CN210320464U - Atomizing device and air conditioner - Google Patents

Abstract

The utility model provides an atomizing device and air conditioner, atomizing device sets up in the air conditioner, atomizing device includes atomizer, translucent cover, banks bottom plate, the atomizer with the banks set up in on the bottom plate, including limit structure on the bottom plate, the translucent cover passes through limit structure cover is located the atomizer with on the banks. The utility model discloses can instruct the mode that the air conditioner was located directly perceivedly.

Description

Atomizing device and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an atomizing device and air conditioner.

Background

With the development and popularization of air conditioning technology, air conditioners have become daily necessary household appliances. The air conditioner generally has a plurality of operation modes, such as a cooling mode, a heating mode, a ventilation mode, etc., and a user can enjoy comfort of the air conditioner after waiting for a period of time after adjusting the air conditioner to a desired operation mode.

In the prior art, when a user needs to know the working mode of the air conditioner, the user often needs to be close to a panel of the air conditioner for checking, or the working mode of the air conditioner is judged through self perception of the environment, the former still needs to be close to the air conditioner actively, and the latter is not accurate enough for judging the working mode, namely, the existing air conditioner cannot inform the user intuitively, and the working mode of the air conditioner is inconvenient for the user.

SUMMERY OF THE UTILITY MODEL

The utility model provides a current air conditioner can't inform the user directly perceivedly, the problem of the mode that this air conditioner located.

In order to solve the problem, the utility model provides an atomizing device, atomizing device sets up in the air conditioner, atomizing device includes atomizer, translucent cover, banks and bottom plate, the atomizer with the banks set up in on the bottom plate, include limit structure on the bottom plate, the translucent cover passes through limit structure covers and locates the atomizer with on the banks.

Through setting up atomizer and banks on the bottom plate, including limit structure on the bottom plate, the translucent cover is located on atomizer and banks through limit structure cover, can be with the fog restriction that the atomizer generated in the space that the translucent cover covered, the light that combines banks to send, fog and different light effects under the different mode, can instruct the mode that the air conditioner located directly perceivedly, and through the combination of light and fog, can form good visual effect, the visual design of diversified air conditioner, promote the user experience of air conditioner.

Optionally, the bottom plate is detachably connected with a casing of the air conditioner or the bottom plate is the casing of the air conditioner.

The detachable connection or the fixed connection between the atomizing device and the air conditioner is realized through the bottom plate, the connection mode between the diversified atomizing device and the air conditioner is realized, and the diversity of the air conditioner patterns is increased.

Optionally, the atomization device comprises a plurality of lamp sets, and emergent light colors of adjacent lamp sets are different. The emergent light of the adjacent lamp groups is set to be different colors, the bulbs with different colors are alternately distributed, different color effects are built by different collocation, and various light effects can be formed.

Optionally, the lamp set includes a bulb and a cavity, the cavity is disposed on the bottom plate, and the bulb is embedded in the cavity. The lamp group can be fixed on the bottom plate. Optionally, the cavity is provided with a transparent baffle.

Prevent atomized water or water splashed by the atomizer from falling on the lamp to cause damage to the lamp and related circuits.

Optionally, the side wall of the accommodating cavity is opaque, and the depth of the accommodating cavity is greater than the length of the bulb, so that the bulb embedded in the accommodating cavity forms columnar emergent light.

The brightness of the emergent light generated by the LED lamp is reduced along with the irradiation distance, the closer the irradiation distance is (such as the closer to the cavity), the stronger the brightness is, the lamp light irradiates in fog, the brightness reduction effect is more obvious, and the layering sense with different brightness is formed.

Optionally, the lamp set is disposed in an edge region of the limiting structure.

Can avoid light to be covered by the fog completely when the fog is dense, simultaneously, also can form great irradiation area by setting up a plurality of banks in limit structure border region, form better irradiation effect.

Optionally, a plurality of the lamp sets are arranged in the edge area of the limiting structure in a shape of a circle, a diamond, a hexagon or an octagon.

Through setting up banks in limit structure's border region, can make the irradiation area who encloses the biggest, obtain better visual effect.

Optionally, the transparent cover is provided with a through hole.

