CN106836377B - Multifunctional semiconductor water making system - Google Patents
Multifunctional semiconductor water making system Download PDFInfo
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- CN106836377B CN106836377B CN201710028692.4A CN201710028692A CN106836377B CN 106836377 B CN106836377 B CN 106836377B CN 201710028692 A CN201710028692 A CN 201710028692A CN 106836377 B CN106836377 B CN 106836377B
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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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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03B—INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
- E03B11/00—Arrangements or adaptations of tanks for water supply
- E03B11/02—Arrangements or adaptations of tanks for water supply for domestic or like local water supply
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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
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/152—Water filtration
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- Devices That Are Associated With Refrigeration Equipment (AREA)
Abstract
The invention discloses a multifunctional semiconductor water-making system, which comprises a water-producing tank body, a tank body shell and a controller, wherein a cold water insulation box and a cold water insulation box are arranged at the lower end part of the water-producing tank body; the middle position of a water producing cavity of the water producing box body is provided with a region separating vertical plate, the region separating vertical plate separates the water producing cavity into a low temperature region and a low temperature region, the left side wall of the water producing cavity is provided with a first semiconductor refrigerator, the region separating vertical plate is provided with a second semiconductor refrigerator, the right side wall of the water producing cavity is provided with a third semiconductor refrigerator, the left side wall of the hot water heat preservation box is provided with a fourth semiconductor refrigerator, the heat preservation partition plate between the hot water heat preservation box and the cold water heat preservation box is provided with a fifth semiconductor refrigerator, and the right side wall of the cold water heat preservation box is provided with a sixth semiconductor refrigerator. The invention has the advantages of novel structural design, multiple functions, convenient use, energy conservation, environmental protection and capability of effectively saving water resources.
Description
Technical Field
The invention relates to the technical field of water making equipment, in particular to a multifunctional semiconductor water making system.
Background
For the existing water drinking devices, in order to facilitate users to take cold water and hot water, the water drinking devices are generally configured with corresponding heating devices and refrigeration devices, that is, the water is heated by the heating devices to generate hot water, and the water is refrigerated by the refrigeration devices to generate cold water.
It should be further noted that the existing drinking water equipment can only heat or refrigerate the existing water, and does not have the automatic water making function.
Disclosure of Invention
The invention aims to provide a multifunctional semiconductor water preparation system aiming at the defects of the prior art, which has the advantages of novel structural design, multiple functions, convenient use, energy conservation, environmental protection and effective water resource saving.
In order to achieve the above object, the present invention is achieved by the following technical solutions.
A multifunctional semiconductor water making system comprises a water producing tank body, wherein a hot water insulation tank and a cold water insulation tank which is positioned on the right end side of the hot water insulation tank and is separated from the hot water insulation tank through an insulation partition plate are arranged at the lower end part of the water producing tank body;
a box body shell is arranged on the periphery of the water production box body, the inner surface of the box body shell and the outer surface of the water production box body are arranged at intervals, a heat dissipation air duct is formed between the inner surface of the box body shell and the outer surface of the water production box body, a heat dissipation air inlet and a heat dissipation air outlet which are respectively communicated with the heat dissipation air duct are arranged between the lower end edge part of the box body shell and the lower end edge part of the water production box body, and a heat dissipation fan which supplies air outwards is arranged at the heat dissipation air outlet;
the middle position of the water producing cavity is provided with a vertically arranged area separating vertical plate, the area separating vertical plate divides the water producing cavity into a high-temperature area positioned at the left end side of the area separating vertical plate and a low-temperature area positioned at the right end side of the area separating vertical plate, the high-temperature area is communicated with the low-temperature area, the left side wall of the water producing cavity is provided with a first semiconductor refrigerator, the area separating vertical plate is provided with a second semiconductor refrigerator, and the right side wall of the water producing cavity is provided with a third semiconductor refrigerator; the hot surface of the first semiconductor refrigerator is provided with a first radiating fin extending into a high-temperature area of the water-producing chamber, and the cold surface of the first semiconductor refrigerator is provided with a first cold guide fin extending into the radiating air duct; the hot surface of the second semiconductor refrigerator is provided with a second radiating fin extending into the high-temperature area of the water producing cavity, and the cold surface of the second semiconductor refrigerator is provided with a second cold guide fin extending into the low-temperature area of the water producing cavity; the cold surface of the third semiconductor refrigerator is provided with a third cold guide sheet extending into the low-temperature area of the water-producing chamber, and the hot surface of the third semiconductor refrigerator is provided with a third radiating fin extending into the radiating air duct;
