CN217880780U - Display device of air conditioning equipment and air conditioning equipment - Google Patents

Abstract

The utility model discloses a display device of air conditioning equipment and the air conditioning equipment, wherein the display device comprises a light guide component, a light emitting component, a light transmitting display component and a light reflecting component, the light guide component comprises a plurality of light guide plates, the light guide plates are provided with an incident part and a light emergent part, and the incident part and the light emergent part are arranged on the adjacent wall surfaces of the light guide plates; the light-emitting component comprises a plurality of indicator lights which are arranged opposite to the light-entering parts in a one-to-one correspondence manner; the light-transmitting display piece is provided with a plurality of display parts, and the display parts and the light-emitting parts are oppositely arranged in a one-to-one correspondence manner; the light reflecting assembly is arranged on one side of the light guide assembly, back to the light transmitting display part, and is provided with a plurality of first light reflecting surfaces which are arranged opposite to one side of the light emergent part of the light guide plates. The display device can clearly reflect the current working state of the air conditioning equipment, so that a user can clearly perceive the function operation condition of the air conditioning equipment, and the use experience of the user is improved.

Description

Display device of air conditioning equipment and air conditioning equipment

Technical Field

The utility model relates to an air conditioning equipment technical field particularly, relates to an air conditioning equipment's display device and air conditioning equipment.

Background

Among the prior art, the display mode that air conditioning equipment's display device has is monotonous, can't show some function salient of air conditioning equipment for the user, for example can't embody the effect of the function linkage of a plurality of dimensions of air conditioning equipment, leads to user's use to experience poorly, and air conditioning equipment's science and technology sense and aesthetic property are poor, exist and improve the space.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the above-mentioned technical problem among the prior art to a certain extent at least. Therefore, the utility model provides an air conditioning equipment's display device, this display device can be clear reflect the current operating condition of air conditioning equipment for the perception air conditioning equipment's that the user can be clear function operation condition has improved user's use and has experienced.

The utility model also provides an air conditioning equipment of having above-mentioned display device.

According to the utility model discloses a display device of embodiment includes: the light guide assembly comprises a plurality of light guide plates, each light guide plate is provided with an incident light part and an emergent light part, and the incident light part and the emergent light part are arranged on adjacent wall surfaces of the light guide plates; the light-emitting component comprises a plurality of indicator lights, and the indicator lights are arranged opposite to the light-entering parts in a one-to-one correspondence manner; the light-transmitting display piece is provided with a plurality of display parts, and the display parts and the light-emitting parts are oppositely arranged in a one-to-one correspondence manner; the light guide plate is arranged on the light guide plate, the light reflection assembly is arranged on one side of the light guide plate, which is back to the light transmission display piece, and the light reflection assembly is provided with a plurality of first light reflection surfaces which are opposite to one side of the light guide plate, which is back to the light outlet part.

According to the utility model discloses an air conditioning equipment's display device, this display device can be clear reflect the current operating condition of air conditioning equipment for the perception air conditioning equipment's that the user can be clear function operation condition has improved user's use and has experienced.

In addition, according to the display device of the embodiment of the present invention, the following additional technical features may be further provided:

according to some embodiments of the present invention, the plurality of display portions are configured to display adjustment states of a plurality of adjustment dimensions of the air conditioning apparatus, the adjustment states including an open-closed state and/or a current progress; the multiple adjusting dimensions are four or more than four of temperature, humidity, air outlet, purification, fresh air or sterilization.

According to some embodiments of the utility model, it is a plurality of the display part is still used for showing the linkage mode state of opening of air conditioner under the linkage mode, in response to the control command to the first regulation dimension in a plurality of regulation dimensions of air conditioning equipment, control under the circumstances of first regulation dimension control in a plurality of regulation dimensions except that the regulation dimension has been opened beyond the first regulation dimension.

According to some embodiments of the present invention, each of the indicator lamps includes a plurality of light emitting portions, each of the plurality of light emitting portions in the indicator lamp are arranged at intervals along a predetermined direction.

According to the utility model discloses a some embodiments, it is a plurality of pilot lamp and a plurality of the light guide plate is followed respectively preset direction arranges.

According to the utility model discloses a some embodiments, every the orientation of light guide plate one side of pilot lamp is equipped with a plurality of mouths of dodging, every the pilot lamp is a plurality of the illuminating part one-to-one is established correspondingly the light guide plate is a plurality of dodge intraorally.

According to some embodiments of the present invention, at least one of the display portions has a plurality of display steps, and the display portion is configured to represent a current display step according to a light emitting quantity or a light emitting intensity of the light emitting portions in the indicator lamp.

According to some embodiments of the utility model, light emitting component still includes the circuit board, the circuit board is with a plurality of the pilot lamp is connected, the circuit board is located reflection of light subassembly dorsad one side of leaded light subassembly.

According to some embodiments of the invention, each of the indicator lights has an electrical connection portion extending toward the circuit board, the light reflecting assembly has a through hole, the electrical connection portion is adapted to pass through the through hole to be electrically connected with the circuit board.

According to some embodiments of the invention, the reflective assembly comprises: the light guide plate comprises a plurality of light guide plates, a plurality of light-emitting parts and a plurality of first light-reflecting surfaces, wherein the light-emitting parts are arranged on the light guide plates, and the first light-reflecting surfaces are formed on the light-reflecting films in a one-to-one correspondence mode.

According to some embodiments of the invention, the reflective assembly comprises: the light guide plate comprises a plurality of light guide plates, a plurality of light-emitting parts and a plurality of first light reflecting surfaces, wherein the light-emitting parts are arranged on the light guide plates, the light guide plates are arranged on the light guide plates, the light-emitting parts are arranged on the light guide plates, and the first light reflecting surfaces are arranged on the light guide plates in a one-to-one correspondence mode.

According to some embodiments of the present invention, the light reflecting member is oriented such that one side of the light guide member has a plurality of first mounting recesses, and the light guide plate is disposed in the first mounting recesses in a one-to-one correspondence, and the first light reflecting surface is formed on the bottom wall of the first mounting recesses.

According to some embodiments of the invention, the side wall of the first mounting recess is formed with a second light reflecting surface.

According to some embodiments of the utility model, the orientation of light guide plate the reflection of light cavity that a plurality of arrays were arranged is seted up to one side of first reflection of light face.

According to some embodiments of the invention, the plurality of reflective cavities in two adjacent rows and/or two adjacent columns are arranged in a staggered manner.

According to the utility model discloses a some embodiments, the orientation of light guide plate one side of first reflection of light face is equipped with multistage ripple shape or zigzag shape recess, multistage the recess is along being close to go into the direction of light portion and link to each other in proper order.

According to some embodiments of the invention, the length of the groove increases progressively in the direction away from the light entry portion.

According to some embodiments of the invention, the light transmissive display comprises: a light-transmitting plate covering the plurality of light-emitting portions; the display device comprises a plurality of light emitting parts, a plurality of display films and a plurality of light emitting parts, wherein the display films are arranged opposite to the light emitting parts in a one-to-one correspondence manner, each display film is positioned between the light transmitting plate and the corresponding light emitting part, and the display parts are arranged on the display films and comprise preset patterns.

According to some embodiments of the present invention, the display membrane further has a gradual texture.

According to some embodiments of the invention, the display membrane is bonded to the corresponding light-emitting portion.

According to some embodiments of the present invention, the display device of the air conditioning apparatus further comprises: the light guide assembly, the light emitting assembly and the light reflecting assembly are arranged in the second mounting concave part, the light emitting part corresponds to the opening of the second mounting concave part, and the light transmitting display part covers the opening of the second mounting concave part.

According to another aspect of the present invention, an air conditioning apparatus comprises a panel and the display device, wherein the display device is disposed on the panel.

Drawings

Fig. 1 is a schematic structural view of an air conditioning apparatus according to an embodiment of the present invention;

fig. 2 is a partial exploded view of an air conditioning apparatus according to an embodiment of the present invention;

fig. 3 is a partial exploded view of a display device according to an embodiment of the present invention;

fig. 4 is a partial cross-sectional view of a display device according to an embodiment of the invention;

fig. 5 is a partial exploded view of a display device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a light guide assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a light guide assembly according to an embodiment of the present invention;

fig. 8 is a partial cross-sectional view of a light guide assembly according to an embodiment of the present invention;

fig. 9 is a schematic view of an application scenario provided by an embodiment of the present invention;

fig. 10 is a schematic view of another application scenario provided by the embodiment of the present invention;

fig. 11 is a schematic view of another application scenario provided by an embodiment of the present invention;

fig. 12 is a flowchart of a control method of an air conditioning apparatus according to an embodiment of the present invention;

fig. 13 is a schematic view of an interface provided by an embodiment of the present invention;

fig. 14 is a schematic view of another interface provided by the embodiment of the present invention;

fig. 15 is a schematic view of another interface provided by an embodiment of the present invention;

fig. 16 is a schematic view of another interface provided by an embodiment of the present invention;

fig. 17 is a schematic view of an interface provided by an embodiment of the present invention;

fig. 18 is a schematic view of another interface provided by an embodiment of the present invention;

fig. 19 is a schematic view of another interface provided by an embodiment of the present invention;

fig. 20 is a flowchart of another control method for an air conditioning apparatus according to an embodiment of the present invention;

fig. 21 is a flowchart of a control method of another air conditioning apparatus according to an embodiment of the present invention.