Through set up the through-hole on the translucent cover, let the humidification fog that the atomizer generated enter into the space that the air conditioner was located from the through-hole to reach the humidification effect.

Optionally, a plane of the open side of the cavity is disposed obliquely toward the atomizer.

After water drops on the inner wall of the transparent cover gather and flow down, the water drops flow into the atomization groove through the inclined plane where the opening side of the containing cavity is located, and the water is prevented from gathering on the plane where the containing cavity is located. The utility model discloses still provide an air conditioner, the air conditioner includes as above atomizing device.

Optionally, the air conditioner is a cabinet air conditioner, and the bottom plate is a top shell of the air conditioner.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of an atomization device of the present invention;

FIG. 2 is a schematic structural view of the atomizing device of the present invention after the transparent cover is removed;

fig. 3 is a schematic view of an embodiment of a bottom plate in the atomizing device of the present invention;

fig. 4 is a cross-sectional view of the cavity 302 of fig. 3 in which the bulb 301 is inserted;

FIG. 5 is a schematic view of the position of the lamp assembly in the atomizing device according to the present invention;

fig. 6 is a schematic view of an embodiment of the shape of the lamp set 30 in the atomization device of the present invention;

fig. 7 is a schematic view of an embodiment of the air conditioner of the present invention.

Reference numerals: 1-an atomizing device, 2-an air conditioner body, 10-an atomizer, 20-a transparent cover, 30-a lamp set, 40-a bottom plate, 50-a limiting structure, 60-an atomizing groove, 301-a bulb, 302-a cavity and 3021-an opening side.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

The utility model provides an atomizing device. Fig. 1 is a schematic view of an embodiment of the atomization device of the present invention, and fig. 2 is a schematic view of the atomization device after the transparent cover is removed.

The atomization device is arranged on an air conditioner, referring to fig. 1 and 2, the atomization device 1 comprises an atomizer 10, a transparent cover 20, a lamp group 30 and a bottom plate 40, the atomizer 10 and the lamp group 30 are arranged on the bottom plate 40, the bottom plate 40 comprises a limiting structure 50, and the transparent cover 20 is arranged on the atomizer 10 and the lamp group 30 through the limiting structure 50.

The atomizer 10 can be directly seen by naked eyes, and can be an ultrasonic atomizer, a mesh atomizer or the like. The atomizer 10 is disposed on the bottom plate 40, particularly, outside the bottom plate, i.e., outside the air conditioner, so that mist generated by the atomizer may appear outside the air conditioner, and a person may directly see the mist generated by the atomizer.

In one embodiment, the atomizer 10 includes an atomizer body and an air outlet, the air outlet is disposed on the atomizer body, a liquid storage cavity is disposed in the atomizer body and is used for containing atomized liquid, and mist overflows from the air outlet.

In another embodiment, as shown in fig. 2, the bottom plate 40 includes an atomization tank 60, the atomizer 10 is disposed in the atomization tank 60, the atomization tank 60 can be used for containing atomized liquid, the atomizer 10 is immersed in the atomized liquid to atomize the atomized liquid, the mist directly overflows from the surface of the atomized liquid in the atomization tank 60, so as to achieve better visual effect, and the mist can be re-collected into atomized liquid flowing into the atomization tank 60, thereby reducing loss of the atomized liquid and reducing frequency of adding the atomized liquid.

The atomized liquid in the above embodiment may be water or other atomized liquid.

The atomizer is supplied power through the mainboard of the air conditioner internal unit, and the mist forming amount is stabilized through stable power supply, so that the stability of the mist forming effect is ensured.

The bottom plate 40 may be circular, rectangular, diamond-shaped, etc., and is specifically determined according to the position of the bottom plate 40, for example, the bottom plate 40 may be a circular shell at the top of a cylindrical cabinet, or a rectangular shell at the top of a rectangular cabinet, or a rounded rectangular shell as illustrated in fig. 3, wherein a circular limiting structure 50 is disposed on the rounded rectangular shell; the shape of the base plate 40 may also be independent of the shape of the air conditioner body, e.g., the base plate 40 may also be a rectangular housing of the top of a cylindrical cabinet. The present invention does not limit the shape of the bottom plate 40.