the left side wall of the hot water insulation box is provided with a fourth semiconductor refrigerator, a heat insulation partition plate between the hot water insulation box and the cold water insulation box is provided with a fifth semiconductor refrigerator, and the right side wall of the cold water insulation box is provided with a sixth semiconductor refrigerator; the hot surface of the fourth semiconductor refrigerator is provided with a fourth heat dissipation sheet extending into the hot water containing cavity, and the cold surface of the fourth semiconductor refrigerator is provided with a fourth cold guide sheet extending into the heat dissipation air duct; the hot surface of the fifth semiconductor refrigerator is provided with a fifth radiating fin extending into the hot water containing cavity, and the cold surface of the fifth semiconductor refrigerator is provided with a fifth cold guide fin extending into the cold water containing cavity; the cold surface of the sixth semiconductor refrigerator is provided with a sixth cold guide sheet extending into the cold water containing cavity, and the hot surface of the sixth semiconductor refrigerator is provided with a sixth radiating fin extending into the radiating air duct;
the multifunctional semiconductor water system is provided with a controller, and a cooling fan, a first semiconductor refrigerator, a second semiconductor refrigerator, a third semiconductor refrigerator, a fourth semiconductor refrigerator, a fifth semiconductor refrigerator and a sixth semiconductor refrigerator are respectively and electrically connected with the controller.
Wherein, a water level sensor is arranged in the cold water insulation can and is electrically connected with the controller.
Wherein, the high temperature area is provided with a first temperature sensor which is electrically connected with the controller.
Wherein, the low temperature region is provided with a second temperature sensor which is electrically connected with the controller.
And a third temperature sensor is arranged in the hot water containing cavity and is electrically connected with the controller.
And a fourth temperature sensor is arranged in the cold water containing cavity and is electrically connected with the controller.
And water quality electrolyzers are respectively embedded in the cold water containing cavity and the hot water containing cavity and are respectively electrically connected with the controller.
The top of the water production box body is provided with a water production air inlet which is communicated with the heat dissipation air duct and the water production cavity, and a filter is arranged at the water production air inlet.
And a circulating fan is arranged in the water producing cavity and electrically connected with the controller.
The invention has the beneficial effects that: the invention relates to a multifunctional semiconductor water making system, which comprises a water producing tank body, a tank body shell and a controller, wherein cold and cold water insulation boxes are arranged at the lower end part of the water producing tank body, a hot water containing cavity is arranged in the hot water insulation box, a cold water containing cavity is arranged in the cold water insulation box, a water producing cavity is arranged on the upper end side of the hot and hot water insulation box in the water producing tank body, a hot water tank water inlet hole is formed in the upper surface of the hot water insulation box, a cold water tank water inlet hole is formed in the upper surface of the cold water insulation box, the upper surface of the cold water insulation box is positioned on the upper end side of the upper surface of the hot water insulation box, the hot water insulation box is provided with a hot water taking valve, and the cold water insulation box is provided with a cold water taking valve; a heat dissipation air channel is formed between the box body shell and the water production box body, and a heat dissipation fan is arranged at a heat dissipation air outlet of the heat dissipation air channel; the middle position of the water producing cavity is provided with a region separating vertical plate, the region separating vertical plate separates the water producing cavity into a high temperature region and a low temperature region, the left side wall of the water producing cavity is provided with a first semiconductor refrigerator, the region separating vertical plate is provided with a second semiconductor refrigerator, the right side wall of the water producing cavity is provided with a third semiconductor refrigerator, the left side wall of the hot water heat preservation box is provided with a fourth semiconductor refrigerator, the heat preservation partition plate between the hot water heat preservation box and the cold water heat preservation box is provided with a fifth semiconductor refrigerator, and the right side wall of the cold water heat preservation box is provided with a sixth semiconductor refrigerator. Through the structural design, the multifunctional water-saving water dispenser has the advantages of novel structural design, multiple functions, convenience in use, energy conservation, environmental friendliness and capability of effectively saving water resources.
