CN105684869A - Double-cylinder rotating bean-spout cultivating machine and method - Google Patents
Double-cylinder rotating bean-spout cultivating machine and method Download PDFInfo
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- CN105684869A CN105684869A CN201610161743.6A CN201610161743A CN105684869A CN 105684869 A CN105684869 A CN 105684869A CN 201610161743 A CN201610161743 A CN 201610161743A CN 105684869 A CN105684869 A CN 105684869A
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
- A01G31/02—Special apparatus therefor
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P60/00—Technologies relating to agriculture, livestock or agroalimentary industries
- Y02P60/20—Reduction of greenhouse gas [GHG] emissions in agriculture, e.g. CO2
- Y02P60/21—Dinitrogen oxide [N2O], e.g. using aquaponics, hydroponics or efficiency measures
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Abstract
The invention provides a double-cylinder rotating bean-spout cultivating machine and method. The double-cylinder rotating bean-spout cultivating machine comprises a spout cultivating assembly, an environment assembly, a control module and a machine base. The spout cultivating assembly, the environment assembly and the control module are arranged at the machine base. The environment assembly comprises a ventilation module, an illumination module and an environment detection sensor, the control module is connected with the environment assembly and controls the spout cultivating assembly and the environment assembly according to detection data of the environment detection sensor, and the illumination module is located next to the spout cultivating assembly. The spout cultivating assembly comprises two cultivating cylinders and motors connected with the cultivating cylinders, each cultivating cylinder is divided into a plurality of cultivating boxes, bean-spout supporting plates with meshes are fixed to the side walls of the cultivating boxes, and gaps are reserved between the bean-spout supporting plates and the corresponding side walls. When bean spouts are cultivated, the control module controls the spout cultivating assembly to select and rotate the corresponding cultivating cylinders. By means of the double-cylinder rotating bean-spout cultivating machine and method, in the production process that bean spouts are cultivated in a rotating mode, seamless-connection-type production from the pre-spouting process and the rotating cultivating process to the harvesting process is automatically achieved.
Description
Technical field
The present invention relates to technical field of food production, especially the bitubular rotates sprout culturing apparatus and bean sprout culture method。
Background technology
In recent years, bud vegetable is liked because its abundant nutritive value is subject to consumer, in various bud vegetable, sturdy bean sprout more gets consumer reception, but this bean sprout needs the root growth of bud vegetable growth course is controlled, and common means are divided into physical method and chemical method, in the bud vegetable food production of safety, the use of chemicals is affected by strict control, and under prior art, luminescence method and the effect of special supply in physical method not easily reach expection。
There is part researcher to propose and improve, with rotary-type incubator, the method producing tall scrawny person, it is published on " packaging and food machinery " on phase nineteen ninety the 2nd, the process employs rotary-type incubator to suppress bean sprout root to grow downwards, suppress bean sprout root and plumular axis to be wound around mutually and produce sturdy bean sprout simultaneously, but the method need to put into rotating and culturing case with the bean or pea of presprouting, because the root system of presprouting bean or pea can hook cultivation supporting plate, can prevent bean or pea from dropping down in rotary course and cannot produce;Also there are some to produce the way of bud vegetable in an inclined manner at home, also need to wait bean to germinate and again its position is adjusted when cultivating supporting plate to root system hook;But the carrying work in this bud vegetable production process adds the workload of bud vegetable production process, and likely damage half-finished bud vegetable, produce bud vegetable to this which and cause difficulty, how to realize bud vegetable in an automated manner to produce from presprouting to rotating the seamless connection type cultivated, be a research direction。
Summary of the invention
The present invention proposes the bitubular and rotates sprout culturing apparatus and bean sprout culture method, in the production cultivating bud vegetable in a rotative pattern, can realize from presprouting in an automated manner, rotates and cultivate until the seamless connection type gathered produces。
The present invention is by the following technical solutions。
The bitubular rotates sprout culturing apparatus and bean sprout culture method, described cultivating machine includes educating bud assembly, environment components, control module and support, described bud assembly, environment components and the control module of educating is located at support place, described environment components includes ventilation module, lighting module and environmental detection sensor, described control module is connected with environment components, and according to the detection data of environmental detection sensor to educating bud assembly and environment components is controlled;Described lighting module is positioned at educates by bud assembly;Described bud assembly of educating includes two motors cultivating cylinder and be attached thereto, and described cultivation cylinder is divided into several to cultivate lattice, the sidewall of described cultivation lattice is fixed with the bud vegetable supporting plate with sieve aperture, leaves gap between bud vegetable supporting plate and supporting plate place, place sidewall;When cultivating bud vegetable, control module cultivates the cultivation situation of bud vegetable in cylinder according to two, and control module controls to educate bud assembly and selects cultivation cylinder to rotate。