Alternatively, the base plate 40 may be detachably coupled to the housing of the air conditioner or the base plate 40 may be the housing of the air conditioner.

The bottom plate 40 can be detachably connected with a shell of the air conditioner, can be in threaded connection, buckled connection and the like, and the bottom plate 40 can also be directly used as the shell of the air conditioner and can be used as the shell at the top of the air conditioner.

The detachable connection or the fixed connection between the atomizing device and the air conditioner is realized through the bottom plate, the connection mode between the diversified atomizing device and the air conditioner is realized, and the diversity of the air conditioner patterns is increased.

The atomization device comprises a plurality of lamp groups 30, and the emergent light colors of the lamp groups 30 are various, wherein the emergent light colors of the adjacent lamp groups 30 can be the same or different.

The emergent light color of the lamp group 30 can be realized by arranging different colored bulbs in the lamp group 30, and the different colored bulbs can be colored bulbs on the outer wall or the inner wall, or the bulbs are filled with gas to make the bulbs emit colored light; or, the RGB control signal can be changed through the circuit to control the bulb to emit light with different colors, or the bulb can be arranged in colored water to enable colored light to be emitted.

Alternatively, the atomization device comprises a plurality of lamp sets 30, and the emergent light of adjacent lamp sets 30 is different in color.

Through setting up the emergent light of adjacent banks 30 into different colours, with the bulb alternate distribution of different colours, different collocation in order to build different color effects, can form manifold light effect.

The yellow light set red light set white light set green light set bottom plate 40 comprises a limiting structure 50, the limiting structure 50 is used for fixing the transparent cover 20 on the bottom plate 40, and the transparent cover 20 is covered on the atomizer 10 and the light set 30 through the limiting structure 50. The position-limiting structure 50 may be selected as a position-limiting groove, and the transparent cover 20 can be fixed on the bottom plate 40 by embedding the transparent cover 20 in the position-limiting groove. The limiting structure 50 can also be in a clamping or threaded connection mode.

The translucent cover 20 includes the cover body and opening, and the opening of translucent cover 20 combines with limit structure 50 to realize that translucent cover 20 is connected with bottom plate 40, and the material of translucent cover 20 is transparent material, for example glass materials such as ya keli, also can be the plastics material, and the translucent cover 20 cover body can be hemisphere or semi-ellipsoid, also can be for square, cuboid, rhombus etc. also can be other irregular shapes, like the shape of flower, the shape of animal etc.. The shape of the transparent cover 20 as illustrated in fig. 1 is an example.

The shape of the opening of the transparent cover 20 does not absolutely correspond to the shape of the cover of the transparent cover 20, and the shape of the cover of the transparent cover 20 is irregular, for example, if the cover of the transparent cover 20 is in the shape of a flower or an animal, the opening may be circular or rectangular. The shape of the stopper structure 50 is determined based on the shape of the opening of the transparent cover 20, that is, when the opening of the transparent cover 20 has a circular shape, a rectangular shape, a rhombic shape, or the like, the stopper structure 50 also has a circular shape, a rectangular shape, a rhombic shape, or the like.

Through setting up translucent cover 20, set up atomizer 10 in the space that translucent cover 20 and bottom plate 40 formed, can restrict the fog that the atomizer generated in the space that translucent cover 20 and bottom plate 40 formed, slow down fog dissipation speed, simultaneously, because translucent cover 20 is transparent material, the user can observe the atomization effect directly perceived.

Through setting up atomizer 10 and banks 30 on bottom plate 40, including limit structure 50 on the bottom plate 40, translucent cover 20 covers through limit structure 50 and locates on atomizer 10 and banks 30, can limit the fog that atomizer 10 produced in the space that translucent cover 20 covered, combine the light that banks 30 sent, different light effects under fog and the different mode, can instruct the mode that the air conditioner located directly perceivedly, and through the combination of light and fog, can form good visual effect, the design of diversified air conditioner, the user experience of promotion air conditioner.

Alternatively, fig. 4 is a cross-sectional view of the cavity 302 embedded with the bulb 301 in fig. 3.