Drawings
The invention will be further described with reference to the drawings to which, however, the embodiments shown in the drawings do not constitute any limitation.
FIG. 1 is a schematic structural diagram of the present invention.
In fig. 1, included are:
1-Water producing tank 11-Hot Water insulation Box
111-hot water containing chamber 112-hot water tank inlet hole
12-Cold Water thermal insulation tank 121-Cold Water containing Chamber
122-cold water tank inlet hole 13-heat insulation baffle
14-Water producing Chamber 141-high temperature zone
142-Low temperature region 15-region partition riser
21-hot water intake valve 22-cold water intake valve
3-case body case 41-heat dissipation air flue
42-Heat dissipation air inlet 43-Heat dissipation air outlet
5-radiator fan 61-first semiconductor refrigerator
611-first heat sink 612-first cold conducting fin
62-second semiconductor cooler 621-second Heat sink
622-second cold guide sheet 63-third semiconductor refrigerator
631-third Heat sink 632-third Cold guide
64-fourth semiconductor refrigerator 641-fourth heat dissipation sheet
642 fourth cold guide sheet 65 fifth semiconductor refrigerator
651-fifth Fin 652-fifth Cold conductor
66-sixth semiconductor cooler 661-sixth heat sink
662 sixth cold-conducting fin 7 water level sensor
81-first temperature sensor 82-second temperature sensor
83-third temperature sensor 84-fourth temperature sensor
9-water quality electrolyzer 100-filter
110-water quality filter.
Detailed Description
The present invention will be described below with reference to specific embodiments.
As shown in FIG. 1, a multifunctional semiconductor water preparation system comprises a water production tank 1, a hot water insulation tank 11 is arranged at the lower end part of the water production tank 1, a cold water insulation tank 12 is arranged at the right end side of the hot water insulation tank 11 and is separated from the hot water insulation tank 11 through an insulation partition 13, a hot water containing cavity 111 is arranged inside the hot water insulation tank 11, a cold water containing cavity 121 is arranged inside the cold water insulation tank 12, a water production cavity 14 is arranged inside the water production tank 1 at the upper end side of the cold water insulation tank 12 and the hot water insulation tank 11, a hot water tank inlet 112 communicating the hot water containing cavity 111 with the water production cavity 14 is arranged on the upper surface of the hot water insulation tank 11, a cold water tank inlet 122 communicating the cold water containing cavity 121 with the water production cavity 14 is arranged on the upper surface of the cold water insulation tank 12, the upper surface of the cold water insulation tank 12 is arranged at the upper end side of the upper surface of the hot water insulation tank 11, the hot water insulation tank 11 is provided with a hot water intake valve 21, and the cold water insulation tank 12 is provided with a cold water intake valve 22.
Wherein, the periphery of the water production tank body 1 is provided with a tank body shell 3, the inner surface of the tank body shell 3 and the outer surface of the water production tank body 1 are arranged at intervals, a heat dissipation air duct 41 is formed between the inner surface of the tank body shell 3 and the outer surface of the water production tank body 1, a heat dissipation air inlet 42 and a heat dissipation air outlet 43 which are respectively communicated with the heat dissipation air duct 41 are arranged between the lower end edge part of the tank body shell 3 and the lower end edge part of the water production tank body 1, and the heat dissipation air outlet 43 is provided with a heat dissipation fan 5 which supplies air outwards.
