CN113250277A - Magnetic refrigeration air water taking cup - Google Patents
Magnetic refrigeration air water taking cup Download PDFInfo
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- CN113250277A CN113250277A CN202110732217.1A CN202110732217A CN113250277A CN 113250277 A CN113250277 A CN 113250277A CN 202110732217 A CN202110732217 A CN 202110732217A CN 113250277 A CN113250277 A CN 113250277A
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- cup
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- bowl cover
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03B—INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
- E03B3/00—Methods or installations for obtaining or collecting drinking water or tap water
- E03B3/28—Methods or installations for obtaining or collecting drinking water or tap water from humid air
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47G—HOUSEHOLD OR TABLE EQUIPMENT
- A47G19/00—Table service
- A47G19/22—Drinking vessels or saucers used for table service
- A47G19/2205—Drinking glasses or vessels
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- Environmental & Geological Engineering (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Public Health (AREA)
- Water Supply & Treatment (AREA)
- Devices That Are Associated With Refrigeration Equipment (AREA)
Abstract
The invention discloses a magnetic refrigeration air water taking cup, and relates to air water taking equipment. The utility model provides a magnetism refrigeration air gets drinking cup, is equipped with the bowl cover at the top of cup, and the bowl cover top is equipped with the inlet port, has the fan under the inlet port, has magnetism refrigeration coil and condensation net under the fan, is equipped with bowl cover power input jack in the bowl cover outside, and bowl cover power input jack communicates with fan, magnetism refrigeration coil, is equipped with the exhaust vent at bowl cover lower part lateral wall. The magnetic refrigeration water taking cup for air intake adopts the magnetic refrigeration principle and the magnetic refrigeration material, skillfully realizes the magnetic refrigeration water taking from air, particularly adopts an automatic controller to successfully realize the automatic and maximized water taking from air, has the advantages of small volume, low noise, low power consumption, high refrigeration efficiency, long service life, no pollution and the like, and has popularization value.
Description
Technical Field
The invention relates to air water taking equipment, in particular to a magnetic refrigeration air water taking cup.
Background
Magnetic refrigeration is a refrigeration method based on the magnetocaloric effect and was first discovered by german physicists in 1880. Early on for very low temperatures. In recent years, research on magnetic refrigeration materials and magnetic refrigeration technology has made a major breakthrough, and magnetic refrigeration refrigerators and magnetic refrigeration air conditioners have been developed domestically. The magnetic refrigeration has high refrigeration coefficient, low noise, good reliability, long service life and little pollution, and can become a refrigeration mode with great development prospect. The magnetic refrigeration coil is a new material which achieves the purpose of refrigeration through repeated circulation of magnetization and demagnetization processes based on a magnetocaloric effect, and band-shaped magnetic refrigeration coils have been developed by scientific research institutes.
As the name suggests, the air water taking device is a device for producing liquid water by taking air as a water source. A large amount of water molecules exist in the air, and the water molecules in the air can be condensed into water drops after encountering cold. The inventor applies for a water dispenser for taking water from air in 18/6/2012, patent number ZL 201220285511.9, applies for a water dispenser for taking water from air in 26/11/2016, and applies for a multipurpose water dispenser for household in ZL 201621277331.0, wherein the working principle of taking water from air in the two water dispensers for taking water from air is that refrigerant circularly flows in a compressor, a condenser, a throttle valve, an evaporator and a compressor to cool the evaporator, a fan sends air to the evaporator, and water molecules in the air meet the cooled evaporator, and then some water molecules can be condensed into water drops on aluminum fins of the evaporator. Although the above two water dispenser products for taking water from air have been put on the market and have certain effects, the water dispenser for taking water from air has large volume, large noise, large power consumption and large pollution of refrigerant, and the water dispenser can not be miniaturized. In order to overcome the defects of the existing water dispenser for taking water from air and meet new market requirements, the air water taking device with small volume needs to be researched, and a magnetic refrigeration air water taking cup needs to be developed.
Disclosure of Invention
The purpose of the invention is as follows: provides a magnetic refrigeration air water taking cup.
