CN211285809U - Novel air water making system - Google Patents

Abstract

The utility model discloses a novel air water making system, which adopts a solar power generation component to supply power and comprises an air inlet fan, a precooling chamber, a water making chamber, a heat dissipation chamber, a semiconductor water making sheet, a condensation chamber and a collecting device; a pre-cooling pipe is arranged in the pre-cooling chamber; the cold end is arranged in the water making chamber; the hot junction sets up in the heat dissipation indoor, and is provided with cooling blower on the hot junction. The collecting device is communicated with the condensing chamber and the water making chamber through condensed water pipelines, and filtering membranes for filtering and disinfecting condensed water are arranged between the collecting device and the condensing chamber and between the collecting device and the water making chamber; and the condensing chamber is communicated with the precooling chamber, and the precooling chamber is communicated with the heat dissipation chamber through cold air pipelines. The utility model adopts the non-condensing gas after condensation to pre-cool the air, so that the air contacted with the semiconductor refrigeration sheet is stabilized within a certain range, and the water production is more stable and efficient; the problem that the temperature of the hot end or the cold end of the semiconductor refrigerating sheet is changed greatly, so that water production is slow or cannot be carried out is solved.

Description

Novel air water making system

Technical Field

The utility model belongs to the technical field of semiconductor air system water, concretely relates to novel air water preparation system.

Background

Water resources are the basis of human life and all production activities, however, fresh water resource shortage is a worldwide problem. Statistically, about 12 million people cannot drink clean drinking water.

In nature, water molecules in the air have three forms: liquid, solid and gas, which are continuously converted into each other under the action of natural phenomena such as gravity, solar radiation energy, atmospheric flow and the like. Thus, in a sense, the water in the air can be said to be "inexhaustible" water. The atmosphere is important enzymolysis for water resource conversion, the air contains a large amount of water molecules, 120g of water is contained in the air of no cubic meter in a marine climate area, 40g of water is contained in inland climate areas, and even if the desert seriously lack of water does, the relative humidity of the desert is 20% -90% of that of other areas.

The maximum water content in air is determined by the air temperature and the atmospheric pressure, and the water vapor content of 1m3 air at standard atmospheric pressure is different under different temperature and relative humidity conditions. When the temperature of the air is lower than the dew point temperature, the water vapor in the air is liquefied to form small water drops, which provides a theoretical basis for the feasibility of air water production. At present, the common air water production methods include a mechanical compression method, a freezing and condensation method, an adsorption and desorption method, a semiconductor refrigeration method, a mist-gathering and water-taking method and the like. The semiconductor refrigeration method mainly utilizes the power-on semiconductor Peltier effect, a P-type semiconductor element and an N-type semiconductor element are connected to form a thermocouple, the cold end refrigeration effect is achieved under the power-on condition, and when wet air passes through the cold end, water drops are separated out when the wet air is cooled, so that air water making is achieved. The semiconductor refrigeration method is an air water making technology which is developed more rapidly internationally in recent years due to the advantages of small pollution, light weight, convenient maintenance and the like.

However, the water production efficiency of the air water production by the semiconductor refrigeration method is low, and the heat dissipation effect of the hot end of the semiconductor water production sheet has a large influence on the water production efficiency because the principle of the semiconductor water production method adopts the Peltier principle. At present, a heat radiating device is generally adopted for radiating heat of a hot end in air water making by a semiconductor refrigeration method, the heat radiating effect of the air water making device is greatly influenced by the external environment, and a stable heat radiating effect cannot be formed, so that the water making effect is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel air water making system aiming at the prior art, which adopts the non-condensing gas after condensation to pre-cool the air, so that the air contacted with the semiconductor refrigeration piece is stabilized within a certain range, and the condensation water making of the semiconductor refrigeration piece is more stable and efficient; the problem that the water production is slow or can not be carried out due to the fact that the temperature of the hot end of the semiconductor refrigerating sheet is rapidly increased and the cold end of the semiconductor refrigerating sheet can not reach the dew point of air due to the fact that the air temperature changes rapidly is avoided.