Furthermore, a vertically-arranged area partition riser 15 is installed in the middle of the water production chamber 14, the area partition riser 15 partitions the water production chamber 14 into a high-temperature area 141 located on the left end side of the area partition riser 15 and a low-temperature area 142 located on the right end side of the area partition riser 15, the high-temperature area 141 is communicated with the low-temperature area 142, a first semiconductor refrigerator 61 is installed on the left side wall of the water production chamber 14, a second semiconductor refrigerator 62 is installed on the area partition riser 15, and a third semiconductor refrigerator 63 is installed on the right side wall of the water production chamber 14; the hot surface of the first semiconductor refrigerator 61 is provided with a first cooling fin 611 extending into the high temperature area 141 of the water generating chamber 14, and the cold surface of the first semiconductor refrigerator 61 is provided with a first cold guide fin 612 extending into the cooling air duct 41; the hot side of the second semiconductor refrigerator 62 is provided with a second heat sink 621 extending into the high temperature region 141 of the water production chamber 14, and the cold side of the second semiconductor refrigerator 62 is provided with a second cold guide 622 extending into the low temperature region 142 of the water production chamber 14; the cold side of the third semiconductor refrigerator 63 is provided with a third cold guiding fin 632 extending into the low temperature area 142 of the water producing chamber 14, and the hot side of the third semiconductor refrigerator 63 is provided with a third heat dissipating fin 631 extending into the heat dissipating air duct 41.
Furthermore, a fourth semiconductor refrigerator 64 is arranged on the left side wall of the hot water insulation box 11, a fifth semiconductor refrigerator 65 is arranged on the insulation partition plate 13 between the hot water insulation box 11 and the cold water insulation box 12, and a sixth semiconductor refrigerator 66 is arranged on the right side wall of the cold water insulation box 12; the hot surface of the fourth semiconductor refrigerator 64 is provided with a fourth heat dissipation sheet 641 extending into the hot water containing chamber 111, and the cold surface of the fourth semiconductor refrigerator 64 is provided with a fourth cold guide sheet 642 extending into the heat dissipation air duct 41; the hot surface of the fifth semiconductor cooler 65 is provided with a fifth heat sink 651 extending into the hot water containing chamber 111, and the cold surface of the fifth semiconductor cooler 65 is provided with a fifth cold guide 652 extending into the cold water containing chamber 121; the cold surface of the sixth semiconductor cooler 66 is provided with a sixth cold guiding plate 662 extending into the cold water holding chamber 121, and the hot surface of the sixth semiconductor cooler 66 is provided with a sixth heat dissipating fin 661 extending into the heat dissipating air duct 41.
It should be further noted that the multifunctional semiconductor water system is equipped with a controller, and the cooling fan 5, the first semiconductor refrigerator 61, the second semiconductor refrigerator 62, the third semiconductor refrigerator 63, the fourth semiconductor refrigerator 64, the fifth semiconductor refrigerator 65 and the sixth semiconductor refrigerator 66 are electrically connected with the controller respectively.