The technical scheme of the invention is as follows: the utility model provides a drinking cup is got to magnetism refrigeration air, its characterized in that is equipped with the bowl cover at the top of cup, and the bowl cover top is equipped with the inlet port, has the fan under the inlet port, has magnetism refrigeration coil and condensation net under the fan, is equipped with bowl cover power input jack in the bowl cover outside, and bowl cover power input jack communicates with fan, magnetism refrigeration coil, is equipped with the exhaust vent at bowl cover lower part lateral wall.
Magnetism refrigeration air get drinking cup, its magnetism refrigeration coil be the banding, the condensation net is the metal mesh, magnetism refrigeration coil and condensation net stack coil, be equipped with automatic control outside the bowl cover, be equipped with inlet port temperature sensor at the inlet port, be equipped with humidity transducer outside the bowl cover, be equipped with condensation net temperature sensor at the end opening of condensation net, be connected automatic control and fan, magnetism refrigeration coil, bowl cover power input jack, inlet port temperature sensor, condensation net temperature sensor, humidity transducer with the wire.
The magnetic refrigeration air water taking cup is characterized in that the bottom of the cup body is connected with the cup base, the cup base is provided with the cup base electric switch, the power line and the power output jack, the bottom of the cup body is provided with the spot heater, and the cup handle is arranged on the cup body.
The magnetic refrigeration air water taking cup is characterized in that an air filter screen is arranged at the air inlet, a water filter screen is arranged at the mouth of the cup body, and a water filter core is arranged in the water filter screen.
The magnetic refrigeration coil is a magnetic refrigerator, when the magnetic refrigeration coil is electrified, the magnetic refrigeration coil starts to refrigerate, the temperature on the surface of the magnetic refrigeration coil and the temperature around the magnetic refrigeration coil changes, the higher the current intensity of the magnetic refrigeration coil is, the lower the temperature of the magnetic refrigeration is, and when the current intensity of the magnetic refrigeration coil is reduced, the higher the temperature of the magnetic refrigeration is.
The temperature of the air outside the cup cover is measured by the air inlet temperature sensor, the humidity of the air outside the cup cover is measured by the humidity sensor, and the temperature of the lower opening of the condensation net in the cup cover is measured by the condensation net temperature sensor.
The automatic controller is a controller made of circuit, it is by the parameter value that the air inlet temperature pick-up, condensation network temperature pick-up, humidity transducer inputs regularly, according to the parameter calculated of the enthalpy-humidity diagram calculator, adjust the rotational speed of the blower, or adjust the current intensity of the magnetic refrigeration coil, or adjust the rotational speed of the blower and current intensity of the magnetic refrigeration coil at the same time, three kinds of adjustment modes, can realize the temperature value of the condensation network temperature pick-up reaches the dew point temperature value that the enthalpy-humidity diagram expects, make the magnetic refrigeration form the best air and get the water effect.
The psychrometric chart is a chart showing the relationship between various parameters of air, and is like a dictionary, and can find other parameter values of air according to a certain parameter value of air, and particularly can find the dew point temperature of air according to the temperature and the humidity of the air. The enthalpy-humidity diagram calculator is a calculator which is specially used for calculating parameter values of the enthalpy-humidity diagram by combining software and hardware according to the principle of the enthalpy-humidity diagram. The dew point temperature is the temperature at which water vapor in the air becomes dew. For example, a dew point temperature is calculated by an psychrometric chart calculator, and when the temperature is 30 ℃ and the humidity is 90%, the dew point temperature is 28.16 ℃; when the temperature is 30 ℃ and the humidity is 80%, the dew point temperature is 26.16 ℃; when the temperature is 30 ℃ and the humidity is 70%, the dew point temperature is 23.93 ℃; when the temperature is 30 ℃ and the humidity is 60%, the dew point temperature is 21.40 ℃; when the temperature is 25 ℃ and the humidity is 60%, the dew point temperature is 16.72 ℃; when the temperature is 25 ℃ and the humidity is 70%, the dew point temperature is 19.16 ℃; when the temperature is 25 ℃ and the humidity is 80%, the dew point temperature is 21.32 ℃; when the temperature is 25 ℃ and the humidity is 90%, the dew point temperature is 23.25 ℃. An enthalpy-humidity diagram calculator is arranged in the automatic controller.