Reference numerals are as follows:

an air conditioning device 1000, a display device 100, a light emitting component 1, an indicator light 11, a light emitting part 111, an electrical connection part 112, a circuit board 12, an insertion hole 121, a light transmitting display part 2, a display part 21, an ambient temperature state display part 10, an ambient humidity state display part 20, an air outlet state display part 30, a purification state display part 40, a fresh air state display part 50, a light transmitting plate 22, a display diaphragm 23,

the light guide assembly 3, the light reflecting cavity 31, the zigzag-shaped groove 32, the light guide plate 33, the light incoming portion 331, the light outgoing portion 332, the avoiding opening 333, the support 4, the second mounting recess 41, the light reflecting assembly 5, the first light reflecting surface 51, the through hole 52, the light reflecting plate 53, the light reflecting film 54, the first mounting recess 55, the second light reflecting surface 56, the panel 200, the remote controller 2000 and the terminal device 220.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "vertical", "width", "thickness", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless expressly specified otherwise.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; may be mechanically, electrically or otherwise in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

A display device 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 8.

According to the present invention, the display device 100 may include: a light guiding member 3, a light emitting member 1, a light transmissive display member 2 and a light reflecting member 5.

The display device 100 is a device capable of displaying the current operation state of the air conditioning equipment 1000 on the air conditioning equipment 1000, and in the prior art, the display mode of the display device of the air conditioning equipment is monotonous, and some functions of the air conditioning equipment cannot be displayed to a user in a protruding manner, for example, the effect of function linkage of multiple dimensions of the air conditioning equipment cannot be embodied, so that the use experience of the user is poor, and the scientific and technological sense and the aesthetic property of the air conditioning equipment are poor.

Therefore, the embodiment of the present invention designs a display device 100 with a novel display method, the display device 100 controls a plurality of display portions 21 through a plurality of indicator lamps 11 respectively to correspond to the function of displaying a plurality of dimensions, so that the user can perceive the function operation condition of the air conditioning equipment 1000 and the current working state of the air conditioning equipment 1000 through the display device 100 clearly, the use experience of the user is improved, and the science and technology sense and the aesthetic property of the air conditioning equipment 1000 are improved.

The light emitting assembly 1 is a light source of the display device 100 and can emit light outwards, the light-transmitting display member 2 is arranged on one side of the light guide assembly 3, and the light emitted by the light emitting assembly 1 can be projected outwards from the display device 100 through the light-transmitting display member 2, so that a user can obtain information of the current operating condition of the air conditioning equipment 1000 according to the light projected by the light-transmitting display member 2.

The light guide assembly 3 has a plurality of light guide plates 33, the light guide plates 33 have light incident portions 331 and light emergent portions 332, the light incident portions 331 and the light emergent portions 332 are disposed on adjacent wall surfaces of the light guide plates 33, the light emitting assembly 1 includes a plurality of indicator lights 11, the indicator lights 11 are disposed opposite to the light incident portions 331 in a one-to-one correspondence manner, the light transmissive display 2 has a plurality of display portions 21, and the display portions 21 are disposed opposite to the light emergent portions 332 in a one-to-one correspondence manner.

The light reflecting assembly 5 is disposed on a side of the light guide assembly 3 facing away from the light transmissive display 2, and the light reflecting assembly 5 has a plurality of first light reflecting surfaces 51, and the plurality of first light reflecting surfaces 51 are disposed opposite to a side of the plurality of light guide plates 33 facing away from the light emitting portion 332.

Therefore, light entering the light guide plate 33 through the light incident portion 331 can be reflected by the first reflecting surface 51 of the light reflecting component 5 and projected to the light emergent portion 332, the light emitting component 1 has a plurality of indicator lights 11, the indicator lights 11 respectively correspond to one of a plurality of dimensional functions of the air conditioning equipment 1000, the indicator lights 11 are correspondingly arranged at the light incident portions 331 one by one, the light-transmitting display component 2 has a plurality of display portions 21, the display portions 21 respectively correspond to one of the plurality of dimensional functions of the air conditioning equipment 1000, the display portions 21 are correspondingly arranged at the light emergent portions 332 one by one, the light guide component 3 has a plurality of light guide plates 33, and the light guide plates 33 are transparent plates for guiding light emitted by the indicator lights 11 corresponding to one of the plurality of dimensional functions to the corresponding display portions 21.

Specifically, the indicator light 11 of the light emitting assembly 1 can emit light after receiving the instruction, the light emitted by the indicator light 11 enters the light guide plate 33 through the light incident portion 331 of the light guide plate 33, and the light in the light guide plate 33 is not directly projected onto the display portion 21 of the light transmissive display 2 located at the light incident portion 332 through the light incident portion 332, but is first projected onto the first reflective surface 51 of the light reflective assembly 5 located on the side of the light guide assembly 3 facing away from the light transmissive display 2, and is reflected once or multiple times by the first reflective surface 51, and then is projected onto the display portion 21 of the light transmissive display 2 located at the light incident portion 332 through the light incident portion 332.

Through the reflection of first reflection of light face 51, can project the light that pilot lamp 11 launches to bigger area to make display device 100's display effect better, and, under the diffuse reflection's of light guide plate 33 effect, can make the shining of light more even, avoid display portion 21 to appear the uneven phenomenon of light and shade.

Further, the air conditioning equipment 1000 can respectively correspond the luminous effect of controlling a plurality of indicator lights 11 through the controlling means, the light that the indicator light 11 sent passes through the reflection and the direction of leaded light subassembly 3 and reflection of light subassembly 5, project its display part 21 that corresponds, and project the image that can show the function running state of the air conditioning equipment 1000 that current indicator light 11 corresponds on display part 21, light sees through printing opacity display 2 and makes the user observe, the user can be through the function running condition of the clear perception air conditioning equipment 1000 of display device 100 and the current operating condition of air conditioning equipment 1000, improve user's use experience, the science and technology sense and the aesthetic property of air conditioning equipment 1000 have been improved

Further, because the utility model discloses a transparent light guide plate 33 leads to the light, need not to form certain angle between light-emitting component and the first reflection of light face 51 so that light can obtain the reflection, has reduced display device 100 and has arranged required space, and display device 100 holistic thickness also need not the thicker that sets up, can reduce the holistic thickness of air conditioning equipment 1000.

And under the effect of transparent light guide plate 33 and reflection assembly 5, light can obtain abundant reflection and refraction, and the light of projecting display unit 21 is more even, has avoided the uneven problem of luminance on the display unit 21, has improved display effect.

According to the utility model discloses display device 100, this display device 100 can be clear reflect the current operating condition of air conditioning equipment 1000 for perception air conditioning equipment 1000's that the user can be clear function operation condition has improved user's use and has experienced, has improved air conditioning equipment 1000's science and technology sense and aesthetic property.

As shown in fig. 1, the plurality of display portions 21 are used for displaying adjustment states of a plurality of adjustment dimensions of the air-conditioning apparatus 1000, and the adjustment states include an open-close state and/or a current progress, so that a user can feel the adjustment effect of the air-conditioning apparatus 1000 on the plurality of adjustment dimensions more clearly, the user is prompted that the air-conditioning apparatus 1000 has entered a linkage mode, and the effect generated after linkage is clearly fed back to the user, thereby improving the user experience.

Wherein, the multiple adjusting dimensions are four or more than four of temperature, humidity, air outlet, purification, fresh air or sterilization.

According to some embodiments of the present invention, it is a plurality of display part 21 is also used for displaying the linkage mode open state of air conditioning equipment 1000 under the linkage mode, in response to the control command to the first regulation dimension among a plurality of regulation dimensions of air conditioning equipment, control under the condition of first regulation dimension control among a plurality of regulation dimensions except that the regulation dimension has been opened beyond the first regulation dimension. Therefore, the display device 100 can embody the effect of linkage of functions of multiple dimensions of the air conditioning equipment 1000, so that the user can better perceive the functions of the air conditioning equipment 1000, and the user experience is improved.

In some embodiments, the air conditioning apparatus 1000 has a function of five-dimensional function linkage, and on this basis, in order to embody the five-dimensional linkage function of the air conditioning apparatus 1000 through the display device 100, the plurality of display portions 21 on the light-transmitting display member 2 may be respectively used for displaying an ambient temperature state, an ambient humidity state, an air outlet state, a purification state, and a fresh air state of the air conditioner, thereby achieving a purpose of embodying a linkage effect of the five-dimensional functions of the air conditioning apparatus 1000 in temperature, humidity, wind sensation, purification, and fresh air by using the display device 100.

Specifically, the light emitting assembly 1 has five indicator lights 11, the five indicator lights 11 respectively correspond to one of the five dimensional functions of the air conditioning apparatus 1000, the light transmitting display 2 of the air conditioning apparatus 1000 may have five display portions 21, which are an ambient temperature state display portion 10, an ambient humidity state display portion 20, an air-out state display portion 30, a purification state display portion 40, and a fresh air state display portion 50, respectively, the light guide assembly 33 has five light guide plates 33, and the light guide plates 33 can guide light emitted from the indicator lights 11 to the display portions 21 corresponding to the corresponding functions.