In the process of making water by using the water production tank body 1, the controller controls the first semiconductor refrigerator 61, the second semiconductor refrigerator 62 and the third semiconductor refrigerator 63 to be started; the heat of the hot surface of the first semiconductor refrigerator 61 is conducted to the high temperature area 141 of the water generating chamber 14 through the first heat sink 611, and the cold of the cold surface of the first semiconductor refrigerator 61 is conducted to the heat dissipation air duct 41 through the first cold conducting fin 612; the heat of the hot side of the second semiconductor refrigerator 62 is conducted to the high temperature area 141 of the water generating chamber 14 through the second heat sink 621, and the cold of the cold side of the second semiconductor refrigerator 62 is conducted to the low temperature area 142 of the water generating chamber 14 through the second cold conducting fin 622; the cold quantity of the cold surface of the third semiconductor refrigerator 63 is conducted to the low temperature region 142 of the water producing chamber 14 through the third cold guide sheet 632, and the heat quantity of the hot surface of the third semiconductor refrigerator 63 is conducted to the heat dissipation air duct 41 through the third heat dissipation sheet 631; under the combined action of the first semiconductor refrigerator 61, the second semiconductor refrigerator 62 and the third semiconductor refrigerator 63, the high temperature area 141 of the water producing chamber 14 forms a high temperature environment, the low temperature area 142 of the water producing chamber 14 forms a low temperature environment, air in the high temperature area 141 automatically moves towards the low temperature area 142 due to the temperature difference between the high temperature environment and the low temperature environment, moisture carried in the air is condensed into water drops after contacting the second cold guide sheet 622 of the second semiconductor refrigerator 62 and the second cold guide sheet 632 of the third semiconductor refrigerator 63, and the water drops drop downwards and enter the cold water holding chamber 121 of the cold water insulation tank 12 through the cold water tank water inlet hole 122 of the cold water insulation tank 12.
It should be further noted that, during the operation of the present invention, the controller controls the fourth semiconductor refrigerator 64, the fifth semiconductor refrigerator 65 and the sixth semiconductor refrigerator 66 to be started, and the fourth heat dissipation fin 641 of the fourth semiconductor refrigerator 64 and the fifth heat dissipation fin 651 of the fifth semiconductor refrigerator 65 respectively conduct heat to the water in the hot water insulation box 11, so as to heat the water in the hot water holding chamber 111, thereby realizing automatic hot water production; similarly, the fifth cold guide sheet 652 of the fifth semiconductor refrigerator 65 and the sixth cold guide sheet 662 of the sixth semiconductor refrigerator 66 conduct the cold energy to the water in the cold water thermal insulation box 12, so as to refrigerate the water in the cold water holding chamber 121, thereby automatically producing cold water. During the use process of the present invention, a user can use the hot water in the hot water containing chamber 111 through the hot water intake valve 21, and can use the cold water in the cold water containing chamber 121 through the cold water intake valve 22. To be further explained, the water quality filter 110 is respectively installed at the water inlet hole 112 of the hot water tank and the water inlet hole 122 of the cold water tank, and in the working process of the present invention, the water quality filter 110 can filter the water entering the hot water containing chamber 111 and the cold water chamber 121.
In the process of automatically producing hot water and cold water, the controller controls the cooling fan 5 to start, and under the driving action of the cooling fan 5, outside air enters the cooling air duct 41 through the cooling air inlet 42 and is finally discharged through the cooling air outlet 43; in the process that the air passes through the heat dissipation air duct 41, the air can effectively and quickly take away the heat dissipated by the heat dissipation fins extending into the heat dissipation air duct 41, and therefore the efficiency of the semiconductor refrigerator is guaranteed.
According to the above situation, the automatic water-saving water heater can automatically produce hot water and cold water through the structural design, namely the automatic water-saving water heater has the advantages of novel structural design, multiple functions, convenience in use, energy conservation, environmental friendliness and capability of effectively saving water resources.
As shown in fig. 1, a water level sensor 7 is installed in the cold water thermal insulation tank 12, and the water level sensor 7 is electrically connected to the controller. Wherein, the water level sensor 7 of the present invention may be a float water level switch. In the operation of the present invention, when the level of the cold water in the cold water holding chamber 121 reaches the level of the water level sensor 7, the controller controls the first semiconductor refrigerator 61, the second semiconductor refrigerator 62 and the third semiconductor refrigerator 63 to stop the operation of the water producing operation.