The utility model provides a pair of novel air water making system realizes through following technical scheme, adopts solar energy power generation component to provide the electric energy for the system. The water making system comprises an air inlet fan, a pre-cooling chamber, a water making chamber, a heat dissipation chamber, a semiconductor water making sheet, a condensation chamber and a collecting device; the semiconductor water preparing sheet comprises a cold end and a hot end which are connected through a conductive metal sheet; a pre-cooling pipe is spirally arranged in the pre-cooling chamber; the cold end is arranged in the water making chamber; the hot end is arranged in the heat dissipation chamber, and a heat dissipation fan is arranged on the hot end; the water making chamber is arranged between the pre-cooling chamber and the condensing chamber, and the cavity in the condensing chamber is larger than the cavity in the water making chamber. The collecting device is arranged below the condensing chamber and communicated with the condensing chamber through a condensed water pipeline, and a filtering membrane for filtering and disinfecting condensed water is arranged between the collecting device and the condensing chamber; a collecting pipeline is communicated with the lower part of the water making chamber, the collecting pipeline is communicated with a collecting device, and a filtering membrane for filtering and disinfecting condensed water is also arranged between the collecting device and the water making chamber; the condensing chamber is communicated with the pre-cooling chamber, and the pre-cooling chamber is communicated with the heat dissipation chamber through cold air pipelines; the semiconductor water preparing sheet, the air inlet fan and the heat dissipation fan are connected with the solar power generation assembly through circuits.

The water making process of the water making system comprises the following steps:

step A: air pre-cooling: the air to be water-produced is sucked into the pre-cooling pipe by the air inlet fan and is cooled to 10-25 ℃ higher than the dew point temperature of the air to obtain pre-cooled air;

and B: cooling to prepare water: the precooled air obtained in the step A passes through the cold end of the semiconductor refrigerating sheet, and water in the air is cooled and condensed into fine water mist particles and water drops condensed on the cold end of the semiconductor refrigerating sheet;

and C: condensation: the water mist particles enter the condensing chamber along with the cooled air and are condensed into water drops in the condensing chamber, uncondensed gas passes through the condensing chamber and enters the pre-cooling chamber, and a pre-cooling pipe is arranged in the pre-cooling chamber and is used for pre-cooling the air sucked by the air inlet fan; the non-condensed gas passing through the pre-cooling chamber is blown into the heat end of the semiconductor refrigeration sheet through a cold air pipeline;

step D: filtering and collecting: c, the water drops condensed in the condensation chamber flow downwards and are collected to a condensation water collecting device through a disinfection filter membrane; and D, water drops on the cold end in the step B pass through a collecting pipeline arranged below the cold end and are collected to a condensed water collecting device through a disinfection filter membrane.

Furthermore, the air inlet fan and the heat dissipation fan are both variable frequency fans.

Furthermore, the water making system is also provided with a monitoring device, and the monitoring device comprises a first temperature detection device arranged at the joint of the pre-cooling chamber and the water making chamber and a second temperature monitoring device arranged in the heat dissipation chamber; the monitoring device is connected with the solar power generation assembly through a circuit.

Further, first temperature-detecting device and second temperature-detecting device are digital display type temperature controller, first temperature-detecting device is connected with air intake fan's converter, and second temperature-detecting device is connected with cooling fan's converter.

The digital display type temperature controller is connected with a frequency converter of the fan, output data of temperature control can be transmitted into the frequency converter, and then the frequency converter automatically adjusts the rotating speed of the fan according to the size of a received signal, so that the temperature monitored by the temperature controller is controlled within a certain range.

The precooling pipe is spirally arranged in the precooling chamber, so that the precooling effect is better, the temperature monitoring devices are arranged at the outlet of the precooling pipe and in the heat dissipation chamber and are used for monitoring the precooling condition of air and the heat dissipation condition of the hot end, and the flow rate is increased or reduced according to the temperature at the outlet of the precooling pipe, so that the precooled air is stabilized within a certain range, the influence of air change on the air water making efficiency is avoided, the water making efficiency is reduced, and the energy consumption is increased; meanwhile, the heat dissipation condition of the hot end is monitored, so that the temperature of the hot end is stable, and the water preparation efficiency of the semiconductor water preparation sheet is stable within a certain range.