The fan is a stepless speed change fan, when the rotating speed of the fan is increased, the amount of air passing through the condensation net is increased, the temperature of the condensation net is increased, and the temperature measured by the condensation net temperature sensor is increased; similarly, when the rotating speed of the fan is reduced, the amount of air passing through the condensation net is reduced, the temperature of the condensation net is reduced, and the temperature measured by the condensation net temperature sensor is reduced.
The current intensity of the magnetic refrigeration coil is increased, the temperature of the magnetic refrigeration coil is reduced, the temperature of the condensation net is also reduced, the current intensity of the magnetic refrigeration coil is reduced, the temperature of the magnetic refrigeration coil is increased, and the temperature of the condensation net is also increased.
The condensation net can be made of aluminum alloy grids, copper grids or aluminum sheets or copper sheets, the two aluminum sheets or the two copper sheets are arranged at intervals by adding plug clamps, and the size of the plug clamps is preferably 1.5-2.5 mm. The condensing net can be coated with hydrophilic coating which is commercially available.
The temperatures of the air inlet temperature sensor, the humidity sensor and the condensation net temperature sensor are matched with the dew point temperature in real time, so that the air forms the optimal effect of condensing into water. The automatic controller can also match the temperatures of the primary air inlet temperature sensor, the humidity sensor and the condensation net temperature sensor with the dew point temperature at regular time, such as automatically matching once in 60 minutes, or automatically matching once in 30 minutes, or automatically matching once in 15 minutes. In the automatic controller, when the temperature of the condensation net temperature sensor is controlled within the range of the dew point temperature +/-2 ℃, the fan rotates at a constant speed, and the temperature is an empirical value obtained through a large number of tests. The automatic controller is provided with a switch.
The water filter is composed of a water filter screen and a water filter core, the water filter screen is made of a stainless steel net, and the water filter core is made of a PP cotton filter core.
The principle and the structure of the magnetic refrigeration air water taking cup can also be applied to similar magnetic refrigeration air water taking devices.
The magnetic refrigeration coil is a novel electromagnetic refrigeration material, is a green and environment-friendly refrigeration technology, and does not damage the ozone layer of the atmosphere and cause greenhouse effect.
The cup base is a universal electric heating base, a power cord is connected with an external power supply, and an electric switch of the cup base controls an electric heating plate in the cup body. The power output jack can be connected with the power input jack of the cup cover by a plug wire.
The invention has the beneficial effects that: the magnetic refrigeration water taking cup for air intake adopts the magnetic refrigeration principle and the new magnetic refrigeration material, skillfully realizes the magnetic refrigeration water taking from air, particularly adopts an automatic controller to successfully realize the automatic and maximized water taking from air, has the advantages of small volume, low noise, low power consumption, high refrigeration efficiency, long service life, no pollution and the like, and has popularization value.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a sectional view A-A of FIG. 1;
FIG. 3 is a control schematic of the automatic controller;
the labels in the figure are: the cup comprises a cup cover 1, an air filter screen 2, an air inlet hole 3, a fan 4, a condensation screen 5, a magnetic refrigeration coil 6, an air outlet hole 7, a water filter screen 8, a water filter element 9, a cup body 10, a cup base 11, a cup base electric switch 12, a power cord 13, a power output jack 14, a cup cover power input jack 15, a cup handle 16, an air inlet hole temperature sensor 17, a condensation screen temperature sensor 18, an automatic controller 19 and a humidity sensor 20.
Detailed Description
The present invention will be further illustrated by the following examples.
Example 1
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall.
