the other end of the circulating channel is communicated with the top of the incubator 1;

the incubator 1 is a sealed box body.

As is apparent from the above description, by using the incubator 1 and the circulation path 32 as sealed cases, a closed space can be formed, facilitating control of the internal environment thereof.

Further, the quinoa culture chamber for removing saponin also comprises a vacuum pump 4, the incubator 1 is provided with a pressure regulating port 12, and a first electromagnetic valve 5 is arranged in the pressure regulating port 12; the pressure regulating port 12 is communicated with the vacuum pump 4.

From the above description, through the setting of the first electromagnetic valve 5 and the vacuum pump 4, the internal air pressure can be adjusted through the opening of the first electromagnetic valve 5 and the operation of the vacuum pump 4 to simulate the high altitude air pressure, and the setting of the optimal air pressure for quinoa planting is satisfied.

Furthermore, the quinoa culture chamber for removing saponin also comprises a thermal imaging camera 6, a main controller and second electromagnetic valves 7 with the number opposite to that of the air inlets 11, wherein the second electromagnetic valves 7 are arranged in the air inlets 11; the thermal imaging camera 6, the fan 31 and the second electromagnetic valve 7 are respectively electrically connected with the main controller;

the thermal imaging camera 6 is arranged on the top of the inner side wall of the incubator 1.

Known from the above description, through thermal imaging camera 6, can obtain the temperature of the quinoa seed of different quinoa in incubator 1, avoid the high temperature of local quinoa seed, through the second solenoid valve 7 of control in corresponding regional air intake 11, realize local cooling.

Furthermore, the quinoa culture chamber for removing the saponin also comprises a temperature and humidity control assembly, wherein the temperature and humidity control assembly comprises a temperature and humidity controller, a temperature sensor, a humidity sensor, a heating element, a refrigerating element, a humidifier and a third electromagnetic valve; the temperature sensor, the humidity sensor, the heating element, the refrigerating element, the humidifier and the third electromagnetic valve are respectively and electrically connected with the temperature and humidity controller;

the temperature sensor, the humidity sensor, the heating element, the refrigerating element and the humidifier are arranged in the incubator 1;

the bottom of the incubator 1 is provided with a water outlet, and the third electromagnetic valve is arranged on the water outlet.

According to the description, the temperature and humidity control assembly can simulate various temperatures and humidities, so that the optimal temperature and humidity can be conveniently selected, and the growth of the chenopodium quinoa can be promoted.

Furthermore, a reflective film 8 for reflecting the irradiation lamp is arranged on the inner side wall of the incubator 1.

Known from the above description, through reflectance coating 8, the light that the reflection irradiation lamp that can guarantee the multi-angle sent, and then make the quinoa receive the shining of multi-angle for saponin among the quinoa is got rid of more thoroughly.

Furthermore, the incubator body of the incubator 1 is made of transparent material.

From the above description, the transparent cultivation box 1 can promote the growth of quinoa through external light.

A method for culturing quinoa culture chamber with saponin removed comprises

Transplanting the chenopodium quinoa seedlings after seedling emergence into a culture box 1, and keeping the plant spacing between 15 and 25 centimeters;

turning on a lamp to continuously illuminate the quinoa wheat seedlings until the mature period;

the air cooling component 3 is controlled to control the quinoa temperature to be between 15 and 20 ℃ while irradiating.

Further, the 'controlling the air cooling assembly 3 to control the quinoa temperature to be between 15 ℃ and 20 ℃ while irradiating' includes:

and when the quinoa seedlings are grown to obtain the quinoa seeds, continuously irradiating the quinoa seeds by using an irradiation lamp, acquiring the temperature of the quinoa seeds by using a thermal imaging camera 6, and controlling the air cooling component 3 according to the temperature of the quinoa seeds to control the temperature of the quinoa seeds to be between 15 and 20 ℃.