After the air passes through the cold end of the semiconductor water preparation sheet, water in the air is condensed into fine water mist particles, the fine water mist particles and non-condensable gas enter the condensation chamber, and a part of the water mist particles are attached to the surface of the cold end and are gradually condensed into water drops. Therefore, a collecting pipeline communicated with the collecting device is arranged below the cold end of the semiconductor water preparing sheet, and water drops collected by the cold end enter the collecting pipeline. And meanwhile, the condensing chamber is arranged, so that the precooling air flow rate through the cold end can be improved, and the water making efficiency is higher.

The disinfection filter membrane is arranged above the collecting device, so that the prepared water can be directly used for life application or drinking. The collecting device can be further provided with a water level detection device, so that the water quantity in the collecting device is detected, and a user is convenient to remind to replace or transfer the water prepared in the collecting device.

After passing through the pre-cooling chamber, the uncondensed gas, such as nitrogen, carbon dioxide, oxygen, etc., is at a temperature higher than that of the condensing chamber, but still lower than the temperature of the outside air. Therefore, the non-condensable gas passes through the pre-cooling chamber and is used for the heat dissipation device at the hot end, the heat dissipation effect of the heat dissipation device is better than that of the heat dissipation device which directly adopts air for heat dissipation, the heat dissipation effect at the hot end is better, and the energy consumption is reduced.

The air passes through the cold end at a high speed to form water mist particles, and then enters the condensation chamber, and the flowing speed of the air rapidly drops due to the large space of the condensation chamber, so that the water mist particles sink and are attached to the surface of the condensation chamber to form water drops.

Further, cold-blast pipe and condensing chamber are kept away from system water chamber one side intercommunication, just hydrophilic membrane has been laid to the internal surface that the system water chamber one side was kept away from to the condensing chamber make noncondensable gas leave the condensing chamber through hydrophilic membrane and get into cold-blast pipe, make and not sink the water smoke granule that condenses into the water droplet in the condensing chamber and condense into the water droplet on hydrophilic membrane.

Furthermore, the cold end is a condensation column provided with a plurality of tree-shaped condensation sheets along circumferential equidistant outward rays so as to increase the contact area between the pre-cooled air and the cold end and enable water in the pre-cooled air to be better condensed into water mist or water drops; the condensing sheet is a thin sheet made of pure aluminum or pure copper. The condensing sheet prepared from pure copper has good heat transfer effect and better condensing effect; although the heat transfer effect of the condensing sheet prepared from pure aluminum is not as good as that of pure copper, the condensing sheet prepared from pure aluminum has small density and low cost, so that the whole device is easier to carry and the cost is reduced.

In addition, the condensing sheet can also adopt a condensing sheet of which the surface is covered with a film formed by nano metal sulfide particles so as to reduce the surface energy of the surface of the condensing sheet and ensure that water in the air is easy to condense on the surface of the condensing sheet. In addition, the surface of the condensation sheet can be coated with a film formed by copper microparticles and is obtained by fluorination treatment, so that the surface energy of the surface of the condensation sheet is reduced.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

(1) the novel air water making system provided by the utility model precools the air by adopting the condensed non-condensing gas, so that the air contacted by the semiconductor refrigeration sheet is stabilized within a certain range, and the condensation water making of the semiconductor refrigeration sheet is more stable and efficient; the problem that the water production is slow or can not be carried out due to the fact that the temperature of the hot end of the semiconductor refrigerating sheet is rapidly increased and the cold end of the semiconductor refrigerating sheet can not reach the dew point of air due to the fact that the air temperature changes rapidly is avoided.

(2) The utility model provides a novel air water preparation system adopts air intake fan and cooling fan all to adopt frequency conversion fan to ally oneself with the usefulness of frequency conversion fan, the monitored control system internal temperature makes water preparation system stable, avoids appearing hot junction or cold junction high temperature, causes cold junction temperature instability, influences water preparation efficiency.

(3) The utility model provides a novel air water preparation system adopts the gas of noncondensable behind precooling the room, and the reuse is used for the heat abstractor in the hot junction, and its radiating effect is superior to directly adopting the air cooling, makes the hot junction radiating effect better, reduces the energy consumption.

(4) The utility model provides a set up the glossy hydrophilic membrane in surface in novel air water preparation system condensation chamber, the gas that does not condense leaves the condensation chamber again through hydrophilic membrane, makes the water smoke granule that does not sink in the condensation chamber and condense into the water droplet on hydrophilic membrane, improves system water efficiency.