Example 2
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall. Magnetic refrigeration coil 6 be banded, condensation net 5 is the metal mesh shape, magnetic refrigeration coil 6 and condensation net 5 stack are coiled, be equipped with automatic control 19 outside bowl cover 1, be equipped with inlet port temperature sensor 17 at inlet port 3, be equipped with humidity transducer 20 outside bowl cover 1, be equipped with condensation net temperature sensor 18 in the end opening of condensation net 5, with automatic control 19 and fan 4, magnetic refrigeration coil 6, bowl cover power input jack 15, inlet port temperature sensor 17, condensation net temperature sensor 18, humidity transducer 20 connects.
Example 3
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall. Magnetic refrigeration coil 6 be banded, condensation net 5 is the metal mesh shape, magnetic refrigeration coil 6 and condensation net 5 stack are coiled, be equipped with automatic control 19 outside bowl cover 1, be equipped with inlet port temperature sensor 17 at inlet port 3, be equipped with humidity transducer 20 outside bowl cover 1, be equipped with condensation net temperature sensor 18 in the end opening of condensation net 5, with automatic control 19 and fan 4, magnetic refrigeration coil 6, bowl cover power input jack 15, inlet port temperature sensor 17, condensation net temperature sensor 18, humidity transducer 20 connects. The bottom of the cup body 10 is connected with a cup seat 11, a cup seat electric switch 12, a power cord 13 and a power output jack 14 are arranged on the cup seat 11, a spot heater is arranged at the bottom of the cup body 10, and a cup handle 16 is arranged on the cup body 10.
Example 4
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall. The bottom of the cup body 10 is connected with a cup seat 11, a cup seat electric switch 12, a power cord 13 and a power output jack 14 are arranged on the cup seat 11, a spot heater is arranged at the bottom of the cup body 10, and a cup handle 16 is arranged on the cup body 10.
Example 5
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall. An air filter screen 2 is arranged at the air inlet 3, a water filter screen 8 is arranged at the mouth of the cup body 10, and a water filter core 9 is arranged in the water filter screen 8.
Example 6
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall. Magnetic refrigeration coil 6 be banded, condensation net 5 is the metal mesh shape, magnetic refrigeration coil 6 and condensation net 5 stack are coiled, be equipped with automatic control 19 outside bowl cover 1, be equipped with inlet port temperature sensor 17 at inlet port 3, be equipped with humidity transducer 20 outside bowl cover 1, be equipped with condensation net temperature sensor 18 in the end opening of condensation net 5, with automatic control 19 and fan 4, magnetic refrigeration coil 6, bowl cover power input jack 15, inlet port temperature sensor 17, condensation net temperature sensor 18, humidity transducer 20 connects. An air filter screen 2 is arranged at the air inlet 3, a water filter screen 8 is arranged at the mouth of the cup body 10, and a water filter core 9 is arranged in the water filter screen 8.
Example 7
Referring to fig. 1, 2 and 3, a cup is got to magnetism refrigeration air is equipped with bowl cover 1 at the top of cup 10, and bowl cover 1 top is equipped with inlet port 3, has fan 4 under inlet port 3, has magnetism refrigeration coil 6 and condensation net 5 at fan 4, is equipped with bowl cover power input jack 15 in bowl cover 1 outside, and bowl cover power input jack 15 communicates with fan 4, magnetism refrigeration coil 6, is equipped with exhaust vent 7 at bowl cover 1 lower part lateral wall. Magnetic refrigeration coil 6 be banded, condensation net 5 is the metal mesh shape, magnetic refrigeration coil 6 and condensation net 5 stack are coiled, be equipped with automatic control 19 outside bowl cover 1, be equipped with inlet port temperature sensor 17 at inlet port 3, be equipped with humidity transducer 20 outside bowl cover 1, be equipped with condensation net temperature sensor 18 in the end opening of condensation net 5, with automatic control 19 and fan 4, magnetic refrigeration coil 6, bowl cover power input jack 15, inlet port temperature sensor 17, condensation net temperature sensor 18, humidity transducer 20 connects. The bottom of the cup body 10 is connected with a cup seat 11, a cup seat electric switch 12, a power cord 13 and a power output jack 14 are arranged on the cup seat 11, a spot heater is arranged at the bottom of the cup body 10, and a cup handle 16 is arranged on the cup body 10. An air filter screen 2 is arranged at the air inlet 3, a water filter screen 8 is arranged at the mouth of the cup body 10, and a water filter core 9 is arranged in the water filter screen 8.