The lamp set 30 comprises a bulb 301 and a cavity 302, the cavity 302 is arranged on the bottom plate 40, and the bulb 301 is embedded in the cavity 302.

The lamp set 30 includes a plurality of lamps 301, such as yellow, red, white, green, etc., and for convenience of describing a method for indicating a subsequent air conditioner operation mode, lamps having a yellow bulb color are referred to as a yellow lamp set, lamps having a red bulb color are referred to as a red lamp set, lamps having a white bulb color are referred to as a white lamp set, and lamps having a green bulb color are referred to as a green lamp set. The bulbs 301 may be LED lamps, and the light emitted by the bulbs 301 in the lamp group 30 combines with the mist generated by the atomizer 10 to form a good visual effect.

The cavity 302 of the base plate 40 may be fixedly disposed on the base plate, and the specific shape of the open side 3021 of the cavity is not limited, and may be circular, rectangular, or diamond. The lamp set 30 can be fixed on the base plate by embedding the lamp bulb 301 in the cavity 302.

Optionally, the cavity 302 is provided with a transparent flap.

In order to prevent atomized water or water splashed by an atomizer from falling on the lamp and causing damage to the lamp and related circuits, a transparent blocking sheet is arranged on the opening side 3021 of the cavity 302 and used for blocking water for the bulb 301 embedded in the cavity 302. Transparent separation blade can be transparent glass material or plastics material, and transparent separation blade's shape is confirmed according to the shape that holds the opening side 3021 in chamber, if the opening side 3021 that holds the chamber is circular opening, then transparent separation blade is circular separation blade, if the opening side 3021 that holds the chamber is the rectangle opening, then transparent separation blade is the rectangle separation blade.

Optionally, as shown in fig. 4, the sidewall of the cavity 302 is opaque, and the depth of the cavity 302 is greater than the length of the bulb 301, so that the bulb 301 embedded in the cavity 302 forms a cylindrical emergent light.

The side wall of the cavity 302 is light-tight, and the depth of the cavity 302 is longer than the longitudinal length of the lamp, so that when the lamp is embedded in the cavity 302, the plane where the opening side 3021 of the cavity is located is higher than the plane where the top end of the bulb 301 is located, the shape of the light beam emitted by the bulb 301 can be limited, the emergent light of the light beam is columnar, and the shape of the light beam can be limited by enabling the opening side 3021 of the cavity to be circular, rectangular or rhombic.

The lamp is embedded in the light-tight containing cavity 302 on the side wall, and the depth of the containing cavity 302 is longer than the longitudinal length of the lamp, so that the brightness of emergent light generated by the lamp is reduced progressively along with the irradiation distance, the closer the irradiation distance is (such as the closer to the containing cavity 302), the stronger the brightness is, the light is irradiated in fog, the brightness reduction effect is more obvious, and the layering effect with different brightness is formed.

Alternatively, control of the orientation of the light beam emitted by the bulb 301 may be achieved by controlling the angle of deflection of the cavity 302 in the base 40. For example, the cavity 302 may be set to be biased to the direction of the atomizer to indirectly control the bulb 301 to emit a light beam toward the direction of the atomizer, or the cavity 302 may be set to be vertical to indirectly control the bulb 301 to emit a light beam vertically upward.

Optionally, the lamp set 30 is disposed at an edge region of the limiting structure 50.

As shown in fig. 3, 5, or 6, a plurality of bulbs 301 of the lamp group 30 are disposed in the cavity 302 on the bottom plate 40, the transparent cover 20 is covered on the lamp group 30 through the limiting structure 50, and the lamp group 30 is disposed in the edge region of the limiting structure 50, that is, the cavity 302 is disposed in the edge region of the limiting structure 50, the edge region refers to the edge region of the limiting structure 50 biased toward the atomizer 10 side, specifically refers to the region within the fixed distance range of the limiting structure 50, which may be a specific distance value, such as 5 mm, 1 cm, or may be directly disposed adjacent to the cavity 302 and the limiting structure 50, and the adjacent disposition may refer to the limiting structure 50 being tangent to the opening side 3021 of the cavity 302, as shown in fig. 5, when the opening side 3021 of the cavity 302 is circular, and the limiting structure 50 is a limiting groove, the limiting structure 50 is tangent to the opening side 3021.