Drawings

FIG. 1 is a block diagram schematically illustrating the structure of the present invention;

the system comprises an air inlet fan 1, a precooling chamber 2, a water making chamber 3, a condensing chamber 4, a collecting device 5, a radiating chamber 6, a cold end 7, a hot end 8, a precooling pipe 9, a first temperature detection device 10, a radiating fan 11 and a second temperature detection device 12.

Detailed Description

The present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

The utility model discloses a solar energy power generation subassembly provides the electric energy for the system. The water making system comprises an air inlet fan 1, a pre-cooling chamber 2, a water making chamber 3, a heat dissipation chamber 6, a semiconductor water making sheet, a condensation chamber 4 and a collecting device 5; the semiconductor water preparing sheet comprises a cold end 7 and a hot end 8 which are connected through a conductive metal sheet; a pre-cooling pipe 9 is spirally arranged in the pre-cooling chamber 2; the cold end 7 is arranged in the water making chamber 3; the hot end 8 is arranged in the heat dissipation chamber 6, and a heat dissipation fan 11 is arranged on the hot end 8; the water making chamber 3 is arranged between the pre-cooling chamber 2 and the condensing chamber 4, and the cavity in the condensing chamber 4 is larger than the cavity in the water making chamber 3. The collecting device 5 is arranged below the condensing chamber 4 and communicated with the condensing chamber 4 through a condensed water pipeline, and a filtering membrane for filtering and disinfecting condensed water is arranged between the collecting device 5 and the condensing chamber 4; a collecting pipeline is communicated with the lower part of the water making chamber 3, the collecting pipeline is communicated with the collecting device 5, and a filtering membrane for filtering and disinfecting condensed water is also arranged between the collecting device 5 and the water making chamber 3; the condensing chamber 4 is communicated with the pre-cooling chamber 2, and the pre-cooling chamber 2 is communicated with the heat dissipation chamber 6 through cold air pipelines; the semiconductor water preparing sheet, the air inlet fan 1 and the heat dissipation fan 11 are connected with the solar power generation assembly through circuits.

The utility model discloses the semiconductor system water piece that uses adopts ripe semiconductor system water piece, and its system water principle adopts the peltier effect. The semiconductor water preparing sheet can be powered by a solar power generation assembly, and can also be powered by solar energy and wind energy in areas with rich wind power. The solar power generation assembly comprises a photovoltaic assembly and a storage battery which are connected through a circuit, and the semiconductor water preparation sheet, the air inlet fan 1 and the heat dissipation fan 11 are connected with the storage battery through a circuit through an inverter.

As shown in fig. 1, during operation, the air is sucked into the device by the air intake fan 1, the air passes through the pre-cooling chamber 2, the cold end 7 of the semiconductor water-making sheet and the condensing chamber 4, after water in the air is condensed into water, non-condensable gas, such as nitrogen, oxygen, carbon dioxide and the like passes through the pre-cooling chamber 2, the hot end 8 of the semiconductor water-making sheet and the heat dissipation fan 11/heat dissipation pipe discharge device, and the cycle is completed.

The water preparation process of the novel air water preparation system comprises the following steps:

step A: air pre-cooling: the air intake fan 1 sucks air to be made into water into the precooling pipe 9, and the frequency of the air intake fan 1, namely the air flow rate in the precooling pipe 9, is adjusted according to the temperature at the inlet of the precooling pipe 9, namely the temperature of the air intake. The air is cooled to a temperature higher than the dew point temperature of the air by 10-25 ℃ through a pre-cooling pipe 9 to obtain pre-cooled air; the outlet of the pre-cooling pipe 9 is provided with a temperature monitoring device for monitoring the pre-cooling condition of air, and the current of the semiconductor water preparing sheet is increased or decreased according to the pre-cooled air temperature, so that the water preparing efficiency of the semiconductor water preparing sheet is stabilized within a certain range.