The magnetic refrigeration coil 6 is a magnetic refrigerator, when the magnetic refrigeration coil 6 is electrified, the magnetic refrigeration coil starts to refrigerate, the temperature on the surface and around the magnetic refrigeration coil changes, the higher the current intensity of the magnetic refrigeration coil 6 is, the lower the magnetic refrigeration temperature is, and when the current intensity of the magnetic refrigeration coil 6 is reduced, the higher the magnetic refrigeration temperature is. The air inlet hole temperature sensor 17 measures the temperature of the air outside the cup cover 1, the humidity sensor 20 measures the humidity of the air outside the cup cover 1, and the condensation net temperature sensor 18 measures the temperature of the lower opening of the condensation net 5 in the cup cover 1. The automatic controller 19 is a controller made of a circuit, and is composed of parameter values input by the air inlet temperature sensor 17, the condensation net temperature sensor 18 and the humidity sensor 20 at regular time, and the rotating speed of the fan 4 or the current intensity of the magnetic refrigeration coil 6 or the rotating speed of the fan 4 and the current intensity of the magnetic refrigeration coil 6 are adjusted simultaneously according to the calculated parameters of the enthalpy-humidity diagram calculator, so that the temperature value of the condensation net temperature sensor 18 can reach the dew point temperature value expected by the enthalpy-humidity diagram, and the optimal air water taking effect can be formed by the magnetic refrigeration. The psychrometric chart is a chart showing the relationship between various parameters of air, and is like a dictionary, and can find other parameter values of air according to a certain parameter value of air, and particularly can find the dew point temperature of air according to the temperature and the humidity of the air. The enthalpy-humidity diagram calculator is a calculator which is specially used for calculating parameter values of the enthalpy-humidity diagram by combining software and hardware according to the principle of the enthalpy-humidity diagram. The dew point temperature is the temperature at which water vapor in the air becomes dew. For example, a dew point temperature is calculated by an psychrometric chart calculator, and when the temperature is 30 ℃ and the humidity is 90%, the dew point temperature is 28.16 ℃; when the temperature is 30 ℃ and the humidity is 80%, the dew point temperature is 26.16 ℃; when the temperature is 30 ℃ and the humidity is 70%, the dew point temperature is 23.93 ℃; when the temperature is 30 ℃ and the humidity is 60%, the dew point temperature is 21.40 ℃; when the temperature is 25 ℃ and the humidity is 60%, the dew point temperature is 16.72 ℃; when the temperature is 25 ℃ and the humidity is 70%, the dew point temperature is 19.16 ℃; when the temperature is 25 ℃ and the humidity is 80%, the dew point temperature is 21.32 ℃; when the temperature is 25 ℃ and the humidity is 90%, the dew point temperature is 23.25 ℃. An psychrometric chart calculator is provided in the automatic controller 19. The fan 4 is a stepless speed change fan, when the rotating speed of the fan 4 is increased, the amount of air passing through the condensation net 5 is increased, the temperature of the condensation net 5 is increased, and the temperature measured by the condensation net temperature sensor 18 is increased; similarly, when the rotation speed of the fan 4 is reduced, the amount of air passing through the condensation net 5 is reduced, the temperature of the condensation net 5 is reduced, and the temperature measured by the condensation net temperature sensor 18 is reduced. The current intensity of the magnetic refrigeration coil 6 increases, the temperature of the magnetic refrigeration coil 6 decreases, the temperature of the condensation net 5 also decreases, the current intensity of the magnetic refrigeration coil 6 decreases, the temperature of the magnetic refrigeration coil 6 increases, and the temperature of the condensation net 5 also increases. The condensation net 5 can be made of aluminum alloy grids, copper grids or aluminum sheets or copper sheets, and the two aluminum sheets or the two copper sheets are arranged at intervals by adding plug clamps, wherein the size of the plug clamps is preferably 1.5-2.5 mm. The condensing net 5 may be coated with a hydrophilic coating, which is commercially available. The temperatures of the air inlet temperature sensor 17, the humidity sensor 20 and