Referring to fig. 5, each indicator lamp 11 includes a plurality of light emitting portions 111, and the plurality of light emitting portions 111 in each indicator lamp 11 are arranged at intervals in a preset direction, whereby the number of light emitting portions 111 can be reduced without affecting the light emission luminance of the indicator lamp 11, and the production cost of the display device 100 can be reduced.

Among them, the arrangement of the plurality of indicator lights 11 along the preset direction not only facilitates observation of a user, but also enables the display effect of the display device 100 of the air conditioning apparatus 1000 to be more beautiful.

Moreover, by arranging the plurality of indicator lights 11 in the preset direction, the overall structure of the display device 100 can be made more compact, and the situation that the display device 100 occupies too much space in the air conditioning equipment 1000 due to too large volume is avoided, thereby reducing the overall volume of the air conditioning equipment 1000.

In some embodiments, the percentage of the number of the light emitting parts 111 sequentially lit from one side to the other side of the preset direction to the total number of the light emitting parts 111 may display the operation of the function displayed by the corresponding display part 21.

Referring to fig. 2 to 5, the plurality of indicator lamps 11 and the plurality of light guide plates 33 are arranged in a predetermined direction, respectively. By arranging the plurality of indicator lamps 11 and the plurality of light guide plates 33 in the predetermined direction, not only can the observation by the user be facilitated, but also the display effect of the display device 100 of the air conditioner 1000 can be more beautiful.

Moreover, the plurality of indicator lights 11 and the plurality of light guide plates 33 are arranged along the preset direction, so that the whole structure of the display device 100 is more compact, the phenomenon that the display device 100 is too large in size and occupies too much space in the air conditioner 1000 is avoided, and the whole size of the air conditioner 1000 is further reduced.

As shown in fig. 3 and 5, a plurality of avoiding openings 333 are provided on a side of each light guide plate 33 facing the indicator light 11, and the plurality of light emitting parts 111 of each indicator light 11 are provided in the plurality of avoiding openings 333 of the corresponding light guide plate 33 in a one-to-one correspondence, so that the light guide plate 33 can receive more light, the utilization rate of the light can be improved, the overall height of the display device 100 can be reduced, and the overall structure of the display device 100 can be more compact.

In some embodiments, at least one display 21 has a plurality of display positions, and different operating conditions of the functions displayed by the display 21 can be displayed through different display positions. Specifically, in some embodiments, the ambient temperature state display portion 10 may have 5 gears equally divided from 17 ℃ to 30 ℃, the ambient humidity state display portion 20 may be equally divided into 4 gears from 40% to 80%, the air-out state display portion 30 is 5 gears from a mute gear to a super-strong gear, the purification state display portion 40 only has one gear because it only needs to indicate two states of on and off, and the fresh air state display portion 50 is 4 gears according to the fresh air volume.

The display portion 21 is configured to indicate the current display range according to the number of light emissions of the plurality of light emission portions 111 in the indicator lamp 11. For example, when the temperature is 17 degrees, that is, when the ambient temperature display unit 21 is in the first position, the ambient temperature state display unit 10 may emit light from only one fifth of the number of light emitting units 111 of the indicator lamp 11 corresponding to the ambient temperature state display unit 10. The correspondence relationship between the shift range corresponding to the state of each function module and the luminance of the display unit is shown in the following table.

TABLE 1

As shown in fig. 2 to 4, the light emitting assembly 1 further includes a circuit board 12, and the circuit board 12 is connected to the plurality of indicator lamps 11 to supply power to the indicator lamps 11 and enable the indicator lamps 11 to emit light under the control of the control system. The circuit board 12 is disposed on a side of the light reflecting member 5 facing away from the light guiding member 3 to prevent the circuit board 12 from affecting light diffusion, so that the display device 100 is electrically connected to other structures in the air conditioning apparatus 1000.

In connection with the embodiments shown in fig. 3-5, each indicator light 11 has an electrical connection portion 112 extending toward the circuit board 12, the light reflecting member 5 has a through hole 52, the electrical connection portion 112 is adapted to pass through the through hole 52 to be electrically connected with the circuit board 12, the circuit board 12 has a plug hole 121, and the electrical connection portion 112 is adapted to be inserted into the plug hole 121 to be fixedly connected with the circuit board 12.

Thereby, the indicator lamps 11 and the circuit board 12 positioned at both sides of the light reflecting member 5 can be electrically connected, and the circuit arrangement between the indicator lamps 11 and the circuit board 12 is prevented from affecting the overall height of the display device 100.

As shown in fig. 5, the light reflecting member 5 includes: the plurality of light reflecting films 54 are disposed on the side of the plurality of light guide plates 33 facing away from the light exit portion 332 in a one-to-one correspondence, and the first light reflecting surface 51 is formed on the light reflecting films 54, so that the light can be reflected by the light reflecting films 54, and the thickness of the entire display device 100 can be further reduced.

Referring to fig. 3 and 4, the light reflecting member 5 includes: the plurality of light reflecting plates 53 are arranged on one side of the plurality of light guide plates 33, which faces away from the light emergent portion 332, in a one-to-one correspondence manner, and the first light reflecting surface 51 is formed on the light reflecting plates 53. Therefore, the first reflecting surface 51 formed on the reflecting plate 53 can reflect light, and the reflecting plate 53 is not easy to deform, so that the uniformity of light can be further ensured, and the display effect is improved.

Further, the material of the reflector 53 may be a thermoplastic material made of a fine alloy of polycarbonate and polypropylene, so as to improve the reflection effect and ensure the reflection effect of the reflector 53.

As shown in fig. 3 and 4, the light reflecting member 5 has a plurality of first mounting recesses 55 on a side facing the light guide member 3, and the plurality of light guide plates 33 are disposed in the plurality of first mounting recesses 55 in a one-to-one correspondence manner, so that not only the light guide plates 33 can be limited and the stability of disposing the light guide plates 33 can be ensured, but also other wall surfaces of the light guide plates 33 except for the wall surfaces where the light incident portion 331 and the light emergent portion 332 are located can be coated by the light reflecting member 5, thereby preventing light from being projected to the outside from other portions except for the light emergent portion 332 and ensuring the display effect. The first reflective surface 51 is formed on the bottom wall of the first mounting recess 55, so that the reflective effect is better, and the light utilization rate is improved.

As shown in fig. 4, the second light reflecting surface 56 is formed on the sidewall of the first mounting recess 55 to reflect the light reflected to the sidewall of the first mounting recess 55 to the light emitting portion 332, so that the light reflecting effect is better and the light utilization rate is improved.

As shown in fig. 6, a plurality of reflective cavities 31 are formed in an array on a side of the light guide plate 33 facing the first reflective surface 51, so that the forward light emitted from the light emitting part 111 is reflected by the reflective cavities 31 to form a surface light, which makes the light more uniform and has better display effect.

Referring to fig. 6, the light reflecting cavities 31 in two adjacent rows and/or two adjacent columns are staggered so that the adjacent light reflecting cavities 31 can cooperate with each other, and the light is refracted for multiple times to illuminate the display portion 21 more uniformly.

As shown in fig. 7, the light guide plate 33 has a plurality of corrugated or zigzag grooves 32 on a side facing the first reflective surface 51, and the plurality of grooves are sequentially connected in a direction approaching the light incident portion 331. Therefore, the forward light emitted by the light emitting part 111 is formed into surface light by the refraction of the plurality of sections of corrugated or zigzag grooves 32, so that the light is more uniform, and the display effect is better.

Referring to fig. 7 and 8, the lengths of the plurality of grooves increase in a direction away from the light incident portion 331, so that a gradual lighting effect can be formed on the display portion 21.

As shown in fig. 8, the groove close to the light incident portion 331 is a first-stage groove, the length L1= X of the first-stage groove, the length L2= X + a of the second-stage groove, the number of stages of the groove increases in the direction away from the light incident portion 331, and the length LN of the groove at the nth stage from the light incident portion 331 = X + N + a.

Referring to fig. 2, the light transmissive display member 2 includes: the light-transmitting plate 22 and the plurality of display membranes 23, the light-transmitting plate 22 covers the plurality of light-emitting parts 332, the plurality of display membranes 23 are arranged between the light-transmitting plate 22 and the light guide assembly 3, each display membrane 23 is located between the light-transmitting plate 22 and the corresponding light-emitting part 332, the plurality of display membranes 232 and the plurality of light-emitting parts 332 are arranged in a one-to-one correspondence manner, the light-transmitting plate 22 can protect the light guide assembly 3 and the display membranes 23 at the outer sides thereof, the display membranes 23 are prevented from deforming, and a certain decorative effect can be achieved.

And, the light can pass through the light-transmitting panel 22 so that the user can obtain information fed back by the air-conditioning apparatus 1000 from the transmitted light. Further, the display portion 21 is disposed on the display film 23 and includes a preset pattern, the preset pattern on the display film 23 can be displayed on the display portion 21 under the projection of light, and the user can obtain the corresponding function information displayed by the display portion 21 according to the preset pattern displayed on the display portion 21, so that the display effect of the display device 100 is better.

