CN223151274U - Air water making device capable of recycling cold air - Google Patents

Abstract

The present application relates to an air-water making device for cold air recycling, and relates to the technical field of air-water making, including a controller and a shell, wherein the surface of the shell is provided with a plurality of heat dissipation holes, and the interior of the shell includes an air inlet chamber, a condensation chamber, and a water storage chamber connected in sequence; condensation devices are provided on both sides of the interior of the condensation chamber, and a heat dissipation device is provided between the condensation device and the inner wall of the shell, and the condensation device and the heat dissipation device are electrically connected to the controller respectively; a heat dissipation chamber is provided between the heat dissipation device and the inner wall of the shell, and the two sides of the bottom of the condensation chamber are connected to the heat dissipation chamber through a cold air recycling channel, and after the external air enters the condensation chamber through the air inlet chamber, a part of it condenses to form liquid and enters the liquid storage chamber, and the other part cools down to form cold air and enters the heat dissipation chamber through the cold air recycling channel. The present application has the effect of effectively improving heat dissipation efficiency and saving energy consumption.

Description

Air water making device capable of recycling cold air

Technical Field

The application relates to the technical field of air water production, in particular to an air water production device for recycling cold air.

Background

The working principle of the air water generator is that water molecules in air are collected through high-efficiency filtration and condensed into liquid water, and then high-quality domestic drinking water is produced through a series of purification treatments. In the condensation process, a condensation device such as a refrigerating sheet is usually required to be used, and large heat is usually generated when the condensation device operates, and when the heat is too large, the air water generator is overheated, so that machine faults are easy to cause.

The air water generator in the prior art is generally required to be provided with a heat dissipation device to assist the operation of the condensation device, so as to dissipate heat of the condensation device, thereby ensuring the stable operation of the air water generator. However, in the actual use process, if the air water generator needs to be used for a long time, the long-term starting of the heat dissipation device can cause excessive energy consumption of the machine, so that resource waste is caused.

Disclosure of utility model

The application aims to provide an air water making device capable of recycling cold air, which can effectively improve heat dissipation efficiency and save energy consumption.

The application provides an air water making device for recycling cold air, which adopts the following technical scheme:

The air water making device for recycling cold air comprises a controller and a shell, wherein a plurality of heat dissipation holes are formed in the surface of the shell, and an air inlet cavity, a condensation cavity and a water storage cavity which are sequentially connected are formed in the shell;

the condensing device is arranged at two sides of the interior of the condensing cavity, a heat dissipation device is arranged between the condensing device and the inner wall of the shell, and the condensing device and the heat dissipation device are respectively and electrically connected with the controller;

The heat dissipation device comprises a shell, and is characterized in that a heat dissipation cavity is arranged between the heat dissipation device and the inner wall of the shell, two sides of the bottom of the condensation cavity are communicated with the heat dissipation cavity through cold air recycling channels, and after external air enters the condensation cavity through an air inlet cavity, one part of the external air is condensed to form liquid and enters a liquid storage cavity, and the other part of the external air is cooled to form cold air and enters the heat dissipation cavity through the cold air recycling channels.

By adopting the technical scheme, the application considers that the condensation effect of the condensation equipment is not necessarily that all air can be condensed to form liquid, and a part of air is cooled but does not reach the condensation temperature to form cold air, and in order to reasonably utilize the formed cold air, a cold air recycling channel is arranged to enable the cold air to enter the heat dissipation cavity, so that the temperature in the heat dissipation cavity is reduced, the heat dissipation equipment is assisted for heat dissipation, the heat dissipation efficiency is effectively improved, and after the heat dissipation is assisted by the cold air, the operation efficiency of the heat dissipation equipment can be reduced to a certain extent compared with the case without the heat dissipation assisted by the cold air, and the effect of saving energy consumption is achieved.

Further, the condensing equipment comprises a plurality of groups of condensing components, and the groups of condensing components are distributed on the inner side wall of the condensing cavity.