In view of the connection between the opening of the transparent cover 20 and the limiting structure 50, the lamp set 30 is disposed at the edge region of the limiting structure 50, that is, the edge region of the opening of the transparent cover 20, so that when the fog is dense, the lamp light is prevented from being completely covered by the fog, and meanwhile, a large irradiation area can be formed by the plurality of lamp sets 30 disposed at the edge region of the limiting structure 50, thereby forming a better irradiation effect. In addition, when the air conditioner is a cabinet air conditioner and the bottom plate 40 is a top shell of the air conditioner, the lamp set 30 is arranged along the edge area of the limiting structure 50, which is beneficial to replacing the bulb 301.

Alternatively, as shown in fig. 3, 5 or 6, a plurality of lamp sets 30 are disposed in the edge region of the limiting structure 50 in a circular, diamond, hexagonal or octagonal shape.

The lamp set 30 includes a bulb 301 and a cavity 301, and the plurality of lamp sets 30 are disposed in the edge region of the limiting structure 50 in a circular, diamond, hexagonal or octagonal shape, that is, the bulb 301/the cavity 301 are disposed in the edge region of the limiting structure 50 in a circular, diamond, hexagonal or octagonal shape. The cavities 302 are disposed on the bottom plate 40, and each cavity 302 of the bottom plate 40 is embedded with a bulb 301, so as to obtain better appearance effect, the plurality of cavities 302 are arranged in an aesthetic shape, such as a circle (as shown in fig. 3), a diamond, a hexagon or an octagon (as shown in fig. 6), and the shape herein is not limited specifically. By arranging the plurality of lamp sets 30 in the edge area of the limiting structure 50 in a certain shape, the irradiation area surrounded by the lamp sets can be maximized, and a better visual effect can be obtained.

Optionally, the transparent cover 20 is provided with through holes.

In one embodiment, the atomizer 10 is an atomizer for humidification, and the transparent cover 20 is provided with a through hole, so that the humidified mist generated by the atomizer 10 enters the space where the air conditioner is located from the through hole to achieve a humidification effect, and the humidifying state and the humidification effect of the humidifier can be directly observed by observing the mist generated by the atomizer through the transparent cover 20. Wherein a through hole may be provided at the opening of the atomizer 10.

Optionally, the plane of the open side 3021 of the cavity 302 is arranged obliquely towards the atomizer 10.

The plane of the open side 3021 is oriented toward the atomizer 10, i.e., the plane of the open side 3021 of the cavity 302 is configured to be inclined toward the atomizer 10, and the closer to the limiting structure 50, the higher the plane of the open side 3021 is, and conversely, the closer to the atomizer 10, the lower the plane of the open side 3021 is. After water drops on the inner wall of the transparent cover gather and flow down, the water drops flow into the atomization groove through the inclined plane where the opening side of the containing cavity is located, and the water is prevented from gathering on the plane where the containing cavity is located. The utility model discloses still provide an air conditioner.

As shown in fig. 7, the air conditioner includes an atomizing device 1 and an air conditioner body 2.

The air conditioner can be a cabinet air conditioner or a wall-mounted air conditioner.

In one embodiment, the air conditioner is a cabinet air conditioner and the base plate 40 is a top housing of the air conditioner.

The lamp group 30 is arranged in the edge area of the limiting structure, namely, the edge area of the cabinet air conditioner top shell, and the lamp group 30 is arranged at the edge to facilitate the replacement of the lamp.

Set up atomizing device 1 in cabinet-type air conditioner top for whole atomizing device 1 has certain distance with the people, makes the user obtain better experience of vwatching, simultaneously, also prevents that child from causing the air conditioner to destroy the damage by naughty.

Optionally, the air conditioner includes a processor, a memory, and an indication program of the air conditioner operation mode stored on the memory, where the processor is connected to the memory, and the processor may call the indication program of the air conditioner operation mode stored in the memory, and implement the steps of the following embodiments of the indication method of the air conditioner operation mode.