Example one

A quinoa culture room for removing saponin comprises an incubator 1, an irradiation component 2 and an air cooling component 3, wherein the irradiation component 2 is arranged in the incubator 1;

the irradiation assembly 2 comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the saponin; the wavelength of light emitted by the irradiation lamp is 200nm-290 nm; generally, without a conjugated system, saponin only has a tail end to absorb, and the absorption interval of the saponin is between 200nm and 220nm if a double-bond conjugated system exists, and the absorption wavelength interval of the saponin is increased if the conjugated system is long, so that the absorption wavelength interval is reserved to 290 nm;

the air cooling component 3 cools the quinoa.

The air cooling assembly 3 comprises a fan 31, a plurality of vertically arranged air inlets 11 are formed in the bottom of the incubator 1, and the fan 31 is arranged below the incubator 1.

The air cooling assembly 3 further comprises a circulating channel 32, the fan 31 is arranged in the circulating channel 32, one end of the circulating channel 32 is communicated with the air inlet 11, and the other end of the circulating channel is communicated with the top of the incubator 1;

the incubator 1 is a sealed box body.

The quinoa culture chamber for removing saponin further comprises a vacuum pump 4, the incubator 1 is provided with a pressure regulating port 12, and a first electromagnetic valve 5 is arranged in the pressure regulating port 12; the pressure regulating port 12 is communicated with the vacuum pump 4.

The quinoa culture chamber for removing the saponin further comprises a thermal imaging camera 6, a main controller and second electromagnetic valves 7, the number of the second electromagnetic valves 7 is opposite to that of the air inlets 11, and the second electromagnetic valves 7 are arranged in the air inlets 11; the thermal imaging camera 6, the fan 31 and the second electromagnetic valve 7 are respectively electrically connected with the main controller;

the thermal imaging camera 6 is arranged on the top of the inner side wall of the incubator 1.

And a reflecting film 8 for reflecting the irradiation lamp is arranged on the inner side wall of the incubator 1.

Example two

A quinoa culture room for removing saponin comprises an incubator 1, an irradiation component 2 and an air cooling component 3, wherein the irradiation component 2 is arranged in the incubator 1;

the irradiation assembly 2 comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the saponin and the ester group absorption interval contained in the saponin; the wavelength of light emitted by the irradiation lamp is 200nm-290 nm; generally, without a conjugated system, saponin only has a tail end to absorb, and the absorption interval of the saponin is between 200nm and 220nm if a double-bond conjugated system exists, and the absorption wavelength interval of the saponin is increased if the conjugated system is long, so that the absorption wavelength interval is reserved to 290 nm; the saponin comprises an ester group, the ester group is formed by the reaction of alcohol and acid, one part of the acid is alcohol, the other part of the acid is alcohol, and the absorption wavelength of the ester group-OCOCH 3 is 220 nm;

the air cooling component 3 cools the quinoa.

The air cooling assembly 3 comprises a fan 31, a plurality of vertically arranged air inlets 11 are formed in the bottom of the incubator 1, and the fan 31 is arranged below the incubator 1.

The air cooling assembly 3 further comprises a circulating channel 32, the fan 31 is arranged in the circulating channel 32, one end of the circulating channel 32 is communicated with the air inlet 11, and the other end of the circulating channel is communicated with the top of the incubator 1;

the incubator 1 is a sealed box body.

The quinoa culture chamber for removing saponin further comprises a vacuum pump 4, the incubator 1 is provided with a pressure regulating port 12, and a first electromagnetic valve 5 is arranged in the pressure regulating port 12; the pressure regulating port 12 is communicated with the vacuum pump 4.

The quinoa culture chamber for removing the saponin further comprises a thermal imaging camera 6, a main controller and second electromagnetic valves 7, the number of the second electromagnetic valves 7 is opposite to that of the air inlets 11, and the second electromagnetic valves 7 are arranged in the air inlets 11; the thermal imaging camera 6, the fan 31 and the second electromagnetic valve 7 are respectively electrically connected with the main controller;

the thermal imaging camera 6 is arranged on the top of the inner side wall of the incubator 1.