By adopting the technical scheme, the reliability of the condensation process of the air water making device is ensured through the plurality of groups of condensation components.

Further, each condensing assembly comprises a refrigerating sheet and a plurality of cold guide sheets, the refrigerating sheets are arranged on the side wall of the condensing cavity, one ends of the cold guide sheets are connected with the refrigerating sheets, and the other ends of the cold guide sheets extend to the inside of the condensing cavity.

By adopting the technical scheme, the temperature of the refrigerating sheet is reduced through the refrigerating sheet, and the temperature of the refrigerating sheet is conducted to the inside of the condensing cavity through the cold guide sheet, so that air entering the condensing cavity is contacted with the cold guide sheet to be reduced in temperature, thereby condensing to form liquid, and ensuring the reliability of the condensing process of the air water making device.

Further, the heat dissipation device comprises a plurality of groups of heat dissipation components, and the plurality of groups of heat dissipation components are distributed between the plurality of groups of condensation components and the heat dissipation cavity.

By adopting the technical scheme, the reliability of the heat dissipation process of the air water making device is ensured through the plurality of groups of heat dissipation components.

Further, each radiating component comprises a radiating fan and a plurality of radiating fins, the radiating fan is arranged on the side wall, close to the condensation cavity, of the radiating cavity, one end of each radiating fin is connected with the refrigerating fin, and the other end of each radiating fin extends to be close to the radiating fan.

By adopting the technical scheme, the heat generated by the condensing sheet is conducted through the radiating fin, then the heat is conducted to the radiating hole of the shell through the radiating fan, and finally the heat is discharged from the radiating hole, so that the reliability of heat radiation of the air water making device is ensured.

Further, the condensing equipment also comprises a plurality of steel wire meshes, and the steel wire meshes are detachably arranged between the plurality of cold guide sheets at two sides of the interior of the condensing cavity.

Through the adoption of the technical scheme, the detachable steel wire mesh is arranged, so that the contact area of air and condensing equipment can be increased when the steel wire mesh is installed, and the condensing efficiency is effectively improved.

Further, an air purifying device is arranged in the air inlet cavity and is electrically connected with the controller, and the air purifying device is used for purifying air entering the condensation cavity.

By adopting the technical scheme, the air purifying device is used for primarily purifying the air entering the air inlet cavity, so that the reliability of the air water making device is ensured.

Further, an air inlet device is arranged at the joint of the air inlet cavity and the condensing cavity, the air inlet device is electrically connected with the controller, and the air inlet device is used for feeding air in the air inlet cavity into the condensing cavity.

By adopting the technical scheme, the air in the air inlet cavity is fed into the condensing cavity through the air inlet equipment, so that the reliability of the air water making device is ensured.

Further, a filtering device is arranged at the joint of the condensation cavity and the water storage cavity and is used for filtering liquid entering the water storage cavity.

By adopting the technical scheme, the liquid formed after condensation is filtered through the filtering equipment, so that the reliability of the air water making device is ensured.

Further, the air purifying device adopts an ozone generator;

and/or the air inlet equipment adopts an air inlet fan;

and/or the filtering equipment adopts a filter screen.

By adopting the technical scheme, the ‌ ‌ ozone generator has the main functions of preparing ozone gas, sterilizing and purifying air by utilizing the strong oxidizing property of the ozone gas, and has the advantages of high efficiency, high speed, no dead angle and no secondary pollution. ‌ the main function of the air intake fan is to increase the air circulation speed, thereby increasing the rate of air entering the condenser. The main function of the filter screen is to filter impurities, particles and harmful substances, thereby ensuring that the liquid entering the water storage cavity from the condensation cavity is free of impurities, particles and harmful substances. The application further ensures the reliability of the air water making device through the ozone generator, the air inlet fan and the filter screen.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the application, the fact that the condensing effect of the condensing equipment is not necessarily capable of condensing all air to form liquid is considered, a part of air is cooled but does not reach the condensing temperature to form cold air, in order to reasonably utilize the formed cold air, a cold air recycling channel is arranged to enable the cold air to enter the heat dissipation cavity, so that the temperature in the heat dissipation cavity is reduced, the heat dissipation equipment is assisted to conduct heat dissipation, the heat dissipation efficiency is effectively improved, and after the cold air is used for assisting in heat dissipation, the heat dissipation equipment can reduce the operation efficiency to a certain extent compared with the situation without cold air for assisting in heat dissipation, and the effect of saving energy consumption is achieved;