The method for indicating the operation mode of the air conditioner comprises the following steps:

after the air conditioner is powered on and started, whether the atomization function of the air conditioner is started or not is detected, wherein when the atomizer is used for humidifying, the atomization function refers to the humidifying function. The atomization function of the air conditioner can be actively started by a user, and can be judged whether to start the atomization function according to default settings through the forms of an air conditioner remote controller, buttons, voice control and the like.

And if the atomization function of the air conditioner is not started, the lamp set is not controlled to carry out atomization display, and whether the atomization function of the air conditioner is started or not is continuously detected.

Step S20, if the atomization function of the air conditioner is detected to be started, the operation mode of the air conditioner is obtained;

the air conditioner under the different mode of operation brings the air conditioner regulation effect of environmental difference for making the air conditioner outward appearance gorgeous, and from the visual suggestion people air conditioner in what kind of mode of operation, make under atomizing function open state, different mode of operation correspond different banks light effect.

The operation modes of the air conditioner comprise a cooling mode/an automatic cooling mode, a heating mode/an automatic heating mode, a ventilation mode and a dehumidification mode. The current operation mode of the air conditioner can be identified by reading the operation mode identification of the air conditioner.

Step S30, acquiring a light control instruction corresponding to the operation mode;

the light effect of the light banks corresponding to each operation mode is different, that is, the corresponding light control instructions are different, for example, in the heating mode, if it is desired to realize the flame effect of burning a bear through the combination of light and fog, the yellow light bank and the red light bank need to be turned on; in the cooling mode, where it is desired to achieve a "whiteout" cold air pop effect, the white light bank needs to be illuminated.

The lighting control instruction comprises a target bulb to be lighted, a mapping table corresponding to the operation mode and the lighting control instruction can be preset, and after the operation mode is determined, the corresponding lighting control instruction can be determined according to the mapping table, so that the target bulb is determined.

Optionally, the different operation modes correspond to different target bulbs, and also correspond to different bulb display times, and different display effects are brought by adjusting the bulb display times.

And step S40, controlling the corresponding lamp group to display based on the light control instruction.

And obtaining a target bulb to be lightened according to the light control instruction, and lightening the target bulb to realize a corresponding light effect. Optionally, the on/off of each bulb can be controlled according to the display time of each bulb or the switching time of the display of each bulb in the light control instruction.

Whether the atomization function through detecting the air conditioner opens, if the atomization function who detects the air conditioner has opened, then acquire the operational mode of air conditioner, acquire the light control instruction that the operational mode corresponds, based on the light control instruction control banks shows the light effect that corresponds, can realize that different operational modes correspond different light display effects, make display effect through light effect, can directly perceivedly see the current operational mode of air conditioner, and simultaneously, also make the air conditioner have better visual effect, increase the air conditioner variety.

Optionally, the step S40 includes:

when the operation mode of the air conditioner is a heating mode, the yellow light lamp group and the red light lamp group are lightened; when the operation mode of the air conditioner is a refrigeration mode, the white light lamp set is lightened; when the operation mode of the air conditioner is a ventilation mode, the white light lamp group and the green light lamp group are lightened; and when the operation mode of the air conditioner is a dehumidification mode, the white light lamp set and the red light lamp set are lightened.

The utility model discloses in, light yellow light banks/ruddiness banks/white light banks/green glow banks, indicate to light all yellow light banks/ruddiness banks/white light banks/green glow banks among the atomizing device.

Through the use of cold, warm tone light in the banks, the cooperation atomizer makes the air conditioner show different light effect: in the heating mode, the flame effect of burning bear can be seen; in the refrigeration mode, the 'white-in-the-air' cold air emitting effect can be seen; in the automatic mode, if the automatic cooling mode is adopted, the effect is in the cooling mode, and if the automatic heating mode is adopted, the effect is in the heating mode; in the ventilation mode, the air conditioner is fresh and light green; in the dehumidification mode, the color is light red. Through under the operating mode of different air conditioners, show different light display effect, can realize the instruction to air conditioner operating mode, and give people the impression of beauty.