And a reflecting film 8 for reflecting the irradiation lamp is arranged on the inner side wall of the incubator 1.

EXAMPLE III

A quinoa culture room for removing saponin comprises an incubator 1, an irradiation component 2 and an air cooling component 3, wherein the irradiation component 2 is arranged in the incubator 1;

the irradiation assembly 2 comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the functional groups contained in the saponin; the wavelength of light emitted by the irradiation lamp is 220nm +/-20 nm; the functional group is ester group-OCOCH 3, and the absorption wavelength of the ester group is 220 nm;

the air cooling component 3 cools the quinoa.

The air cooling assembly 3 comprises a fan 31, a plurality of vertically arranged air inlets 11 are formed in the bottom of the incubator 1, and the fan 31 is arranged below the incubator 1.

The air cooling assembly 3 further comprises a circulating channel 32, the fan 31 is arranged in the circulating channel 32, one end of the circulating channel 32 is communicated with the air inlet 11, and the other end of the circulating channel is communicated with the top of the incubator 1;

the incubator 1 is a sealed box body.

The quinoa culture chamber for removing saponin further comprises a vacuum pump 4, the incubator 1 is provided with a pressure regulating port 12, and a first electromagnetic valve 5 is arranged in the pressure regulating port 12; the pressure regulating port 12 is communicated with the vacuum pump 4.

The quinoa culture chamber for removing the saponin further comprises a temperature and humidity control assembly, wherein the temperature and humidity control assembly comprises a temperature and humidity controller, a temperature sensor, a humidity sensor, a heating element, a refrigerating element, a humidifier and a third electromagnetic valve; the temperature sensor, the humidity sensor, the heating element, the refrigerating element, the humidifier and the third electromagnetic valve are respectively and electrically connected with the temperature and humidity controller;

the temperature sensor, the humidity sensor, the heating element, the refrigerating element and the humidifier are arranged in the incubator 1;

the bottom of the incubator 1 is provided with a water outlet, and the third electromagnetic valve is arranged on the water outlet.

The incubator body of the incubator 1 is made of transparent materials.

Example four

A method for culturing quinoa culture chamber with the saponin removed according to any of the first to third embodiments, comprising

Transplanting the chenopodium quinoa seedlings after seedling emergence into a culture box 1, and keeping the plant spacing of 15 cm;

turning on a lamp to continuously illuminate the quinoa wheat seedlings until the mature period;

and when the quinoa seedlings are grown to obtain the quinoa seeds, continuously irradiating the quinoa seed parts by using an irradiation lamp, acquiring the temperature of the quinoa seeds by using the thermal imaging camera 6, and controlling the air cooling component 3 to control the temperature of the quinoa seeds to be 15 ℃ according to the temperature of the quinoa seeds.

EXAMPLE five

A method for culturing quinoa culture chamber with the saponin removed according to any of the first to third embodiments, comprising

Transplanting the chenopodium quinoa seedlings after seedling emergence into a culture box 1, and keeping the plant spacing of 20 cm;

turning on a lamp to continuously illuminate the quinoa wheat seedlings until the mature period;

and when the quinoa seedlings are grown to obtain the quinoa seeds, continuously irradiating the quinoa seed parts by using an irradiation lamp, acquiring the temperature of the quinoa seeds by using the thermal imaging camera 6, and controlling the air cooling component 3 to control the temperature of the quinoa seeds to be 18 ℃ according to the temperature of the quinoa seeds.