In a preferred embodiment, as shown in fig. 1, the high temperature area 141 is provided with a first temperature sensor 81, and the first temperature sensor 81 is electrically connected with the controller; the low-temperature area 142 is provided with a second temperature sensor 82, and the second temperature sensor 82 is electrically connected with the controller; a third temperature sensor 83 is arranged in the hot water containing chamber 111, and the third temperature sensor 83 is electrically connected with the controller; the fourth temperature sensor 84 is arranged in the cold water containing chamber 121, and the fourth temperature sensor 84 is electrically connected with the controller. During the working process of the invention, the first temperature sensor 81 monitors the temperature of the high temperature area 141 of the water producing chamber 14 in real time, the second temperature sensor 82 monitors the temperature of the low temperature area 142 of the water producing chamber 14 in real time, the third temperature sensor 83 monitors the temperature of hot water in real time, and the fourth temperature sensor 84 monitors the temperature of cold water in real time.
In a preferred embodiment, as shown in fig. 1, the water electrolyzers 9 are respectively embedded in the cold water containing chamber 121 and the hot water containing chamber 111, and the water electrolyzers 9 are electrically connected to the controller. In the working process of the invention, the water quality electrolyzer 9 can effectively carry out electrolysis treatment on cold water and hot water and has the function of enhancing water quality.
As a preferred embodiment, as shown in fig. 1, a water-producing air inlet communicating the heat-dissipating air duct 41 and the water-producing chamber 14 is formed at the top of the water-producing tank 1, and a filter 100 is installed at the water-producing air inlet. In the working process of the invention, the water producing air inlet is beneficial for the external water-containing air to enter the water producing chamber 14, and the filter 100 can filter the air entering the water producing chamber 14 so as to ensure the water quality of hot water and cold water.
In a preferred embodiment, as shown in fig. 1, a circulation fan 101 is installed in the water producing chamber 14, and the circulation fan 101 is electrically connected to the controller. In the working process of the present invention, the circulating fan 101 can promote the air flow in the water producing chamber 14, so as to effectively avoid the phenomenon of freezing of the water produced by the second cold guiding plate 622 and the third cold guiding plate 632.
The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.
Claims (9)
1. A multifunctional semiconductor water system is characterized in that: comprises a water production tank body (1), a hot water insulation tank (11) and a cold water insulation tank (12) which is positioned at the right end side of the hot water insulation tank (11) and is separated from the hot water insulation tank (11) through an insulation partition plate (13) are arranged at the lower end part of the water production tank body (1), a hot water containing cavity (111) is arranged inside the hot water insulation tank (11), a cold water containing cavity (121) is arranged inside the cold water insulation tank (12), a water production cavity (14) is arranged at the upper end side of the hot water insulation tank (11), a hot water tank inlet hole (112) communicating the hot water containing cavity (111) with the water production cavity (14) is arranged on the upper surface of the hot water insulation tank (11), a cold water tank inlet hole (122) communicating the cold water containing cavity (121) with the water production cavity (14) is arranged on the upper surface of the cold water insulation tank (12), the upper surface of the cold water insulation box (12) is positioned at the upper end side of the upper surface of the hot water insulation box (11), the hot water insulation box (11) is provided with a hot water intake valve (21), and the cold water insulation box (12) is provided with a cold water intake valve (22);
a box body shell (3) is arranged on the periphery of the water production box body (1), the inner surface of the box body shell (3) and the outer surface of the water production box body (1) are arranged at intervals, a heat dissipation air duct (41) is formed between the inner surface of the box body shell (3) and the outer surface of the water production box body (1), a heat dissipation air inlet (42) and a heat dissipation air outlet (43) which are respectively communicated with the heat dissipation air duct (41) are arranged between the lower end edge part of the box body shell (3) and the lower end edge part of the water production box body (1), and a heat dissipation fan (5) for supplying air outwards is arranged at the heat dissipation air outlet (43);
