CN214469689U - Mobilizable solar energy arrowroot drying device - Google Patents
Mobilizable solar energy arrowroot drying device Download PDFInfo
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- CN214469689U CN214469689U CN202120279637.4U CN202120279637U CN214469689U CN 214469689 U CN214469689 U CN 214469689U CN 202120279637 U CN202120279637 U CN 202120279637U CN 214469689 U CN214469689 U CN 214469689U
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- arrowroot
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- drying device
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Abstract
The utility model provides a mobilizable solar energy arrowroot flour drying device, stoving room both sides are equipped with side printing opacity glass, and the top is equipped with top printing opacity glass, and top printing opacity glass and side printing opacity glass are articulated with the stoving room, the inside a plurality of goods shelves that are equipped with in stoving room, goods shelves are used for placing the tray, and stoving room one end is equipped with the heated warehouses, and the other end is equipped with the hydrofuge storehouse, and the heated warehouses is used for the inside heating in stoving room, and the hydrofuge storehouse is used for the hydrofuge. The utility model discloses be exactly make full use of solar energy, can guarantee simultaneously again under the prerequisite that does not have solar energy, still can work, ensure the all-weather operation of equipment. The solar energy is utilized, the purpose of saving energy is achieved, and the all-weather operation of the equipment is ensured by adopting an electric auxiliary heating mode.
Description
Technical Field
The utility model belongs to the technical field of the arrowroot flour is dried and specifically relates to a mobilizable solar energy arrowroot flour drying device is related to.
Background
In the drying of root of kudzu vine powder, generally adopt the method of air current stoving or stoving room stoving, however, these two kinds of stoving modes are all directed against that large batch root of kudzu vine powder is dried, to the drying of small batch root of kudzu vine powder, adopt above-mentioned two kinds of modes neither economical nor practical. For the small-batch drying, a drying manner is generally adopted, but the drying manner is too dependent on the weather and the sun, so that the small-batch drying of the kudzu root powder at any time and any place cannot be guaranteed. Some existing small drying devices can dry the kudzu root powder, but need more energy. Does not meet the environmental protection requirement.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a main aim at provides a mobilizable solar energy root of kudzu vine powder drying device, and neither economy, also unpractical problem are dried to air current stoving or stoving room in the drying of solution root of kudzu vine powder.
In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides a mobilizable solar energy arrowroot flour drying device, includes the stoving room, and stoving room both sides are equipped with side printing opacity glass, and the top is equipped with top printing opacity glass, and top printing opacity glass and side printing opacity glass are articulated with the stoving room, the inside a plurality of goods shelves that are equipped with of stoving room, goods shelves are used for placing the tray, and stoving room one end is equipped with the heated warehouses, and the other end is equipped with the hydrofuge storehouse, and the heated warehouses is used for the inside heating of stoving room, and the hydrofuge storehouse is used for the hydrofuge.
In the preferred scheme, be equipped with a plurality of mouths of blowing between heated warehouses and the stoving room, a plurality of mouths of blowing pass through the heating line intercommunication, heating line and the hot air device intercommunication of blowing.
In the preferred scheme, the hot air blowing device comprises a heating pipe, and a plurality of heating fans are arranged at the bottom of the heating pipe.
In the preferred scheme, be equipped with a plurality of hydrofuge mouths between stoving room and the hydrofuge storehouse, a plurality of hydrofuge mouths are through hydrofuge pipeline intercommunication.
In the preferred scheme, the moisture removing pipeline penetrates through the moisture removing bin to be communicated with an external moisture removing fan.
In the preferred scheme, the bottom of the drying room is provided with a geothermal pipe, one end of the drying room is provided with a hot water tank, and the geothermal pipe is communicated with the hot water tank.
In the preferred scheme, a solar water heater is arranged on the hot water tank and is communicated with the hot water tank.
In the preferred scheme, inside temperature sensor and the humidity transducer of being equipped with of stoving room, temperature sensor and humidity transducer are connected with the outside display screen electricity in stoving room.
In the preferred scheme, stoving room bottom is equipped with a plurality of universal wheels.
The utility model provides a mobilizable solar energy arrowroot flour drying device, the utility model discloses be exactly the make full use of solar energy, can guarantee simultaneously again not having under the prerequisite of solar energy, still can work, ensure the all-weather operation of equipment. The solar energy is utilized, the purpose of saving energy is achieved, an electric auxiliary heating mode is adopted, all-weather operation of the equipment is guaranteed, the equipment is movable and convenient to use and store, and the effects of outdoor use in the presence of the sun and no indoor use in the sun can be achieved.