Further, the display film 23 may be a high temperature resistant polyester film, which has a stable size, is suitable for printing, and has good toughness and transparency.

In some embodiments, the display film 23 further has a gradual change pattern, and the light is projected on the gradual change pattern of the display film 23 to form a gradual change effect from light to dark, so that the display effect of the display device 100 is more beautiful.

According to the utility model discloses a some embodiments, printing opacity display member 2 adopts tectorial membrane injection moulding technology shaping in the mould, can avoid glue or the double faced adhesive tape of pasting to take place the phenomenon of coming unstuck on the printing opacity display member 2 from this, avoids the pattern blurring, avoids the position error of appearing of display diaphragm 23, ensures the display effect of display part 21.

According to the utility model discloses an in other embodiments, show that diaphragm 23 bonds in one side of light-passing board 22 towards light guide component 3, perhaps show that diaphragm 23 bonds on the light-emitting portion 332 that corresponds, can be so that show that diaphragm 23 can hug closely light-passing board 22 from this, avoid showing the problem of the pattern blurring that gapped and lead to between diaphragm and the light-passing board 22 to manufacturing cost has been reduced.

Referring to fig. 2 and 4, the display device 100 of the air conditioning apparatus 1000 further includes: support piece 4, one side of support piece 4 has second installation concave part 41, leaded light subassembly 3, light-emitting component 1 and reflection of light subassembly 5 set up in second installation concave part 41, from this, support piece 4 can play support and spacing effect in leaded light subassembly 3, light-emitting component 1 and reflection of light subassembly 5 to leaded light subassembly 3, light-emitting component 1 and reflection of light subassembly 5 in the periphery of leaded light subassembly 3, luminous component 1, ensure the stability that leaded light subassembly 3, light-emitting component 1 and reflection of light subassembly 5 set up.

Light-emitting portion 332 corresponds to the position of the opening of second mounting recess 41, and light-transmitting display element 2 covers the opening of second mounting recess 41, so that light emitted by light-emitting component 1 can be projected onto light-transmitting display element 2 through light-emitting portion 332 after being guided by light-guiding component 3 and reflected by light-reflecting component 5, and the setting of support member 4 does not affect the projection of light.

As shown in fig. 2 and 4, the supporting member 4 is provided with a rib at one side of the circuit board 12, and the rib extends from the sidewall of the second mounting recess 41 to the opening to fix the light guide assembly 3, the light emitting assembly 1 and the light reflecting assembly 5 in the second mounting recess 41.

One specific embodiment of the display device 100 is described below with respect to fig. 1-8.

According to the present invention, the display device 100 may include: a support 4, a light guiding assembly 3, a light emitting assembly 1, a light transmissive display 2 and a light reflecting assembly 5.

The light guide member 3 includes: the light guide assembly 3 has a plurality of light guide plates 33, the light guide plates 33 have light incident portions 331 and light emergent portions 332, the light incident portions 331 and the light emergent portions 332 are disposed on adjacent wall surfaces of the light guide plates 33, the light emitting assembly 1 includes a plurality of indicator lights 11, the indicator lights 11 are disposed opposite to the light incident portions 331 in a one-to-one correspondence manner, the light transmissive display member 2 has a plurality of display portions 21, and the display portions 21 are disposed opposite to the light emergent portions 332 in a one-to-one correspondence manner.

The light emitting module 1 includes: five indicator lights 11 and circuit board 12, five indicator lights 11 correspond to one of the five dimensional functions of air conditioning equipment 1000 respectively, and a plurality of indicator lights 11 are provided at a plurality of light entering portions 331 in a one-to-one correspondence.

The light-transmissive display member 2 includes: light-transmitting board 22 and display diaphragm 23, display portion 21 is located display diaphragm 23, light-transmitting display 2 includes five display portions 21, be ambient temperature state display portion 10, ambient humidity state display portion 20, air-out state display portion 30, purification state display portion 40 and new trend state display portion 50 respectively, light guide assembly 33 has five light guide plates 33, light that light guide plate 33 can be sent with pilot lamp 11 reflects to the display portion 21 that corresponds the function and corresponds. The display portions 21 are provided at the plurality of light emitting portions 332 in a one-to-one correspondence.

The indicator light 11 can emit light after receiving the instruction, the light emitted by the indicator light 11 enters the light guide plate 33 through the light incident portion 331 of the light guide plate 33, the light cannot be directly projected onto the display portion 21 of the light-transmitting display member 2 located at the light emergent portion 332 through the light emergent portion 332 in the light guide plate 33, but is projected onto the first light reflecting surface 51 of the light reflecting component 5 arranged on one side of the light guiding component 3, which is opposite to the light-transmitting display member 2, and is reflected once or multiple times by the first light reflecting surface 51, and then is projected onto the display portion 21 of the light-transmitting display member 2 located at the light emergent portion 332 through the light emergent portion 332.

Therefore, the light guide plate 33 can guide the light emitted by the indicator light 11 corresponding to one of the multiple dimensional functions to the corresponding display portion 21, the air conditioning equipment 1000 respectively controls the light emitting effect of the multiple indicator lights 11 through the control device, the light emitted by the indicator lights 11 is projected to the corresponding display portion 21 through the guiding and reflecting of the light guide component 3 and the reflecting component 5, and an image capable of displaying the functional operation state of the air conditioning equipment 1000 corresponding to the current indicator light 11 is projected on the display portion 21, the light passes through the light-transmitting display component 2 to enable the user to observe, the user can clearly sense the functional operation condition of the air conditioning equipment 1000 and the current working state of the air conditioning equipment 1000 through the display device 100, the use experience of the user is improved, and the scientific sense and the aesthetic property of the air conditioning equipment 1000 are improved.

One side of the support 4 has a second mounting recess 41, and the reflection assembly 5, the light emitting assembly 1 and the light guide assembly 3 are disposed in the second mounting recess 41.

According to another aspect of the present invention, the air conditioning apparatus 1000 comprises the panel 200 and the display device 100 described in the above embodiments, and the display device 100 is disposed on the panel 200.

According to the utility model discloses air conditioning equipment 1000 through adopting above-mentioned display device 100, makes air conditioning equipment 1000's function more easily by the user perception, has improved air conditioning equipment 1000's use and has experienced. Other configurations of the air conditioning apparatus 1000 are well known in the art and are not described in detail herein since they are well known to those skilled in the art.

At present, a plurality of adjustment dimensions of the air conditioning equipment can only be independently and respectively controlled, so that the control efficiency is low, and the user experience is not high.

In order to solve the technical problem, the embodiment of the present invention provides a linkage control scheme, specifically, after entering a linkage mode, in response to a control instruction for a first adjustment dimension in a plurality of adjustment dimensions for an air conditioning device, the adjustment dimensions are controlled to be opened except for the first adjustment dimension in the plurality of adjustment dimensions under the condition of controlling the first adjustment dimension.

Exemplarily, the technical solution of the present invention can be applied to the following scenarios, but is not limited thereto:

fig. 9 is a schematic view of an application scenario provided by an embodiment of the present invention. As shown in fig. 9, the application scenario may include: an air conditioning apparatus 1000 and a remote controller 2000, wherein a user can operate the remote controller 2000 to realize remote control of the air conditioning apparatus 1000.

Alternatively, the remote controller 2000 may be an infrared remote controller having an infrared transmitting unit, the air conditioning apparatus 1000 may have an infrared receiving unit thereon, the infrared remote controller transmits an infrared signal to the air conditioning apparatus 1000 through the infrared transmitting unit, and the air conditioning apparatus 1000 receives the infrared signal through the infrared receiving unit, thereby implementing remote control of the air conditioning apparatus 1000.

Fig. 10 is a schematic view of another application scenario provided by the embodiment of the present invention. As shown in fig. 9, the application scenario may include: the air conditioning system comprises an air conditioning device 1000 and a terminal device 220, wherein an Application (APP) for controlling the air conditioning device 1000 can be installed on the terminal device 220, and a user can operate the APP to realize remote control of the air conditioning device 1000.

Alternatively, the terminal device may be a mobile phone, a computer, etc., but is not limited thereto.

It should be understood that the air conditioning apparatus of fig. 9 and 10 may be a wall-mounted air conditioning apparatus or a cabinet-type air conditioning apparatus.

Fig. 11 is a schematic view of another application scenario provided by an embodiment of the present invention. As shown in fig. 11, the application scenario may include: an air conditioning device is provided with a touch panel, and a user can control the air conditioning device by operating on the touch panel.

It should be understood that the present invention is also applicable to voice or gesture control scenarios, etc. for air conditioning equipment.

The technical scheme of the utility model will be elaborated in detail below:

fig. 12 is a flowchart of a method for controlling an air conditioning apparatus according to an embodiment of the present invention, where the method may be performed by an air conditioning apparatus, which may be a cabinet type air conditioning apparatus or a wall-type air conditioning apparatus, and as shown in fig. 12, the method may include:

s410: starting a linkage mode of the air conditioning equipment, and pushing first prompt information to prompt a user that the air conditioning equipment enters the linkage mode;

s420: in the linkage mode, in response to a control instruction for a first adjustment dimension of the plurality of adjustment dimensions of the air conditioning device, the opened adjustment dimension of the plurality of adjustment dimensions other than the first adjustment dimension is controlled while controlling the first adjustment dimension.