Described environmental detection sensor includes temperature sensor and humidity sensor;Described ventilation module includes the adjustable hair-dryer of leaving air temp。
Described lighting module includes rotating lampshade, and the light direction of lighting module points to educates bud assembly。
Described environmental detection sensor includes temperature sensor and humidity sensor。
Described ventilation module, environmental detection sensor are located at cultivation lattice side。
Described control module stores has bud vegetable to grow to bud vegetable root system to penetrate the duration value of bud vegetable supporting plate sieve aperture, when bean sprout culture duration reaches this value, controls module and controls to educate bud assembly and start the rotary operation cultivating cylinder。
Described motor is frequency conversion motor, is provided with universal wheel bottom described support。
Described cultivating machine is cultivated bud vegetable and is divided into following steps。
A1, educate in bud assembly sow, the bud vegetable seed disinfected uniformly be laid on cultivate lattice bud vegetable supporting plate on。
A2, educate bud assembly start seed soaking operation, educate bud assembly and bud vegetable seed soaked, seed soaking duration be ten to ten six hours, control module control environment components, make the temperature stabilization of nurturing an environment at 23-27 degree。
A3, educating bud assembly and start presprouting operation, to the bud vegetable seed spray form water that immersion treatment is crossed, water spray frequency is every day three times;Control module control environment components the bud environment of educating cultivating lattice place is controlled, it is ensured that bud vegetable seed light irradiation time every day is more than 16 hours。
A4, educate bud assembly start rotate breeding operation, when the bud vegetable cultivated in lattice grow to bud vegetable root system penetrate bud vegetable supporting plate sieve aperture time, control the rotary operation that module controls to educate the startup of bud assembly to cultivating lattice place cultivation cylinder, until the bud vegetable cultivated in cylinder reaches harvesting standard。
A5, educate bud assembly perform bud vegetable recovery operations;After rotating the bud vegetable cultivated in cylinder and reaching harvesting standard, controlling the rotary operation that module controls to educate the stopping of bud assembly to this cultivation cylinder, the bud vegetable in this is gathered by operating personnel。
In the present invention, described bud assembly of educating includes two motors cultivating cylinder and be attached thereto, described cultivation cylinder is divided into several to cultivate lattice, the sidewall of described cultivation lattice is fixed with the bud vegetable supporting plate with sieve aperture, gap is left between bud vegetable supporting plate and supporting plate place, place sidewall, when cultivating bud vegetable, control module cultivates the cultivation situation of bud vegetable in cylinder according to two, and control module controls to educate bud assembly and selects cultivation cylinder to rotate;This design makes this equipment can rotate formula and cultivates bud vegetable, and the presprouting of rotary cultivation bud vegetable to rotate cultivation can seamless connection, the cultivation of bud vegetable can be carried out staged operation by two cultivation cylinders aborning, when cultivating the presprouting carrying out bud vegetable in cylinder for one, another is cultivated cylinder and then bud vegetable is rotated cultivation, the cultivation cylinder that presprouting completes is cultivated automatically into rotating, complete to rotate the cultivation cylinder cultivated then can gather, cleaning is made directly bud vegetable presprouting operation after completing, make need not move in the growth course of bud vegetable, fabric all completes to gathering in a cultivation cylinder, improve production efficiency, bud vegetable can also be avoided impaired in the process of moving。
In the present invention, described cultivation cylinder is divided into several and cultivates lattice;This design adds the application flexibility of equipment, and owing to the growth cycle of different bud vegetable is different, this design allows user to cultivate, in difference, the bud vegetable cultivating different growth periods in lattice。The final bud vegetable that takes out every other day in sequence eats。Enable users to edible to fresh variety classes bud vegetable endlessly。
In the present invention, described cultivating machine includes educating bud assembly, environment components, control module and support, described bud assembly, environment components and the control module of educating is located at support place, described environment components includes ventilation module, lighting module and environmental detection sensor, described control module is connected with environment components, and according to the detection data of environmental detection sensor to educating bud assembly and environment components is controlled;Described environmental detection sensor includes temperature sensor and humidity sensor;Described ventilation module includes the adjustable hair-dryer of leaving air temp;Described ventilation module, environmental detection sensor are located at cultivation lattice side;This design makes equipment of the present invention automatically can produce, for bud vegetable, the growing environment providing stable, it is not necessary to manual intervention。
In the present invention, described in educate bud assembly and include two and cultivate cylinders and the motors that are attached thereto, described motor is frequency conversion motor;Owing to the start-stop action of frequency conversion motor may be set to softly, it is possible to reduce cultivate cylinder and rotate impact to bud vegetable during start and stop, be conducive to the growth of bud vegetable。