And B: cooling to prepare water: the precooled air obtained in the step A passes through the cold end 7 of the semiconductor refrigerating sheet, and water in the air is cooled and condensed into fine water mist particles and condensed on the cold end 7 of the semiconductor refrigerating sheet to form water drops;

and C: condensation: the water mist particles enter a condensation chamber 4 along with cooled air and are condensed into water drops in the condensation chamber 4, uncondensed gas passes through the condensation chamber 4 and enters a pre-cooling chamber 2, and a pre-cooling pipe 9 is arranged in the pre-cooling chamber 2 and is used for pre-cooling the air sucked by an air inlet fan 1; the non-condensed gas passing through the pre-cooling chamber 2 is blown into the heat end 8 of the semiconductor refrigeration sheet through a cold air pipeline;

step D: filtering and collecting: c, the water drops condensed by the condensing chamber 4 flow downwards and are collected to a condensed water collecting device 5 through a disinfection filter membrane; and B, water drops on the cold end 7 in the step B pass through a collecting pipeline arranged below the cold end 7 and are collected to the condensed water collecting device 5 through a disinfection filter membrane.

After the air passes through the cold end 7 of the semiconductor water preparation sheet, water in the air is condensed into fine water mist particles, the fine water mist particles and non-condensable gas enter the condensation chamber 4, and a part of the water mist particles are attached to the surface of the cold end 7 and are gradually condensed into water drops. Therefore, a collecting pipeline communicated with the collecting device 5 is arranged below the cold end 7 of the semiconductor water preparing sheet, so that water drops collected by the cold end 7 enter the collecting pipeline. And meanwhile, the condensing chamber 4 is arranged, so that the precooling air flow rate through the cold end 7 can be improved, and the water making efficiency is higher.

A disinfection filter membrane is arranged above the collecting device 5, so that the prepared water can be directly used for life application or drinking. A water level detection device can be further arranged on the collecting device 5 to detect the water amount in the collecting device 5, so that a user can be reminded to replace or transfer the water prepared in the collecting device 5 conveniently.

The non-condensable gases, such as nitrogen, carbon dioxide, oxygen, etc., pass through the pre-cooling chamber 2, although the temperature is raised compared with the temperature in the condensation chamber 4, the temperature is still lower than the temperature of the outside air. Therefore, after passing through the pre-cooling chamber 2, the uncondensed gas is used for the heat dissipation device of the hot end 8, the heat dissipation effect of the heat dissipation device is better than that of the heat dissipation device which directly adopts air for heat dissipation, the heat dissipation effect of the hot end 8 is better, and the energy consumption is reduced.

The air passes through the cold end 7 at a high speed to form water mist particles, and then enters the condensation chamber 4, the flowing speed of the air rapidly drops due to the large space of the condensation chamber 4, and the water mist particles sink and are attached to the surface of the condensation chamber 4 to form water drops.

Example 2

The embodiment is improved on the basis of embodiment 1, and the improvement is as follows: the air inlet fan 1 and the heat dissipation fan 11 are both variable frequency fans. The water making system is also provided with a monitoring device, and the monitoring device comprises a first temperature detection device 10 arranged at the joint of the pre-cooling chamber 2 and the water making chamber 3 and a second temperature monitoring device arranged in the heat dissipation chamber 6; the monitoring device is connected with the solar power generation assembly through a circuit. The first temperature detection device 10 and the second temperature detection device 12 are digital display type temperature controllers, the first temperature detection device 10 is connected with a frequency converter of the air inlet fan 1, and the second temperature detection device 12 is connected with a frequency converter of the heat dissipation fan 11.

The digital display type temperature controller is connected with a frequency converter of the fan, output data of temperature control can be transmitted into the frequency converter, and then the frequency converter automatically adjusts the rotating speed of the fan according to the size of a received signal, so that the temperature monitored by the temperature controller is controlled within a certain range.

Temperature monitoring devices are arranged at the outlet of the pre-cooling pipe 9 and in the heat dissipation chamber 6 and are used for monitoring the pre-cooling condition of air and the heat dissipation condition of the hot end 8, and the flow speed is increased or reduced according to the temperature at the outlet of the pre-cooling pipe 9, so that the pre-cooled air is stabilized within a certain range, the influence of air change on the air water making efficiency is avoided, the water making efficiency is reduced, and the energy consumption is increased; meanwhile, the heat dissipation condition of the hot end 8 is monitored, so that the temperature of the hot end 8 is stable, and the water preparation efficiency of the semiconductor water preparation sheet is stable within a certain range.