Wherein, a plurality of display parts 21 are used for showing the current progress of a plurality of regulation dimensions one-to-one to the user can be more clear experience air conditioning equipment 1000 to a plurality of regulation dimensions's regulation effect, and to the user suggestion air conditioning equipment 1000 has got into the linkage mode, and with the clear feedback of the effect that produces after the linkage to the user, improve user's use experience.

It should be understood that the interlock mode refers to when the air conditioning apparatus acquires a control instruction for a first adjustment dimension of the plurality of adjustment dimensions, the air conditioning apparatus controls the activated adjustment dimension of the plurality of adjustment dimensions other than the first adjustment dimension while controlling the first adjustment dimension, which may be any one of the plurality of adjustment dimensions. For example, when a user adjusts the temperature dimension, the turned-on wind speed adjustment dimension may also be automatically adjusted. As another example, when a user turns on the wind speed adjustment dimension, the turned on humidity adjustment dimension may also be automatically adjusted. For another example, when a user closes a humidity adjustment dimension, the opened adjustment dimension may remain unchanged.

Optionally, the linkage mode is for multiple adjustment dimensions, which may be system defaults.

Optionally, the plurality of adjustment dimensions may include: temperature, wind speed, humidity, purification, fresh air, etc., but are not limited thereto. The wind speed adjustment dimension here may include a no-wind condition. The humidity adjustment dimension may include humidification and dehumidification.

Alternatively, the linked mode of turning on the air conditioning device includes the following cases, but is not limited thereto:

in the first case, the air conditioning equipment acquires a starting instruction, and responds to the starting instruction to start the linkage mode of the air conditioning equipment. For example, when the user turns on the air conditioning apparatus, the air conditioning apparatus automatically enters the linkage mode.

Optionally, the power-on instruction may be generated based on an operation of a user on a power-on key on a remote controller or a touch panel, or based on an operation of a user on a power-on icon on the APP, or the power-on instruction may be a voice instruction, a gesture or a gesture instruction, and the like.

And in the second situation, the air conditioning equipment acquires the linkage instruction, responds to the linkage instruction and starts the linkage mode of the air conditioning equipment. For example, after the user turns on the air conditioning device, the user may click on the linkage icon or key to cause the air conditioning device to automatically enter the linkage mode.

Optionally, the linkage instruction may be generated based on an operation of a user on a linkage key on a remote controller or a touch panel, or based on an operation of a user on a linkage icon on an APP, or the linkage instruction may be a voice instruction, a gesture or a posture instruction, and the like.

And thirdly, the air conditioning equipment acquires a selection instruction and a linkage instruction of at least one adjustment dimension, and responds to the selection instruction and the linkage instruction to start a linkage mode of the air conditioning equipment. For example, after the user turns on the air conditioning equipment, the user can select five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, and then the user clicks a linkage icon or a key to enable the air conditioning equipment to enter a linkage mode.

Optionally, in a third case, assuming that the user selects multiple adjustment dimensions, the air conditioning equipment may determine whether a maximum interval time of the selection instruction in the selection instructions of the multiple adjustment dimensions is less than a preset time length, and if the maximum interval time is less than the preset time length, respond to the selection instruction and the linkage instruction, and start the linkage mode of the air conditioning equipment.

Optionally, the preset duration may be 5s or 10s, etc., and the present invention does not limit this.

It is to be understood that setting the preset time period can reduce misjudgment of the air conditioning apparatus. For example, assuming that the preset duration is not set, the user selects the fresh air adjustment dimension at the time t, and after half an hour, the user selects the three-dimensional adjustment dimension of temperature, humidity and wind speed, and then the user can click or touch a linkage key or an icon, and the like.

The following is an exemplary illustration of the maximum interval time of the selection instruction: suppose that the user selects three adjustment dimensions of temperature, humidity and wind speed, and their corresponding selection times are: t, t +1s, t +2s, then the maximum interval time of the corresponding select instruction is t +2-t =2s for the three adjustment dimensions.

It should be understood that there are two scenarios in the second and third scenarios, one scenario being that the air conditioning apparatus defaults to the normal mode first after it is turned on, when the air conditioning apparatus can switch from the normal mode to the linkage mode if it acquires the linkage command, or after acquiring the selection command and the linkage command for at least one adjustment dimension. Another scenario is that the air conditioning device does not enter any mode after it is turned on, which may be referred to as an idle mode or which may be referred to as an idle state, and when the air conditioning device acquires a linking instruction or acquires a selection instruction and a linking instruction for at least one adjustment dimension, the air conditioning device may enter a linking mode. And at the moment, the air conditioning equipment responds to a starting-up instruction or the linkage instruction and starts at least one adjustment dimension in the plurality of adjustment dimensions.

It should be understood that the normal mode may also be referred to as an un-ganged mode, referring to a mode in which multiple adjustment dimensions are controlled independently, i.e., when a user controls any one adjustment dimension, the other adjustment dimensions are not controlled in a ganged manner.

It should be understood that the linkage command is used to turn on the linkage mode of the air conditioning device.

After the air conditioning equipment enters the linkage mode, the air conditioning equipment will open at least one adjusting dimension, and the following description is respectively made for the at least one adjusting dimension opened in the three cases of the opening linkage mode:

optionally, in the first case, or in the second case, when the air conditioning equipment directly enters the linkage mode after being turned on, the at least one adjustment dimension turned on by the air conditioning equipment may be any one of the following, but is not limited to this: the system defaults to the adjustment dimension needing to be started; adjustment dimensions of historical opening in the linkage mode; and determining the adjustment dimension required to be started according to the current environment.

For example, the system defaults to start five adjusting dimensions of temperature, humidity, wind speed, purification and fresh air, and based on the five adjusting dimensions, after the air conditioning equipment acquires a starting instruction or a linkage instruction, the five adjusting dimensions can be automatically started.

For example, the system defaults to start two adjustment dimensions of temperature and wind speed, and based on the default, after the air conditioning equipment acquires a starting instruction or a linkage instruction, the two adjustment dimensions can be automatically started.

For example, assuming that the adjustment dimensions that the user has turned on in the linkage mode last time are three adjustment dimensions of temperature, humidity, and wind speed, based on this, after the air conditioning equipment acquires the power-on instruction or the linkage instruction, the three adjustment dimensions may be turned on automatically.

For example, the air conditioning device may acquire current environmental data, such as temperature, humidity, pollution index, and the like, and further, the air conditioning device may determine adjustment dimensions that need to be opened according to the current environmental data, and based on this, after the air conditioning device acquires a power-on instruction or a linkage instruction, the adjustment dimensions that need to be opened may be automatically opened.

Optionally, when the air conditioning device is not used, and when the air conditioning device acquires the power-on instruction or the linkage instruction, the air conditioning device may turn on an adjustment dimension that needs to be turned on by default of the system or turn on an adjustment dimension that needs to be turned on according to the current environment. When the air conditioning equipment is used, when the air conditioning equipment acquires a starting instruction or a linkage instruction, the air conditioning equipment can start the adjustment dimension which is required to be started by default of the system, or start the adjustment dimension which is started in the linkage mode historically, or start the adjustment dimension which is required to be started according to the current environment.

Optionally, in the second case, when the air conditioning equipment is switched from the normal mode to the linkage mode, the at least one adjustment dimension turned on by the air conditioning equipment may be any one of the following, but is not limited to this: the system defaults to the adjustment dimension needing to be started; adjustment dimensions of historical opening in a linkage mode; adjustment dimension turned on in normal mode; and determining the adjustment dimension required to be started according to the current environment.

For example, it is assumed that the air conditioning device enters the normal mode first after being started, and it is assumed that the user turns on two adjustment dimensions of temperature and wind speed in the normal mode, and then the air conditioning device can automatically turn on the two adjustment dimensions of temperature and wind speed after acquiring the linkage instruction.

Optionally, in case three above, the air conditioning device may turn on at least one adjustment dimension based on the user's selection.

For example, the user may select at least one dimension of adjustment, for example, two dimensions of adjustment of temperature and wind speed, through a remote controller, APP, or a touch panel, and then the user may click or touch a linkage button or icon, and the like, so that the two dimensions of adjustment may be turned on.

It should be understood that the above-described first prompt message is used to prompt the user that the air conditioning apparatus has entered the linkage mode.

Optionally, the first prompt message is any one of the following, but is not limited thereto: the indicator light corresponding to the linkage mode is lightened; an indicator lamp corresponding to the linkage mode is normally on for a first preset time; the indicator lamp corresponding to the linkage mode presents a first preset color; the indicator light corresponding to the linkage mode presents a first preset color and is normally on for a first preset time; and the indicator light corresponding to the linkage mode flickers according to a first preset mode.

Alternatively, the indicator light 11 corresponding to the linkage mode may be disposed in the cabinet touch panel or the on-hook display panel.