Drawings
The invention will be further explained with reference to the following figures and examples:
FIG. 1 is a general block diagram of the present invention;
FIG. 2 is a front sectional view of the structure of the present invention;
FIG. 3 is a development structure view of the transparent glass of the present invention;
FIG. 4 is a structural diagram of a goods shelf inside the drying room;
FIG. 5 is a structural view of the installation of the geothermal pipe of the present invention;
in the figure: a drying room 1; a heating chamber 101; a moisture removal bin 102; an air blowing port 103; a moisture removal port 104; side light-transmitting glass 2; a top light-transmitting glass 3; a moisture exhaust fan 4; a solar water heater 5; a hot water tank 6; a shelf 7; a tray 8; a heating duct 9; a moisture removal duct 10; a geothermal pipe 11; a universal wheel 12; a heating fan 13; a heat generating tube 14; a temperature sensor 15; a humidity sensor 16.
Detailed Description
As shown in fig. 1-5, a mobilizable solar energy arrowroot flour drying device, including drying room 1, drying room 1 both sides are equipped with side printing opacity glass 2, and the top is equipped with top printing opacity glass 3, and top printing opacity glass 3 and side printing opacity glass 2 are articulated with drying room 1, drying room 1 is inside to be equipped with a plurality of goods shelves 7, and goods shelves 7 are used for placing tray 8, and drying room 1 one end is equipped with heated warehouses 101, and the other end is equipped with hydrofuge storehouse 102, and heated warehouses 101 is used for the internal heating in drying room 1, and hydrofuge storehouse 102 is used for the hydrofuge. Top printing opacity glass 3 and side printing opacity glass 2 are all installed at 1 both sides in stoving room and top, are provided with arrowroot flour goods shelves 7 in the stoving room 1. The shelf 7 can be used for placing a kudzu root powder tray 8. A circulating air duct is arranged above the goods shelf 7, one end of the air duct is provided with a circulating fan, and an outlet section of the fan is provided with an auxiliary electric heating pipe 14. The side face of the bottom of the drying room 1 is also provided with a moisture exhaust fan 4, the humidity in the glass room is detected by a humidity sensor, and after the humidity reaches the specified requirement, the moisture exhaust fan 4 starts to exhaust the moisture in the glass room out of the room. Solar energy penetrates into the glass room through the glass windows on the periphery to dry the kudzu root powder. The invention has the advantages of utilizing solar energy, reducing energy consumption, being capable of being used without solar energy, having small volume and being movable, and being convenient for small-sized and small-quantity kudzu vine root powder drying.
Sunlight passes through the glass board and gets into in glass stoving room 1, because the sealed effect in room, thereby heat the drying to material root of kudzu vine powder, effect through circulating fan, can guarantee that the temperature in the glass room is even, drive heated air circulation simultaneously, after humidity in the air reaches the numerical value of regulation, exhaust fan 4 will be opened, the air discharge of damp and hot is outdoor, because exhaust fan 4 installs in side or bottom in the device, consequently with main exhaust be damp and hot air, dry hot-air will continue to rise and get into heated air circulation, thereby carry out abundant drying with root of kudzu vine powder.
In the preferred scheme, be equipped with a plurality of mouths of blowing 103 between heating chamber 101 and stoving room 1, a plurality of mouths of blowing 103 are through heating duct 9 intercommunication, and heating duct 9 communicates with the hot air device that blows. The hot air blowing device comprises a heating pipe 14, and a plurality of heating fans 13 are arranged at the bottom of the heating pipe 14. Inside drying room 1 will be dried hot-blast to drying room 1 with the heated warehouses 101 of drying room 1 one side, dry root of kudzu vine powder tray 8, will be according to the intensity of solar energy, control the temperature of heating tube 14.
A plurality of moisture discharging ports 104 are arranged between the drying room 1 and the moisture discharging bin 102, and the moisture discharging ports 104 are communicated through a moisture discharging pipeline 10. The dehumidifying pipeline 10 passes through the dehumidifying bin 102 to be communicated with the external dehumidifying fan 4. The humidity in the glass room is detected by a humidity sensor, and when the humidity meets the specified requirement, the moisture exhaust fan 4 starts to discharge the moisture in the glass room out of the room.