the middle position of the water producing chamber (14) is provided with a vertically arranged area separating vertical plate (15), the area separating vertical plate (15) divides the water producing chamber (14) into a high temperature area (141) positioned at the left end side of the area separating vertical plate (15) and a low temperature area (142) positioned at the right end side of the area separating vertical plate (15), the high temperature area (141) is communicated with the low temperature area (142), the left side wall of the water producing chamber (14) is provided with a first semiconductor refrigerator (61), the area separating vertical plate (15) is provided with a second semiconductor refrigerator (62), and the right side wall of the water producing chamber (14) is provided with a third semiconductor refrigerator (63); the hot surface of the first semiconductor refrigerator (61) is provided with a first cooling fin (611) extending into the high-temperature area (141) of the water-producing chamber (14), and the cold surface of the first semiconductor refrigerator (61) is provided with a first cold guide fin (612) extending into the cooling air duct (41); the hot surface of the second semiconductor refrigerator (62) is provided with a second radiating fin (621) extending into the high-temperature area (141) of the water production chamber (14), and the cold surface of the second semiconductor refrigerator (62) is provided with a second cold guide fin (622) extending into the low-temperature area (142) of the water production chamber (14); the cold surface of the third semiconductor refrigerator (63) is provided with a third cold guide sheet (632) extending into the low-temperature area (142) of the water production chamber (14), and the hot surface of the third semiconductor refrigerator (63) is provided with a third radiating fin (631) extending into the radiating air duct (41);
a fourth semiconductor refrigerator (64) is arranged on the left side wall of the hot water insulation box (11), a fifth semiconductor refrigerator (65) is arranged on a heat insulation partition plate (13) between the hot water insulation box (11) and the cold water insulation box (12), and a sixth semiconductor refrigerator (66) is arranged on the right side wall of the cold water insulation box (12); the hot surface of the fourth semiconductor refrigerator (64) is provided with a fourth heat dissipation sheet (641) extending into the hot water containing cavity (111), and the cold surface of the fourth semiconductor refrigerator (64) is provided with a fourth cold guide sheet (642) extending into the heat dissipation air duct (41); the hot surface of the fifth semiconductor refrigerator (65) is provided with a fifth radiating fin (651) extending into the hot water containing chamber (111), and the cold surface of the fifth semiconductor refrigerator (65) is provided with a fifth cold guide fin (652) extending into the cold water containing chamber (121); a sixth cold guide sheet (662) extending into the cold water containing chamber (121) is arranged on the cold surface of the sixth semiconductor refrigerator (66), and a sixth radiating fin (661) extending into the radiating air duct (41) is arranged on the hot surface of the sixth semiconductor refrigerator (66);
the multifunctional semiconductor water system is provided with a controller, and a cooling fan (5), a first semiconductor refrigerator (61), a second semiconductor refrigerator (62), a third semiconductor refrigerator (63), a fourth semiconductor refrigerator (64), a fifth semiconductor refrigerator (65) and a sixth semiconductor refrigerator (66) are respectively and electrically connected with the controller;
in the process of making water by using the water production tank body (1), the controller controls the first semiconductor refrigerator (61), the second semiconductor refrigerator (62) and the third semiconductor refrigerator (63) to be started, the heat of the hot surface of the first semiconductor refrigerator (61) is conducted to the high-temperature area (141) of the water production chamber (14) through the first cooling fin (611), and the cold of the cold surface of the first semiconductor refrigerator (61) is conducted to the cooling air duct (41) through the first cold guide fin (612); the heat of the hot surface of the second semiconductor refrigerator (62) is conducted to the high-temperature area (141) of the water generating chamber (14) through the second cooling fins (621), and the cold of the cold surface of the second semiconductor refrigerator (62) is conducted to the low-temperature area (142) of the water generating chamber (14) through the second cold guide fins (622); the cold quantity of the cold surface of the third semiconductor refrigerator (63) is conducted to the low-temperature area (142) of the water producing chamber (14) through the third cold guide sheet (632), and the heat quantity of the hot surface of the third semiconductor refrigerator (63) is conducted to the heat dissipation air duct (41) through the third heat dissipation sheet (631); under the combined action of the first semiconductor refrigerator (61), the second semiconductor refrigerator (62) and the third semiconductor refrigerator (63), a high-temperature area (141) of the water production chamber (14) forms a high-temperature environment, a low-temperature area (142) of the water production chamber (14) forms a low-temperature environment, air in the high-temperature area (141) can automatically move towards the low-temperature area (142) due to the temperature difference between the high-temperature environment and the low-temperature environment, moisture carried in the air can be condensed into water drops after contacting with a second cold guide sheet (622) of the second semiconductor refrigerator (62) and a third cold guide sheet (632) of the third semiconductor refrigerator (63), and the water drops drop downwards and enter a cold water containing chamber (121) of the cold water insulation can (12) through a cold water box water inlet hole (122) of the cold water insulation can (12).
2. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: a water level sensor (7) is arranged in the cold water insulation can (12), and the water level sensor (7) is electrically connected with the controller.
3. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: the high-temperature area (141) is provided with a first temperature sensor (81), and the first temperature sensor (81) is electrically connected with the controller.
4. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: the low-temperature area (142) is provided with a second temperature sensor (82), and the second temperature sensor (82) is electrically connected with the controller.
5. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: and a third temperature sensor (83) is arranged in the hot water containing chamber (111), and the third temperature sensor (83) is electrically connected with the controller.
6. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: a fourth temperature sensor (84) is arranged in the cold water containing chamber (121), and the fourth temperature sensor (84) is electrically connected with the controller.
7. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: and water quality electrolyzers (9) are respectively embedded in the cold water containing chamber (121) and the hot water containing chamber (111), and each water quality electrolyzer (9) is electrically connected with the controller.
8. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: the top of the water production box body (1) is provided with a water production air inlet communicated with the heat dissipation air duct (41) and the water production cavity (14), and the water production air inlet is provided with a filter (100).
9. A multifunctional semiconductor water treatment system according to claim 1, characterized in that: a circulating fan (101) is arranged in the water producing chamber (14), and the circulating fan (101) is electrically connected with the controller.
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CN201710028692.4A CN106836377B (en) | 2017-01-16 | 2017-01-16 | Multifunctional semiconductor water making system |
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---|---|---|---|---|
EP0019805A1 (en) * | 1979-05-15 | 1980-12-10 | Mitsubishi Denki Kabushiki Kaisha | Water producing apparatus |
CN101048553A (en) * | 2004-08-31 | 2007-10-03 | 水产科技有限公司 | System and method for producing water |
CN201348343Y (en) * | 2008-12-31 | 2009-11-18 | 东莞市捷能热能科技有限公司 | Air source cold and hot water dispenser |
CN103307749A (en) * | 2013-06-08 | 2013-09-18 | 李隆 | Integrated water tank for cold water and hot water and temperature equalizing method for outer box and inner box |
CN103851731A (en) * | 2013-06-08 | 2014-06-11 | 李隆 | Low-energy-consumption heat pump air-conditioning equipment and method |
CN206418546U (en) * | 2017-01-16 | 2017-08-18 | 吴焕雄 | A kind of multifunctional semiconductor water manufacturing system |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CA2530621A1 (en) * | 2006-01-03 | 2007-07-03 | Free Energy Solutions Inc. | Thermal superconductor refrigeration system |
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Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0019805A1 (en) * | 1979-05-15 | 1980-12-10 | Mitsubishi Denki Kabushiki Kaisha | Water producing apparatus |
CN101048553A (en) * | 2004-08-31 | 2007-10-03 | 水产科技有限公司 | System and method for producing water |
CN201348343Y (en) * | 2008-12-31 | 2009-11-18 | 东莞市捷能热能科技有限公司 | Air source cold and hot water dispenser |
CN103307749A (en) * | 2013-06-08 | 2013-09-18 | 李隆 | Integrated water tank for cold water and hot water and temperature equalizing method for outer box and inner box |
CN103851731A (en) * | 2013-06-08 | 2014-06-11 | 李隆 | Low-energy-consumption heat pump air-conditioning equipment and method |
CN206418546U (en) * | 2017-01-16 | 2017-08-18 | 吴焕雄 | A kind of multifunctional semiconductor water manufacturing system |
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