Alternatively, the number of the indicator lamps 11 corresponding to the linkage mode may be one or more.

Alternatively, the first preset time period may be 10 minutes, 30 minutes, or the like.

Alternatively, the first preset color may be blue, green, red, or the like.

Alternatively, the first preset pattern may flash once every N seconds, where N is a positive integer, or two adjacent flashes may be sequentially cycled at intervals of 1s,2s, respectively, and so on.

For example, as shown in fig. 12, an icon corresponding to the interlock mode is displayed on the interface, and the icon indicates that the indicator light 11 corresponding to the interlock mode is turned on, indicating that the interlock mode is turned on. As shown in fig. 14, no icon corresponding to the linkage mode is displayed in the interface, which represents that the linkage mode is closed.

For example, the indicator light 11 corresponding to the linkage mode is normally turned on for 10 minutes, which may indicate that the linkage mode has been turned on, and the indicator light 11 corresponding to the linkage mode is turned off, which may indicate that the linkage mode has been turned off.

For example, if the indicator light 11 corresponding to the linkage mode is green, it indicates that the linkage mode has been turned on, and the indicator light 11 corresponding to the linkage mode is turned off or red, which may indicate that the linkage mode has been turned off.

For example, if the indicator light 11 corresponding to the linkage mode is green and has a duration of 10 minutes, it indicates that the linkage mode is turned on, and the indicator light 11 corresponding to the linkage mode is turned off or red may indicate that the linkage mode is turned off.

For example, the indicator light 11 corresponding to the linkage mode flashes every 2 seconds to indicate that the linkage mode is turned on, and the indicator light 11 corresponding to the linkage mode is turned off or appears red to indicate that the linkage mode is turned off.

For example, the air conditioning equipment can also adopt the voice broadcast mode, reports to the user: "the interlock mode is turned on" indicates that the interlock mode is turned on.

In order to facilitate the user to distinguish which regulation dimension is in the open mode, which adjusts the dimension and is in the closed mode the embodiment of the utility model provides an in, air conditioning equipment can be to a plurality of regulation dimensions propelling movement third prompt information or fourth prompt information respectively, and third prompt information is used for being in the open mode to the regulation dimension that the user suggestion corresponds, and fourth prompt information is used for being in the closed mode to the regulation dimension that the user suggestion corresponds.

Optionally, for any adjustment dimension of the plurality of adjustment dimensions, the corresponding third prompt information may be any one of the following, but is not limited to this: the indicator lamp corresponding to any adjusting dimension presents a third preset color; the indicator lamp corresponding to any adjusting dimension presents a third preset color and is normally on for a third preset time; and the indicator lamp corresponding to any adjusting dimension flickers according to a third preset mode.

Optionally, the indicator light 11 corresponding to the adjustment dimension may be disposed in the cabinet touch panel or the on-hook display panel.

Optionally, the number of the indicator lights 11 corresponding to the adjustment dimension may be one or more.

Alternatively, the third preset time period may be 1s or 2s, etc.

Alternatively, the third preset color may be white, blue, green, red, or the like.

Alternatively, the third preset pattern may flash once every P seconds, where P is a positive integer, or two adjacent flashes may be sequentially cycled every 2s,1s, and so on.

Optionally, for any adjustment dimension of the plurality of adjustment dimensions, the fourth hint information corresponding to the adjustment dimension is any one of the following, but is not limited to this: the indicator light corresponding to any adjusting dimension is turned off; the indicator light corresponding to any one of the adjustment dimensions presents a fourth preset color.

Alternatively, the fourth preset color may be red, purple, or the like.

For example, as shown in fig. 12, a striped box indicates that the indicator light 11 appears white, representing that the corresponding adjustment dimension is in an on state, and a blank box indicates that the indicator light 11 is off, representing that the corresponding adjustment dimension is in an off state. It can be seen that the result shown in fig. 13 is that the current temperature and air conditioning dimensions are on, while the humidity, purification and fresh air conditioning dimensions are off.

Optionally, in order to facilitate the user to know the respective progress of the adjustment dimensions, the air conditioning device may further display the current progress of the adjustment dimension for any of the adjustment dimensions while the adjustment dimension is in the on state.

For example, as shown in fig. 15, a bar box indicates that the indicator light 11 appears white, representing that the corresponding adjustment dimension is in an on state, and the length of the bar box indicates the current progress of the adjustment dimension.

It should be understood that in fig. 15, the on/off state and the current progress of one adjustment dimension are indicated simultaneously by the same indicator light 11. In practice, the on/off status of one adjustment dimension and the current progress may also be indicated by different indicator lights 11.

For example, as shown in fig. 16, the striped box indicates that the indicator light 11 appears white, representing that the corresponding adjustment dimension is in an on state, and the shaded height indicates the current progress of the adjustment dimension.

It should be understood that the indicator light 11 represented by a striped box in fig. 16 indicates the on/off state of the adjustment dimension, and the indicator light 11 represented by a shaded portion indicates the current progress of the adjustment dimension. In fact, the on/off state of the adjustment dimension may also be indicated by the indicator light 11 represented by a shaded portion, and the current progress of the adjustment dimension may be indicated by the indicator light 11 represented by a striped frame. Alternatively, both the indicator lights 11 may indicate the on/off state of the adjustment dimension and the current progress simultaneously.

It should be understood that, in the embodiment of the present invention, for the linkage mode, the above-mentioned first adjustment dimension may be referred to as a main adjustment dimension, and any one of the opened adjustment dimensions except the first adjustment dimension among the plurality of adjustment dimensions is controlled in the case of controlling the first adjustment dimension is referred to as a second adjustment dimension.

For example, assuming that a user controls the temperature adjustment dimension through a remote control, APP, or touch panel, then the temperature adjustment dimension may be referred to as the primary adjustment dimension. And the started wind speed, humidity, fresh air and purification adjusting dimensions of the air conditioning equipment in linkage control can be called as second adjusting dimensions based on the control of the temperature adjusting dimensions.

In order to make the user can the audio-visual impression own controlled regulation dimension the embodiment of the utility model provides an in, air conditioning equipment can be to first regulation dimension propelling movement second prompt message to indicate first regulation dimension to the user and be main regulation dimension.

Optionally, the second prompt message is any one of the following, but is not limited thereto: the indicator lamp corresponding to the first adjusting dimension presents a second preset color; the indicator light corresponding to the first adjustment dimension presents a second preset color and is normally on for a second preset time; and the indicator lamp corresponding to the first adjusting dimension flickers according to a second preset mode.

Optionally, the indicator light 11 corresponding to the first adjustment dimension may be disposed in the cabinet touch panel or the on-hook display panel.

Optionally, the indicator light 11 corresponding to the first adjustment dimension may be one or more.

Alternatively, the second preset time period may be 3s or 5s, etc.

Alternatively, the second preset color may be blue, green, red, or the like.

Alternatively, the second preset mode flicker may be flicker once every M seconds, where M is a positive integer, or two adjacent flicker intervals are respectively 1s,3s, and so on, which are sequentially cycled.

For example, as shown in fig. 17, assuming that the temperature adjustment dimension is the main adjustment dimension, when the user is currently controlling the adjustment dimension, its corresponding indicator light 11 may appear blue and last for 1s, with the black dot box in fig. 17 indicating that the indicator light 11 appears blue.

Optionally, the air conditioning device may also display the control progress of the first adjustment dimension in response to the control instruction.

For example, as shown in fig. 18, assuming that the temperature adjustment dimension is the main adjustment dimension, when the user is currently controlling the adjustment dimension, its corresponding indicator light 11 may appear blue and last for 1s, the indicator light 11 appears blue as indicated by a black dot box in fig. 18, and the change in length of the black dot box indicates the control progress of the temperature adjustment dimension.

For example, as shown in fig. 19, assuming that the temperature adjustment dimension is the main adjustment dimension, when the user is currently controlling the adjustment dimension, its corresponding indicator light 11 may appear blue for 1s, the indicator light 11 appears blue as indicated by a black dot box in fig. 19, and the height change of the shaded portion indicates the control progress of the temperature adjustment dimension.

It should be understood that the temperature adjustment dimension is indicated by a black box in fig. 19 as a main adjustment dimension, and the progress of control of the temperature adjustment dimension is indicated by a shaded portion. In fact, the shaded part may also be used to indicate the temperature adjustment dimension as the main adjustment dimension, and the length change of the stripe frame may be used to indicate the control progress of the temperature adjustment dimension. Alternatively, both portions may indicate both the temperature adjustment dimension as the primary adjustment dimension and the control progress of the temperature adjustment dimension.

In the embodiment of the utility model, the air conditioning equipment can start the linkage mode of the air conditioning equipment; in the linkage mode, in response to a control instruction for a first adjustment dimension of the plurality of adjustment dimensions of the air conditioning device, the opened adjustment dimension of the plurality of adjustment dimensions other than the first adjustment dimension is controlled while controlling the first adjustment dimension. The user does not need to independently control other adjusting dimensions, the control efficiency can be improved through the linkage control mode, and the user experience can be improved. In addition, the air conditioning equipment can also push first prompt information to prompt a user that the air conditioning equipment enters a linkage mode, and the user experience can also be improved.