2. According to the application, the detachable steel wire mesh is arranged, so that the contact area between air and condensing equipment can be increased when the steel wire mesh is installed, and the condensing efficiency is effectively improved.

Drawings

FIG. 1 is a schematic view showing the overall structure of embodiment 1 of the present application;

FIG. 2 is a schematic view showing a front sectional structure of embodiment 1 of the present application;

FIG. 3 is a schematic diagram of the controller connection of embodiment 1 of the present application;

FIG. 4 is a schematic diagram of the air flow direction of example 1 of the present application;

FIG. 5 is a schematic view showing a front sectional structure of embodiment 2 of the present application;

In the figure, 1, a controller, 2, a shell, 21, a radiating hole, 22, an air inlet cavity, 23, a condensing cavity, 24, a water storage cavity, 25, a radiating cavity, 26, a cold air recycling channel, 3, an air purifying device, 4, an air inlet device, 5, a condensing device, 51, a refrigerating sheet, 52, a cold conducting sheet, 53, a steel wire mesh, 6, a radiating device, 61, a radiating fan, 62, a radiating sheet and 7, a filtering device.

Detailed Description

The present application will be described in further detail with reference to fig. 1 to 5.

Embodiment 1. The air-to-water machine in the prior art generally needs to be equipped with a heat dissipation device to assist the operation of the condensation device for dissipating heat from the condensation device, thereby ensuring the stable operation of the air-to-water machine. However, in the actual use process, if the air water generator needs to be used for a long time, the long-term starting of the heat dissipation device can cause excessive energy consumption of the machine, so that resource waste is caused. Therefore, an embodiment of the present application provides an air water making device for recycling cold air, referring to fig. 1, 2 and 3, the air water making device includes a controller 1 and a housing 2, a plurality of heat dissipation holes 21 are provided on the surface of the housing 2, the heat dissipation holes 21 are in a strip shape and are uniformly arranged on the side surface and the top surface of the housing 2, and an air inlet cavity 22, a condensation cavity 23 and a water storage cavity 24 are sequentially connected inside the housing 2. The inside of the air inlet cavity 22 is provided with an air purifying device 3, the air purifying device 3 is electrically connected with the controller 1, and the air purifying device 3 is used for purifying the air entering the condensing cavity 23. An air inlet device 4 is arranged at the joint of the air inlet cavity 22 and the condensing cavity 23, the air inlet device 4 is electrically connected with the controller 1, and the air inlet device 4 is used for feeding air in the air inlet cavity 22 into the condensing cavity 23. The both sides inside condensation chamber 23 are equipped with condensation equipment 5, are equipped with radiator unit 6 between condensation equipment 5 and the shell 2 inner wall, and condensation equipment 5 and radiator unit 6 are connected with controller 1 electricity respectively. A heat dissipation cavity 25 is arranged between the heat dissipation device 6 and the inner wall of the shell 2, and two sides of the bottom of the condensation cavity 23 are communicated with the heat dissipation cavity 25 through a cold air recycling channel 26. The junction of condensation chamber 23 and water storage chamber 24 is equipped with filtration equipment 7, and filtration equipment 7 is used for filtering the liquid that gets into water storage chamber 24.