the condensation net temperature sensor 18 are matched with the dew point temperature in real time, so that the air forms the optimal effect of condensing water. The automatic controller 19 can also perform the matching of the temperature of the primary air inlet hole temperature sensor 17, the humidity sensor 20 and the condensation net temperature sensor 18 with the dew point temperature at regular time, such as the automatic matching once in 60 minutes, or the automatic matching once in 30 minutes, or the automatic matching once in 15 minutes. In the automatic controller 19, when the temperature of the condensation net temperature sensor 18 is controlled within the range of the dew point temperature of +/-2 ℃, the fan 4 is enabled to rotate at a constant speed, which is an empirical value obtained through a large number of experiments. The automatic controller 19 is provided with a switch. The water filter screen 8 and the water filter core 9 form a water filter, the water filter screen 8 is made of stainless steel mesh, and the water filter core 9 is made of PP cotton filter core. The cup holder 11 is a general electric heating holder, the power cord 13 is connected with an external power supply, and the electric switch 12 of the cup holder controls the electric heating plate in the cup body 10. The power supply output jack 14 can be connected with the cup cover power supply input jack 15 by a plug wire.
Claims (5)
1. The utility model provides a cup is got to magnetism refrigeration air, a serial communication port, be equipped with bowl cover (1) at the top of cup (10), bowl cover (1) top is equipped with inlet port (3), be equipped with fan (4) under inlet port (3), be equipped with magnetism refrigeration coil (6) and condensation net (5) under fan (4), be equipped with bowl cover power input jack (15) in bowl cover (1) outside, bowl cover power input jack (15) and fan (4), magnetism refrigeration coil (6) intercommunication, be equipped with exhaust vent (7) at bowl cover (1) lower part lateral wall.
2. The magnetic refrigeration air water taking cup as claimed in claim 1, wherein the magnetic refrigeration coil (6) is in a belt shape, the condensation net (5) is in a metal net shape, the magnetic refrigeration coil (6) and the condensation net (5) are overlapped and coiled, an automatic controller (19) is arranged outside the cup cover (1), an air inlet hole temperature sensor (17) is arranged on the air inlet hole (3), a humidity sensor (20) is arranged outside the cup cover (1), a condensation net temperature sensor (18) is arranged at the lower opening of the condensation net (5), and the automatic controller (20) is connected with the fan (4), the magnetic refrigeration coil (6), the cup cover power input jack (15), the air inlet hole temperature sensor (17), the condensation net temperature sensor (18) and the humidity sensor (20) through wires.
3. A magnetic refrigeration air-taking cup as claimed in claim 1 or 2, characterized in that the bottom of the cup body (10) is connected with a cup base (11), the cup base (11) is provided with a cup base electric switch (12), a power cord (13) and a power output jack (14), the bottom of the cup body (10) is provided with a point heater, and the cup body (10) is provided with a cup handle (16).
4. A magnetic refrigeration air water taking cup according to claim 1 or 2, characterized in that an air filter screen (2) is arranged at the air inlet (3), a water filter screen (8) is arranged at the mouth of the cup body (10), and a water filter core (9) is arranged in the water filter screen (8).
5. A magnetic refrigeration air water taking cup as claimed in claim 4, characterized in that the bottom of the cup body (10) is connected with a cup base (11), a cup base electric switch (12), a power cord (13) and a power output jack (14) are arranged on the cup base (11), a point heater is arranged at the bottom of the cup body (10), and a cup handle (16) is arranged on the cup body (10).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113925350A (en) * | 2021-11-02 | 2022-01-14 | 重庆空气水智能科技研究院 | Automatic drinking water selling device by taking water from air |
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2021
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113925350A (en) * | 2021-11-02 | 2022-01-14 | 重庆空气水智能科技研究院 | Automatic drinking water selling device by taking water from air |
CN113925350B (en) * | 2021-11-02 | 2024-06-07 | 重庆空气水智能科技研究院 | Automatic drinking water selling device for taking water from air |
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