Further, the air conditioning equipment can also respectively push third prompt information or fourth prompt information aiming at a plurality of adjustment dimensions, so that a user can distinguish which adjustment dimensions are in an on state and which adjustment dimensions are in an off state, and the user experience can be improved. The air conditioning device may also present the current progress for each adjustment dimension, which may also improve user experience. The air conditioning equipment can also push second prompt information aiming at the main adjusting dimension so that the user can know which main adjusting dimension is, and therefore the user experience can be further improved.

The control method of the air conditioning apparatus will be described in further detail below:

as shown in fig. 20, the step S420 may include:

s1210: in the linkage mode, in response to a control instruction for the first adjustment dimension, for a second adjustment dimension of the started adjustment dimensions, controlling the second adjustment dimension to change under the condition of controlling the first adjustment dimension; or when the priority of the second adjustment dimension is lower than that of the first adjustment dimension, controlling the second adjustment dimension to change under the condition of controlling the first adjustment dimension; alternatively, the second adjustment dimension is controlled to remain unchanged while the first adjustment dimension is controlled.

It should be understood that the second adjustment dimension may be any of a plurality of adjustment dimensions other than the first adjustment dimension that has been turned on.

Optionally, the priority of a plurality of regulation dimensions can be that air conditioning equipment set up when dispatching from the factory, perhaps, the user can set up the priority of these regulation dimensions through remote controller, APP or touch panel, the utility model discloses do not restrict this.

It should be understood that, from S1210, the linkage control of the second adjustment dimension includes the following cases: the second adjustment dimension is controlled to be constant or variable.

When the air conditioning device controls the second adjustment dimension to change, it may adjust the second adjustment dimension in the following realizable manner, but is not limited to this:

in a first implementation manner, the air conditioning equipment determines the adjustment amount of the first adjustment dimension; determining a mapping relation between the adjustment quantity of the first adjustment dimension and the adjustment quantity of the second adjustment dimension; determining an adjustment quantity of a second adjustment dimension based on the adjustment quantity of the first adjustment dimension and the mapping relation; and adjusting the second adjusting dimension according to the adjusting amount of the second adjusting dimension.

For example, assuming that the first adjustment dimension is a temperature adjustment dimension and the second adjustment dimension is a wind speed adjustment dimension, when the user adjusts the temperature from 25 degrees to 22 degrees, the air conditioning device determines that the adjustment amount of the temperature is-3 degrees, and assuming that the wind speed adjustment amount corresponding to-3 degrees is an up-1 st gear wind speed, based on which the air conditioning device may automatically control the wind speed to be up-1 st gear.

It should be understood that, for different adjustment dimensions, the adjustment granularity is different, for example, the temperature can be adjusted according to degree centigrade one degree, and even the adjustment granularity can be 0.5 degree, but the wind speed, the humidity, the fresh air and the purification can be adjusted according to the gear one grade, therefore, the mapping relationship between the adjustment quantity of the first adjustment dimension and the adjustment quantity of the second adjustment dimension can be the corresponding relationship between the temperature adjustment quantity interval and the gear adjustment quantity, for example, when the temperature adjustment quantity is below-10 degrees, the wind speed adjustment quantity is raised by 3 grades, when the temperature adjustment quantity is between-10 degrees and-5 degrees, the wind speed adjustment quantity is raised by 2 grades, when the temperature adjustment quantity is between-5 degrees and-1 degrees, the wind speed adjustment quantity is raised by 1 grade, when the temperature adjustment quantity is between 1 degrees and 5 degrees, the wind speed adjustment quantity is lowered by 1 grade, when the temperature adjustment quantity is above 10 degrees, the wind speed adjustment quantity is lowered by 3 grades. Or, the mapping relationship between the adjustment amount of the first adjustment dimension and the adjustment amount of the second adjustment dimension may be a mapping relationship between the shift adjustment amount and the shift adjustment amount, for example, when the wind speed is raised by 1 shift, the humidity is also raised by 1 shift in a linkage manner, and when the wind speed is raised by 2 shifts, the humidity is also raised by 2 shifts in a linkage manner.

It should be understood that, if the first adjustment dimension is wind speed, humidity, purification or fresh air, the second adjustment dimension is temperature, and since the temperature is a continuous value, after the air conditioning equipment determines the adjustment amount of the first adjustment dimension, according to the corresponding relationship between the adjustment amount of the first adjustment dimension and the temperature adjustment amount interval of the second adjustment dimension, it determines that it is a temperature adjustment amount interval, and then the air conditioning equipment may select one temperature adjustment amount in the temperature adjustment amount interval according to a certain preset rule, for example, select a maximum value, a minimum value or an intermediate value in the interval, and the application is not limited thereto.

Alternatively, after the air conditioning apparatus determines the adjustment amount of the second adjustment dimension based on the mapping relationship and the adjustment amount of the first adjustment dimension, it may be determined whether the adjustment amount of the second adjustment dimension determined based on the mapping relationship is less than or equal to the maximum adjustable amount of the second adjustment dimension, and if the adjustment amount of the second adjustment dimension determined based on the mapping relationship is less than or equal to the maximum adjustable amount of the second adjustment dimension, the second adjustment dimension is adjusted by the adjustment amount of the second adjustment dimension determined based on the mapping relationship. And if the adjustment amount of the second adjustment dimension determined based on the mapping relation is larger than the maximum adjustable amount of the second adjustment dimension, adjusting the second adjustment dimension according to the maximum adjustable amount of the second adjustment dimension, or if the adjustment amount of the second adjustment dimension determined based on the mapping relation is larger than the maximum adjustable amount of the second adjustment dimension, adjusting the second adjustment dimension according to the maximum adjustable amount of the second adjustment dimension, and continuing to circulate to the minimum value of the second adjustment dimension to start adjustment until the adjustment amount reaches the adjustment amount of the second adjustment dimension determined based on the mapping relation.

For example, since each adjustment dimension has a limit of the highest and lowest values, for example, assuming that the wind speed is highest in 5 th gear and the current wind speed is in 3 rd gear, if it is assumed according to the above mapping that the wind speed needs to be increased by 3 th gear, obviously the wind speed is already beyond the highest value of the wind speed, and then the wind speed can be increased to 5 th gear, or the wind speed adjustment is a cyclic adjustment process, and when the wind speed is increased to 5 th gear, the wind speed adjustment can be continued to enter 1 st gear again.

In a second implementation, the air conditioning device may determine a target value for the first adjustment dimension; determining an adjusted value corresponding to the second adjustment dimension according to the target value of the first adjustment dimension; and adjusting the second adjustment dimension according to the adjusted value corresponding to the second adjustment dimension.

Alternatively, the target value may be a current opening value of the first adjustment dimension if the control instruction for the first adjustment dimension is an opening instruction, and the target value may be an adjusted value of the first adjustment dimension if the control instruction for the first adjustment dimension is an adjustment instruction.

For example, assuming that the first adjustment dimension is a temperature adjustment dimension, the second adjustment dimension is a wind speed adjustment dimension, the adjusted temperature is 25 degrees, and the 25 degrees corresponding to a wind speed should be 1 st gear, if the current wind speed of the air conditioning device is 2 nd gear, the air conditioning device may reduce the wind speed by 1 st gear.

Optionally, the air conditioning equipment may determine the amount to be adjusted in the second adjustment dimension according to the current value of the second adjustment dimension and the adjusted value corresponding to the second adjustment dimension; determining a maximum adjustable amount of the second adjustment dimension; if the to-be-adjusted amount of the second adjustment dimension is smaller than or equal to the maximum adjustable amount of the second adjustment dimension, adjusting the second adjustment dimension according to the adjusted value corresponding to the second adjustment dimension, if the to-be-adjusted amount of the second adjustment dimension is larger than the maximum adjustable amount of the second adjustment dimension, adjusting the second adjustment dimension according to the maximum adjustable amount of the second adjustment dimension, or if the to-be-adjusted amount of the second adjustment dimension determined based on the mapping relation is larger than the maximum adjustable amount of the second adjustment dimension, adjusting the second adjustment dimension according to the maximum adjustable amount of the second adjustment dimension, and continuing to circulate to the minimum value of the second adjustment dimension to start adjustment until the adjustment amount reaches the adjustment amount of the second adjustment dimension determined based on the mapping relation.

It should be understood that, in the embodiment corresponding to fig. 20, the control method provided by this embodiment may be adopted for each second adjustment dimension, that is, there may be the following cases:

in case one, the air conditioning apparatus may control all of the second adjustment dimensions to be changed while controlling the first adjustment dimension in response to a control command for the first adjustment dimension in the linkage mode.

For example, to temperature, wind speed, humidity, purification, these five regulation dimensions of new trend, assume that the user adjusts the temperature to 23 degrees from 20 degrees, then air conditioning equipment can coordinated control wind speed promote 1 shelves, and humidity promotes 1 shelves, purifies and promotes 2 shelves, and the new trend promotes 2 shelves.

In case two, the air conditioning apparatus may control all second adjustment dimensions to remain unchanged while controlling the first adjustment dimension in response to a control command for the first adjustment dimension in the linkage mode.