Example 3

The embodiment is improved on the basis of embodiment 1, and the improvement is as follows: a hydrophilic film with a smooth surface is arranged in the condensation chamber 4, and the uncondensed gas leaves the condensation chamber 4 through the hydrophilic film, so that water mist particles which do not sink in the condensation chamber 4 and condense into water drops on the hydrophilic film.

The cold end 7 is a condensation column provided with a plurality of tree-shaped condensation sheets along circumferential equidistant outward rays so as to increase the contact area between the pre-cooled air and the cold end 7 and enable water in the pre-cooled air to be better condensed into water mist or water drops; the condensing sheet is a thin sheet made of pure aluminum or pure copper. The condensing sheet prepared from pure copper has good heat transfer effect and better condensing effect; although the heat transfer effect of the condensing sheet prepared from pure aluminum is not as good as that of pure copper, the condensing sheet prepared from pure aluminum has small density and low cost, so that the whole device is easier to carry and the cost is reduced.

The above is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, all the technical matters of the present invention all fall into the protection scope of the present invention to any simple modification and equivalent change of the above embodiments.

Claims (7)

1. The utility model provides a novel air water preparation system, adopts solar energy power generation component to provide the electric energy for the system, its characterized in that: comprises an air inlet fan (1), a pre-cooling chamber (2), a water making chamber (3), a heat dissipation chamber (6), a semiconductor water making sheet, a condensation chamber (4) and a collection device (5); the semiconductor water preparing sheet comprises a cold end (7) and a hot end (8) which are connected through a conductive metal sheet; a pre-cooling pipe (9) is spirally arranged in the pre-cooling chamber (2); the cold end (7) is arranged in the water making chamber (3); the hot end (8) is arranged in the heat dissipation chamber (6), and a heat dissipation fan (11) is arranged on the hot end (8); the water making chamber (3) is arranged between the pre-cooling chamber (2) and the condensing chamber (4), and a cavity in the condensing chamber (4) is larger than a cavity in the water making chamber (3); the collecting device (5) is arranged below the condensing chamber (4) and communicated with the condensing chamber (4) through a condensed water pipeline, and a filtering membrane for filtering and disinfecting condensed water is arranged between the collecting device (5) and the condensing chamber (4); a collecting pipeline is communicated with the lower part of the water making chamber (3), the collecting pipeline is communicated with the collecting device (5), and a filtering membrane for filtering and disinfecting condensed water is also arranged between the collecting device (5) and the water making chamber (3); the condensing chamber (4) is communicated with the pre-cooling chamber (2), and the pre-cooling chamber (2) is communicated with the heat dissipation chamber (6) through cold air pipelines; the semiconductor water preparing sheet, the air inlet fan (1) and the heat dissipation fan (11) are connected with the solar power generation assembly through circuits.

2. The novel air water making system according to claim 1, characterized in that: the air inlet fan (1) and the heat dissipation fan (11) are both variable frequency fans.

3. The novel air water making system according to claim 2, characterized in that: the water making system is also provided with a monitoring device, and the monitoring device comprises a first temperature detection device (10) arranged at the joint of the pre-cooling chamber (2) and the water making chamber (3) and a second temperature monitoring device arranged in the heat dissipation chamber (6); the monitoring device is connected with the solar power generation assembly through a circuit.

4. The novel air water making system according to claim 3, characterized in that: the first temperature detection device (10) and the second temperature detection device (12) are digital display type temperature controllers, the first temperature detection device (10) is connected with a frequency converter of the air inlet fan (1), and the second temperature detection device (12) is connected with a frequency converter of the heat dissipation fan (11).

5. The novel air water making system according to claim 1, characterized in that: the cold air pipeline is communicated with one side, away from the water making chamber (3), of the condensing chamber (4), and a hydrophilic film is laid on the inner surface, away from one side of the water making chamber (3), of the condensing chamber (4).

6. The novel air water making system according to claim 1, characterized in that: cold junction (7) are the outside ray of circumference equidistance and are provided with the condensation post of the condensation piece of a plurality of trees bifurcation shapes, the condensation piece is the thin slice of pure aluminium or pure copper preparation.

7. The novel air water making system according to any one of claims 1 to 6, characterized in that: the solar power generation assembly comprises a photovoltaic assembly and a storage battery which are connected through a circuit, and the semiconductor water preparation sheet, the air inlet fan (1) and the heat dissipation fan (11) are connected with the storage battery through a circuit through an inverter.

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