EXAMPLE six

A method for culturing quinoa culture chamber with the saponin removed according to any of the first to third embodiments, comprising

Transplanting the chenopodium quinoa seedlings after seedling emergence into a culture box 1, and keeping the plant spacing of 25 cm;

turning on a lamp to continuously illuminate the quinoa wheat seedlings until the mature period;

and when the quinoa seedlings are grown to obtain the quinoa seeds, continuously irradiating the quinoa seed parts by using an irradiation lamp, acquiring the temperature of the quinoa seeds by using the thermal imaging camera 6, and controlling the air cooling component 3 to control the temperature of the quinoa seeds to be 20 ℃ according to the temperature of the quinoa seeds.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (10)

1. A quinoa culture chamber for removing saponin is characterized by comprising an incubator, an irradiation component and an air cooling component, wherein the irradiation component is arranged in the incubator;

the irradiation assembly comprises a plurality of irradiation lamps, and the wavelength of light emitted by the irradiation lamps is the same as the absorption interval of the saponin and/or the chemical bond absorption interval contained in the saponin;

the air cooling component cools the quinoa.

2. The quinoa culture room with saponin removed according to claim 1, wherein the air cooling component comprises a fan, the bottom of the culture box is provided with a plurality of vertically arranged air inlets, and the fan is arranged below the culture box.

3. The quinoa culture room with saponin removed according to claim 2, wherein the air cooling assembly further comprises a circulation channel, the fan is arranged in the circulation channel, one end of the circulation channel is communicated with the air inlet, and the other end of the circulation channel is communicated with the top of the culture box;

the incubator is a sealed box body.

4. The quinoa culture chamber for removing saponin according to claim 3, wherein the quinoa culture chamber for removing saponin further comprises a vacuum pump, the incubator is provided with a pressure regulating port, and a first electromagnetic valve is arranged in the pressure regulating port; the pressure regulating port is communicated with a vacuum pump.

5. The quinoa culture chamber with saponin removed according to claim 2, wherein the quinoa culture chamber with saponin removed further comprises a thermal imaging camera, a master controller and a second electromagnetic valve with the number opposite to that of the air inlet, wherein the second electromagnetic valve is arranged in the air inlet; the thermal imaging camera, the fan and the second electromagnetic valve are respectively and electrically connected with the main controller;

the thermal imaging camera is arranged on the top of the inner side wall of the incubator.

6. The quinoa cultivation chamber for removing saponin according to claim 1, further comprising a temperature and humidity control component, wherein the temperature and humidity control component comprises a temperature and humidity controller, a temperature sensor, a humidity sensor, a heating element, a refrigerating element, a humidifier and a third electromagnetic valve; the temperature sensor, the humidity sensor, the heating element, the refrigerating element, the humidifier and the third electromagnetic valve are respectively and electrically connected with the temperature and humidity controller;

the temperature sensor, the humidity sensor, the heating element, the refrigerating element and the humidifier are arranged in the incubator;

the bottom of the incubator is provided with a water outlet, and the third electromagnetic valve is arranged on the water outlet.

7. A quinoa culture chamber with saponin removed according to claim 1, wherein a reflective film of a reflective irradiation lamp is arranged on the inner side wall of the culture box.

8. The quinoa culture chamber with saponin removed according to claim 1, wherein the box body of the culture box is made of transparent material.

9. A method for culturing quinoa culture chamber with saponin removed according to any one of claims 1 to 8, comprising

Transplanting the chenopodium quinoa seedlings after seedling emergence into a culture box, and keeping the plant spacing between 15 and 25 centimeters;

turning on a lamp to continuously illuminate the quinoa wheat seedlings until the mature period;

and controlling the air cooling component to control the quinoa temperature to be between 15 and 20 ℃ while irradiating.

10. The quinoa cultivation method for removing saponin according to claim 9, wherein the "controlling the air cooling module to control the quinoa temperature between 15 ℃ and 20 ℃ while irradiating" comprises:

and when the quinoa seedlings are grown to obtain the quinoa seeds, continuously irradiating the quinoa seeds by using an irradiation lamp, acquiring the temperature of the quinoa seeds by using a thermal imaging camera, and controlling the air cooling component to control the temperature of the quinoa seeds to be between 15 and 20 ℃ according to the temperature of the quinoa seeds.

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