As shown in fig. 4, the air flow direction is shown by an arrow, external air enters the air inlet cavity 22 and is purified by the air purifying device 3, then enters the condensing cavity 23 by the air inlet device 4, and air entering the condensing cavity 23 is cooled by the condensing device 5, part of the air is condensed into liquid and filtered by the filtering device 7, then enters the liquid storage cavity, and the other part of the air is cooled into cold air and enters the heat dissipation cavity 25 through the cold air recycling channel 26.

The embodiment of the application has the implementation principle that considering that the condensation effect of the condensation device 5 is not necessarily capable of condensing all air to form liquid, a part of air possibly has the temperature reduced but does not reach the condensation temperature so as to form cold air, in order to reasonably utilize the formed cold air, a cold air recycling channel 26 is arranged to enable the cold air to enter the heat dissipation cavity 25, thereby reducing the temperature in the heat dissipation cavity 25, the auxiliary heat dissipation device 6 dissipates heat, the heat dissipation efficiency is effectively improved, and after the auxiliary heat dissipation of the cold air is carried out, the heat dissipation device 6 can reduce the operation efficiency to a certain extent compared with the situation without the auxiliary heat dissipation of the cold air, thereby achieving the effect of saving energy consumption.

In the specific implementation process, the air purifying device 3 may be an ozone generator, the air inlet device 4 may be an air inlet fan, and the filtering device 7 may be a filter screen. The ‌ ‌ ozone generator has the main functions of preparing ozone gas, sterilizing and purifying air by utilizing the strong oxidizing property of the ozone gas, and has the advantages of high efficiency, high speed, no dead angle, and no secondary pollution. ‌ the main function of the air intake fan is to increase the air circulation speed, thereby increasing the rate of air entering the condenser. The main function of the filter screen is to filter impurities, particles and harmful substances, thereby ensuring that the liquid entering the water storage cavity from the condensation cavity is free of impurities, particles and harmful substances.

As shown in fig. 2, the condensing apparatus 5 includes four condensing units distributed on both sides of the inner sidewall of the condensing chamber 23. Each condensing assembly comprises a refrigerating sheet 51 and a plurality of cold guide sheets 52, the refrigerating sheet 51 is arranged on the side wall of the condensing cavity 23, one ends of the cold guide sheets 52 are connected with the refrigerating sheet 51, and the other ends extend into the condensing cavity 23. In a specific implementation process, the refrigerating plate 51 is electrically connected with the controller 1 and is controlled by the controller 1, the controller 1 can adjust the operation power of the condensing equipment 5 by adjusting the refrigeration power of the refrigerating plate 51, and the cold guide plate 52 can conduct the temperature of the refrigerating plate 51 to the inside of the condensing cavity 23, so that the air entering the condensing cavity 23 contacts the cold guide plate 52 to be cooled, and thus the liquid is condensed.

As shown in fig. 2, the heat dissipating device 6 includes four sets of heat dissipating components, which are distributed between four sets of condensing components and the heat dissipating chamber 25. Each heat dissipation assembly comprises a heat dissipation fan 61 and a plurality of heat dissipation fins 62, wherein the heat dissipation fan 61 is arranged on the side wall of the heat dissipation cavity 25, which is close to the condensation cavity 23, one end of each heat dissipation fin 62 is connected with the refrigerating fin 51, and the other end extends to be close to the heat dissipation fan 61. In a specific implementation process, the cooling fan 61 is electrically connected with the controller 1 and controlled by the controller 1, the controller 1 can adjust the running power of the cooling device 6 by adjusting the rotation speed of the cooling fan 61, and conduct the heat generated by the condensing sheet through the cooling fin 62, and then conduct the heat to the cooling hole 21 of the housing 2 through the cooling fan 61, so that the heat is finally discharged from the cooling hole 21.