In the preferred scheme, the bottom of the drying room 1 is provided with a geothermal pipe 11, one end of the drying room 1 is provided with a hot water tank 6, and the geothermal pipe 11 is communicated with the hot water tank 6. Utilize solar energy to heat stoving room 1 bottom, make the root of kudzu vine powder tray 8 of stoving room 1 bottom dry.
In the preferred scheme, a solar water heater 5 is arranged on the hot water tank 6, and the solar water heater 5 is communicated with the hot water tank 6. The solar water heater 5 circularly heats water, and the heated water is stored in the hot water tank 6, so that the heating effect of the geothermal pipe 11 is better.
In the preferred scheme, temperature sensor 15 and humidity transducer 16 are arranged inside drying room 1, and temperature sensor 15 and humidity transducer 16 are electrically connected with the display screen outside drying room 1. Temperature sensor 15 and humidity transducer 16 reaction, the inside temperature and the humidity in stoving room 1 show on the outside display screen in stoving room 1, conveniently control the emission of drying stability and humidity.
In the preferred scheme, drying room 1 bottom is equipped with a plurality of universal wheels 12. The universal wheels 12 facilitate the convenient and free movement of the drying room 1.
The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.
Claims (9)
1. The utility model provides a mobilizable solar energy arrowroot drying device, characterized by: including stoving room (1), stoving room (1) both sides are equipped with side printing opacity glass (2), and the top is equipped with top printing opacity glass (3), and top printing opacity glass (3) and side printing opacity glass (2) are articulated with stoving room (1), stoving room (1) inside is equipped with a plurality of goods shelves (7), and goods shelves (7) are used for placing tray (8), and stoving room (1) one end is equipped with heated warehouses (101), and the other end is equipped with hydrofuge storehouse (102), and heated warehouses (101) are used for hydrofuge to stoving room (1) internal heating, and hydrofuge storehouse (102) are used for hydrofuge.
2. The movable solar arrowroot drying device of claim 1, which is characterized in that: be equipped with a plurality of mouths of blowing (103) between heating chamber (101) and stoving room (1), a plurality of mouths of blowing (103) are through heating tube (9) intercommunication, heating tube (9) with blow hot air device intercommunication.
3. The movable solar arrowroot drying device of claim 2, which is characterized in that: the hot air blowing device comprises a heating pipe (14), and a plurality of heating fans (13) are arranged at the bottom of the heating pipe (14).
4. The movable solar arrowroot drying device of claim 1, which is characterized in that: a plurality of moisture discharging openings (104) are arranged between the drying room (1) and the moisture discharging bin (102), and the moisture discharging openings (104) are communicated through a moisture discharging pipeline (10).
5. The movable solar arrowroot drying device of claim 4, which is characterized in that: the dehumidifying pipeline (10) penetrates through the dehumidifying bin (102) and is communicated with an external dehumidifying fan (4).
6. The movable solar arrowroot drying device of claim 1, which is characterized in that: the drying room is characterized in that a geothermal pipe (11) is arranged at the bottom of the drying room (1), a hot water tank (6) is arranged at one end of the drying room (1), and the geothermal pipe (11) is communicated with the hot water tank (6).
7. The movable solar arrowroot drying device of claim 6, which is characterized in that: the hot water tank (6) is provided with a solar water heater (5), and the solar water heater (5) is communicated with the hot water tank (6).
8. The movable solar arrowroot drying device of claim 1, which is characterized in that: the drying room (1) is internally provided with a temperature sensor (15) and a humidity sensor (16), and the temperature sensor (15) and the humidity sensor (16) are electrically connected with a display screen outside the drying room (1).
9. The movable solar arrowroot drying device of claim 1, which is characterized in that: the bottom of the drying room (1) is provided with a plurality of universal wheels (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120279637.4U CN214469689U (en) | 2021-02-01 | 2021-02-01 | Mobilizable solar energy arrowroot drying device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120279637.4U CN214469689U (en) | 2021-02-01 | 2021-02-01 | Mobilizable solar energy arrowroot drying device |
Publications (1)
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CN214469689U true CN214469689U (en) | 2021-10-22 |
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CN202120279637.4U Active CN214469689U (en) | 2021-02-01 | 2021-02-01 | Mobilizable solar energy arrowroot drying device |
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CN (1) | CN214469689U (en) |
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2021
- 2021-02-01 CN CN202120279637.4U patent/CN214469689U/en active Active
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