Optionally, after acquiring the light control instruction corresponding to the operation mode, the method includes:

acquiring the starting time of the atomization function of the air conditioner;

through the combination of fog and light, realize different light effects, however if fog is too little, then probably can't realize the visual effect that needs, consequently, in order to practice thrift the electric energy, set for light and show postponing, after the time of predetermineeing after the air conditioner atomizing function is opened, control banks according to light control command and show corresponding light effect for before banks show corresponding light effect, the atomizer generates sufficient fog deposit in the translucent cover.

Therefore, before the control lamp set displays the corresponding light effect, the starting time of the atomization function of the air conditioner needs to be counted or directly obtained.

And when detecting that the starting time is greater than or equal to a preset threshold value, executing the step of controlling the corresponding lamp group to display based on the light control instruction.

The preset threshold value can be factory default setting of the air conditioner, and can also be determined according to the fog outlet speed of the atomizer, wherein the faster the fog outlet speed of the atomizer is, the smaller the preset threshold value is.

A timer can be set, the timer is triggered to be timed when the atomization function of the air conditioner is started, and when the starting time of the atomization function is greater than or equal to a preset threshold value, a prompt signal is sent out to trigger the execution of the step S40.

Through the time delay of setting up light demonstration after atomizing function opens, can accumulate sufficient fog in the translucent cover before the light shows to when light shows, combine to form good visual effect with existing fog.

Optionally, the method for indicating the operation mode of the air conditioner further includes:

after detecting an operation mode switching instruction, acquiring an operation mode after the air conditioner is switched; acquiring a light control instruction corresponding to the switched operation mode; and controlling the corresponding lamp group to display based on the light control instruction.

And after detecting the operation mode switching instruction, carrying out lighting control according to lighting logic corresponding to the switched operation mode so as to realize flexible switching of the lighting effect of the air conditioner.

The utility model also provides a storage medium, its storage has the instruction procedure of air conditioner operational mode. The storage medium may be a Memory in the air conditioner, or at least one of a ROM (Read-Only Memory)/RAM (Random Access Memory), and the storage medium includes several instructions for causing the air conditioner with a processor to execute the method according to various embodiments of the present invention.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (12)

1. The utility model provides an atomizing device, its characterized in that, atomizing device sets up in the air conditioner, atomizing device includes atomizer (10), translucent cover (20), banks (30) and bottom plate (40), atomizer (10) with banks (30) set up in on bottom plate (40), including limit structure (50) on bottom plate (40), translucent cover (20) pass through limit structure (50) cover is located atomizer (10) with on banks (30).

2. Nebulisation device according to claim 1, characterised in that said base plate (40) is removably associated with the casing of the air conditioner or in that said base plate (40) is the casing of the air conditioner.

3. The atomizing device according to claim 2, characterized in that the atomizing device comprises a plurality of lamp groups (30), and the colors of the light emitted from adjacent lamp groups (30) are different.

4. The atomizing device according to claim 3, characterized in that the lamp assembly (30) comprises a lamp bulb (301) and a cavity (302), the cavity (302) is disposed on the base plate (40), and the lamp bulb (301) is embedded in the cavity (302).

5. Nebulisation device according to claim 4, characterized in that said housing chamber (302) is provided with a transparent shutter.

6. The atomizing device according to claim 4, characterized in that the side wall of the cavity (302) is opaque and the depth of the cavity (302) is greater than the length of the bulb (301), so that the bulb (301) embedded in the cavity (302) forms a columnar emergent light.

7. Nebulising device according to one of claims 1 to 6, characterized in that the lamp group (30) is provided in the region of the edge of the limit structure (50).

8. Nebulising device according to claim 7, characterized in that a plurality of the lamp groups (30) are provided in the edge region of the limit structure (50) in the shape of a circle, a diamond, a hexagon or an octagon.

9. Nebulising device according to one of claims 1 to 6, characterised in that the transparent cover (20) is provided with through holes.

10. Atomising device according to any of the previous claims 4 to 6, characterised in that the plane of the open side (3021) of the cavity (302) is inclined towards the atomiser (10).

11. An air conditioner characterized in that it comprises an atomizing device as set forth in any one of claims 1 to 10.

12. The air conditioner according to claim 11, wherein the air conditioner is a cabinet air conditioner, and the base plate (40) is a top case of the air conditioner.

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