Embodiment 2 an embodiment of the present application provides an air water making device, referring to fig. 5, the difference between this embodiment and embodiment 1 is that, in order to further enhance condensation efficiency, the condensation device 5 further includes a plurality of steel wires 53, and the steel wires 53 are detachably installed between a plurality of cold guide plates 52 at two sides of the interior of the condensation chamber 23. Through setting up detachable wire net 53, can promote the area of contact of air and condensation equipment 5 when installing wire net 53, effectively promote condensation efficiency.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, wherein like reference numerals are used to refer to like elements throughout. Therefore, all equivalent changes according to the structure, shape and principle of the present application should be covered in the protection scope of the present application.

Claims (10)

1. The air water making device for recycling cold air is characterized by comprising a controller (1) and a shell (2), wherein a plurality of heat dissipation holes (21) are formed in the surface of the shell (2), and an air inlet cavity (22), a condensation cavity (23) and a water storage cavity (24) which are sequentially connected are formed in the shell (2);

The two sides of the interior of the condensation cavity (23) are provided with condensation equipment (5), a heat dissipation device (6) is arranged between the condensation equipment (5) and the inner wall of the shell (2), and the condensation equipment (5) and the heat dissipation device (6) are respectively and electrically connected with the controller (1);

A heat dissipation cavity (25) is arranged between the heat dissipation device (6) and the inner wall of the shell (2), two sides of the bottom of the condensation cavity (23) are communicated with the heat dissipation cavity (25) through a cold air recycling channel (26), and after external air enters the condensation cavity (23) through the air inlet cavity (22), part of the external air is condensed to form liquid and enters the liquid storage cavity, and the other part of the external air is cooled to form cold air and enters the heat dissipation cavity (25) through the cold air recycling channel (26).

2. An air-to-water device for cold air reuse according to claim 1, wherein said condensing means (5) comprises several groups of condensing assemblies distributed on the inner side walls of said condensing chamber (23).

3. An air-to-water device for cold air recycling according to claim 2, wherein each condensing assembly comprises a refrigerating plate (51) and a plurality of cold guide plates (52), the refrigerating plates (51) are arranged on the side wall of the condensing cavity (23), one ends of the cold guide plates (52) are connected with the refrigerating plates (51), and the other ends extend into the condensing cavity (23).

4. An air-to-water device for cold air reuse according to claim 3, characterized in that said heat dissipating means (6) comprises several groups of heat dissipating components distributed between said groups of condensing components and heat dissipating cavities (25).

5. An air-to-water device for cold air recycling according to claim 4, wherein each of said heat dissipating units comprises a heat dissipating fan (61) and a plurality of heat dissipating fins (62), said heat dissipating fan (61) is provided on a side wall of said heat dissipating chamber (25) near to said condensing chamber (23), and said plurality of heat dissipating fins (62) are connected at one end to said refrigerating fin (51) and at the other end to near to said heat dissipating fan (61).

6. An air water making apparatus for cold air reuse according to claim 5, characterized in that said condensing means (5) further comprises a plurality of wire nets (53), said wire nets (53) being detachably installed between a plurality of cold guide plates (52) at both sides of the inside of the condensing chamber (23).

7. An air-to-water plant for cold air recycling according to any of claims 1-6, characterized in that an air purifying device (3) is arranged inside the air inlet chamber (22), said air purifying device (3) being electrically connected to the controller (1), said air purifying device (3) being adapted to purify the air entering the condensation chamber (23).

8. An air-to-water device for cold air reuse according to claim 7, characterized in that an air inlet device (4) is provided at the junction of said air inlet chamber (22) and said condensing chamber (23), said air inlet device (4) is electrically connected to said controller (1), said air inlet device (4) is adapted to feed air in said air inlet chamber (22) into said condensing chamber (23).

9. An air-to-water device for cold air reuse according to claim 8, characterized in that the junction of said condensation chamber (23) and water storage chamber (24) is provided with a filtering means (7), said filtering means (7) being adapted to filter the liquid entering the water storage chamber (24).

10. An air-to-water device for cold air reuse according to claim 9, wherein said air cleaning means (3) employs an ozone generator;

and/or the air inlet equipment (4) adopts an air inlet fan;

And/or the filter device (7) adopts a filter screen.