In the present invention, the sidewall of described cultivation lattice is fixed with the bud vegetable supporting plate with sieve aperture, between bud vegetable supporting plate and supporting plate place, place sidewall, leaves gap;This design makes bud vegetable root system energy hooking on supporting plate, will not drop when cultivating cylinder and rotating。
In the present invention, described control module stores has bud vegetable to grow to bud vegetable root system to penetrate the duration value of bud vegetable supporting plate sieve aperture, when bean sprout culture duration reaches this value, controls module and controls to educate bud assembly and start the rotary operation cultivating cylinder;This design can allow user intuitively for the growth characteristic of different bud vegetable to control equipment, make equipment can cultivate the bud vegetable of multiple kind at the same time。
In the present invention, being provided with universal wheel bottom described support, this design enhances the mobility of equipment, it is simple to mobile equipment between different production sites。
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the present invention is described in more detail:
Accompanying drawing 1 is the schematic diagram of product of the present invention;
Accompanying drawing 2 is the schematic perspective view of product of the present invention;
In figure: 1-cultivates cylinder;2-takes a breath module;3-motor;4-humidity sensor;5-bud vegetable;6-temperature sensor;7-universal wheel;8-lighting module;9-cultivates lattice;10-support。
Detailed description of the invention
As shown in Figure 1 and Figure 2, the bitubular rotates sprout culturing apparatus and bean sprout culture method, described cultivating machine includes educating bud assembly, environment components, control module 13 and support 10, described bud assembly, environment components and the control module 13 of educating is located at support 10 place, described environment components includes ventilation module 2, lighting module 8 and environmental detection sensor, described control module 13 is connected with environment components, and according to the detection data of environmental detection sensor to educating bud assembly and environment components is controlled;Described lighting module 8 is positioned at educates by bud assembly;Described bud assembly of educating includes two motors 3 cultivating cylinder 1 and be attached thereto, and described cultivation cylinder 1 is divided into several to cultivate lattice 9, the sidewall of described cultivation lattice 9 is fixed with the bud vegetable supporting plate with sieve aperture, leaves gap between bud vegetable supporting plate and supporting plate place, place sidewall;When cultivating bud vegetable, control module cultivates the cultivation situation of bud vegetable in cylinder 1 according to two, and control module controls to educate bud assembly and selects cultivation cylinder 1 to rotate。
Described environmental detection sensor includes temperature sensor 6 and humidity sensor 4;Described ventilation module 2 includes the adjustable hair-dryer of leaving air temp。
Described lighting module 8 includes rotating lampshade, and the light direction of lighting module points to educates bud assembly。
Described environmental detection sensor includes temperature sensor 6 and humidity sensor 4。
Described ventilation module 2, environmental detection sensor are located at cultivation lattice 9 side。
The storage of described control module 13 has bud vegetable to grow to bud vegetable root system to penetrate the duration value of bud vegetable supporting plate sieve aperture, when bean sprout culture duration reaches this value, controls module 13 and controls to educate bud assembly and start the rotary operation cultivating cylinder 1。
Described motor 3 is frequency conversion motor, is provided with universal wheel 7 bottom described support 10。
Described cultivating machine is cultivated bud vegetable and is divided into following steps。
A1, educate in bud assembly sow, the bud vegetable seed disinfected uniformly be laid on cultivate lattice bud vegetable supporting plate on。
A2, educate bud assembly start seed soaking operation, educate bud assembly and bud vegetable seed soaked, seed soaking duration be ten to ten six hours, control module control environment components, make the temperature stabilization of nurturing an environment at 23-27 degree。
A3, educating bud assembly and start presprouting operation, to the bud vegetable seed spray form water that immersion treatment is crossed, water spray frequency is every day three times;Control module control environment components the bud environment of educating cultivating lattice place is controlled, it is ensured that bud vegetable seed light irradiation time every day is more than 16 hours。
A4, educate bud assembly start rotate breeding operation, when the bud vegetable cultivated in lattice grow to bud vegetable root system penetrate bud vegetable supporting plate sieve aperture time, control the rotary operation that module controls to educate the startup of bud assembly to cultivating lattice place cultivation cylinder, until the bud vegetable cultivated in cylinder reaches harvesting standard。
A5, educate bud assembly perform bud vegetable recovery operations;After rotating the bud vegetable cultivated in cylinder and reaching harvesting standard, controlling the rotary operation that module controls to educate the stopping of bud assembly to this cultivation cylinder, the bud vegetable in this is gathered by operating personnel。
Embodiment 1:
In production, user has bud vegetable to grow to bud vegetable root system to penetrate the duration value of bud vegetable supporting plate sieve aperture controlling module stores, use two to cultivate cylinder and the cultivation of bud vegetable is carried out staged operation, when cultivating the presprouting carrying out bud vegetable in cylinder for one, another is cultivated cylinder and then bud vegetable is rotated cultivation, when the cultivation duration cultivating cylinder of presprouting operation reaches preset value, the bud vegetable root system that control module is thought in this cultivation cylinder has been securable on supporting plate, therefore automatically proceeds to rotation breeding phase;Another completes to rotate the cultivation cylinder cultivated then can after gathering, having cleaned, again fabric it is made directly, it is engaged in bud vegetable presprouting operation, reach the continuous production of rotary cultivation bud vegetable, and need not move in the growth course of bud vegetable, fabric all completes to gathering in a cultivation cylinder, improves production efficiency, it is also possible to avoid bud vegetable impaired in the process of moving。
Embodiment 2:
User cultivates, in the difference cultivated in cylinder, the bud vegetable cultivating different growth periods in lattice。The final bud vegetable that takes out every other day in sequence eats。Enable users to edible to fresh variety classes bud vegetable endlessly。
Claims (8)
1. the bitubular rotates sprout culturing apparatus and bean sprout culture method, it is characterized in that: described cultivating machine includes educating bud assembly, environment components, control module and support, described bud assembly, environment components and the control module of educating is located at support place, described environment components includes ventilation module, lighting module and environmental detection sensor, described control module is connected with environment components, and according to the detection data of environmental detection sensor to educating bud assembly and environment components is controlled;Described lighting module is positioned at educates by bud assembly;Described bud assembly of educating includes two motors cultivating cylinder and be attached thereto, and described cultivation cylinder is divided into several to cultivate lattice, the sidewall of described cultivation lattice is fixed with the bud vegetable supporting plate with sieve aperture, leaves gap between bud vegetable supporting plate and supporting plate place, place sidewall;When cultivating bud vegetable, control module cultivates the cultivation situation of bud vegetable in cylinder according to two, and control module controls to educate bud assembly and selects cultivation cylinder to rotate。
2. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterised in that: described environmental detection sensor includes temperature sensor and humidity sensor;Described ventilation module includes the adjustable hair-dryer of leaving air temp。
3. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterised in that: described lighting module includes rotating lampshade, and the light direction of lighting module points to educates bud assembly。
4. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterised in that: described environmental detection sensor includes temperature sensor and humidity sensor。
5. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterised in that: described ventilation module, environmental detection sensor are located at cultivation lattice side。
6. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterized in that: described control module stores has bud vegetable to grow to bud vegetable root system to penetrate the duration value of bud vegetable supporting plate sieve aperture, when bean sprout culture duration reaches this value, control the rotary operation that module controls to educate the startup of bud assembly to cultivating cylinder。
7. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterised in that: described motor is frequency conversion motor, is provided with universal wheel bottom described support。
8. the bitubular according to claim 1 rotates sprout culturing apparatus and bean sprout culture method, it is characterised in that: described cultivating machine is cultivated bud vegetable and is divided into following steps;
A1, educate in bud assembly sow, the bud vegetable seed disinfected uniformly be laid on cultivate lattice bud vegetable supporting plate on;
A2, educate bud assembly start seed soaking operation, educate bud assembly and bud vegetable seed soaked, seed soaking duration be ten to ten six hours, control module control environment components, make the temperature stabilization of nurturing an environment at 23-27 degree;
A3, educating bud assembly and start presprouting operation, to the bud vegetable seed spray form water that immersion treatment is crossed, water spray frequency is every day three times;Control module control environment components the bud environment of educating cultivating lattice place is controlled, it is ensured that bud vegetable seed light irradiation time every day is more than 16 hours;
A4, educate bud assembly start rotate breeding operation, when the bud vegetable cultivated in lattice grow to bud vegetable root system penetrate bud vegetable supporting plate sieve aperture time, control the rotary operation that module controls to educate the startup of bud assembly to cultivating lattice place cultivation cylinder, until the bud vegetable cultivated in cylinder reaches harvesting standard;
A5, educate bud assembly perform bud vegetable recovery operations;After rotating the bud vegetable cultivated in cylinder and reaching harvesting standard, controlling the rotary operation that module controls to educate the stopping of bud assembly to this cultivation cylinder, the bud vegetable in this is gathered by operating personnel。
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116762684A (en) * | 2023-08-17 | 2023-09-19 | 湖北绿神农业科技有限公司 | System, device and method for industrially producing rape sprouts |
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CN116762684A (en) * | 2023-08-17 | 2023-09-19 | 湖北绿神农业科技有限公司 | System, device and method for industrially producing rape sprouts |
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