For example, for five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, assuming that the user closes the temperature adjustment dimension, the air conditioning equipment can keep the four adjustment dimensions of wind speed, humidity, purification and fresh air unchanged.

In case three, the air conditioning apparatus may change a second adjustment dimension having a lower control priority than the first adjustment dimension in the case of controlling the first adjustment dimension in response to a control instruction for the first adjustment dimension in the linkage mode.

For example, for five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, assuming that a user adjusts the wind speed adjustment dimension, and the priority of the three adjustment dimensions of humidity, purification and fresh air is lower than the wind speed adjustment dimension, the three adjustment dimensions of humidity, purification and fresh air can be changed by the air conditioning equipment.

In the fourth case, the air conditioning equipment can control part of the second adjustment dimension to be kept unchanged and part of the second adjustment dimension to be changed under the condition of controlling the first adjustment dimension in response to the control instruction for the first adjustment dimension in the linkage mode.

The case four is different from the case three in that the priorities of the multiple adjustment dimensions do not need to be considered in the case four.

For example, for five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, assuming that the user adjusts the temperature adjustment dimension, the air conditioning equipment can adjust the wind speed to change, and the three adjustment dimensions of other humidity, purification and fresh air remain unchanged.

Alternatively, the control command may be an opening command, a closing command or an adjusting command.

Optionally, the adjustment instruction is used to adjust the size of the corresponding adjustment dimension, for example, to adjust the temperature, the wind speed, the humidity, the fresh air, the size of the purification, and the like.

Alternatively, the air conditioning apparatus may control the second adjustment dimension to be changed while controlling the first adjustment dimension when the second adjustment dimension is lower in priority than the first adjustment dimension in response to an on command for the first adjustment dimension in the linkage mode.

For example, assuming that the plurality of adjustment dimensions are five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, the five adjustment dimensions are all opened, and the temperature adjustment dimension is a first adjustment dimension with higher priority than the other adjustment dimensions, when the user adjusts the temperature adjustment dimension, the air conditioning equipment can adjust the four adjustment dimensions of wind speed, humidity, purification and fresh air in a linkage manner.

Alternatively, the air conditioning apparatus may, in the ganged mode, control the second adjustment dimension to remain unchanged in response to a close command for the first adjustment dimension.

For example, assuming that the plurality of adjustment dimensions are five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, and the adjustment dimensions of these dimensions are all opened, when the user closes the temperature adjustment dimension, the air conditioning equipment can keep the four adjustment dimensions of wind speed, humidity, purification and fresh air unchanged.

Alternatively, the air conditioning apparatus may be configured to control the second adjustment dimension to change in a linked manner in response to an adjustment command for the first adjustment dimension in a linked manner.

For example, assuming that the plurality of adjustment dimensions are five adjustment dimensions of temperature, wind speed, humidity, purification and fresh air, the adjustment dimensions of the dimensions are all opened, and when the user adjusts the temperature adjustment dimension, the air conditioning equipment can adjust the sizes of the four adjustment dimensions of wind speed, humidity, purification and fresh air in a linkage manner.

In an embodiment of the present invention, after the air conditioning equipment enters the linkage mode, the air conditioning equipment may respond to the control instruction, and the linkage control adjustment dimension changes; or when the priority of the second adjustment dimension is lower than that of the first adjustment dimension, responding to a control instruction, and controlling the second adjustment dimension to change in a linkage manner; or, in response to the control instruction, the linkage control second adjustment dimension is kept unchanged. The user does not need to independently control other adjusting dimensions, the control mode can improve the control efficiency and flexibility, and the user experience can be improved.

Fig. 21 is a flowchart of a control method for an air conditioning apparatus according to another embodiment of the present invention, as shown in fig. 21, on the basis of fig. 12, after S420, the method may further include:

s430: acquiring a mode switching instruction;

s440: and responding to a mode switching instruction, and switching from the linkage mode to the common mode.

Alternatively, the mode switching instruction may be generated based on a closing operation of the linked mode, or the mode switching instruction may be generated based on an opening instruction of the normal mode, or the mode switching instruction may be generated based on a click or touch operation of a mode switching flag or key, which may be provided on the remote controller or the APP or the touch panel.

It will be appreciated that after the air conditioning apparatus has been switched to the normal mode, the user can only control each of the adjustment dimensions individually, for example, as the user adjusts the temperature, none of the other wind speed, fresh air and purge adjustment dimensions are controlled in a coordinated manner.

Optionally, after air conditioning equipment switches to ordinary mode, can also switch to the linkage mode once more, after getting into the linkage mode, air conditioning equipment can be according to the utility model provides a control method controls a plurality of regulation dimensions.

The embodiment of the utility model provides an in, air conditioning equipment can carry out the switching between linkage mode and the normal mode in a flexible way to can improve user experience and feel.

The control method provided by the present application can be exemplarily illustrated by several examples as follows:

example 1, a user turns on an air conditioning device, and at this time, the air conditioning device automatically turns on a linkage mode, and defaults to turn on two adjustment dimensions of temperature and wind speed, and the air conditioning device may prompt the user that the two adjustment dimensions of temperature and wind speed are in an on state, prompt the user that humidity, purification, and fresh air are in an off state, and may also display the current progress of the two adjustment dimensions of temperature and wind speed. When the user adjusts the temperature, the air conditioning device may adjust the wind speed according to the change of the temperature, may display the progress changes of the temperature and the wind speed, and may also prompt that the temperature adjustment dimension is the main adjustment dimension. Further, when the user turns on the humidity, the air conditioning device may adjust a change in the wind speed and may display a progress change in the wind speed, assuming that the temperature priority is higher than the humidity priority and the humidity priority is higher than the wind speed priority. Further, when the user turns off the humidity, the air conditioning device may control the temperature and the wind speed to be kept constant.

Example 2, a user turns on the air conditioning device, at this time, the air conditioning device automatically turns on the linkage mode, and determines that the linkage mode adopted for the last time is the four adjustment dimensions of temperature, wind speed, humidity, and fresh air, the air conditioning device may prompt the user that the four adjustment dimensions are in an on state and a purification is in an off state, and may also display the current progress of the four adjustment dimensions. When the user adjusts the temperature, the air conditioning equipment can adjust three adjusting dimensions of wind speed, humidity and fresh air according to the change of the temperature, can display the progress changes of the four adjusting dimensions, and can also prompt that the temperature adjusting dimension is the main adjusting dimension. Further, when the user turns on purging, the air conditioning device controls the other adjustment dimensions to remain unchanged, assuming that the purging priority is lower than all other adjustment dimensions. Furthermore, when the temperature is turned off by a user, the air conditioning equipment can control the wind speed, the humidity, the fresh air and the purification to be kept unchanged.

Example 3, a user turns on the air conditioning device, at which time the air conditioning device first enters a normal mode, and assuming that the user turns on the temperature, the fresh air, and the wind speed in the normal mode, and then the user turns on the linkage mode, the air conditioning device determines that the temperature, the fresh air, and the wind speed turned on in the normal mode are used as the on-state adjustment mode, and the air conditioning device may prompt the user that the three adjustment dimensions are in an on state and that the purification and humidity are in an off state, and may also display the current schedules of the three adjustment dimensions. When the user adjusts the temperature, the air conditioning equipment can adjust the three adjusting dimensions of the wind speed and the fresh air according to the change of the temperature, can display the progress change of the temperature, the wind speed and the fresh air adjusting dimension, and can also prompt that the temperature adjusting dimension is the main adjusting dimension. Further, when the user turns on purging, the air conditioning device controls the other adjustment dimensions to remain unchanged, assuming that the purging priority is lower than all other adjustment dimensions. Furthermore, when the temperature is turned off by a user, the air conditioning equipment can control the wind speed, the humidity, the fresh air and the purification to be kept unchanged.

Example 4, a user turns on the air conditioning device, at which time the user selects five adjustment dimensions of temperature, wind speed, humidity, purification, and fresh air, and then the user clicks a linkage icon or key to cause the air conditioning device to enter a linkage mode. The air conditioning device may prompt the user that the five adjustment dimensions are on and may also display the current progress of the five adjustment dimensions. When the user adjusts the temperature, the air conditioning device may adjust the other four adjustment dimensions according to the change in the temperature, may display the progress changes of the five adjustment dimensions, and may also prompt that the temperature adjustment dimension is the main adjustment dimension. Further, when the user closes the temperature, the air conditioning equipment can control the wind speed, the humidity, the fresh air and the purification to be kept unchanged. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples described in this specification can be combined and combined by those skilled in the art.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (22)

1. A display device of an air conditioning apparatus, characterized by comprising:

the light guide assembly comprises a plurality of light guide plates, each light guide plate is provided with an incident light part and an emergent light part, and the incident light part and the emergent light part are arranged on adjacent wall surfaces of the light guide plates;

the light-emitting component comprises a plurality of indicator lights, and the indicator lights are arranged opposite to the light-entering parts in a one-to-one correspondence manner;

the light-transmitting display piece is provided with a plurality of display parts, and the display parts and the light-emitting parts are oppositely arranged in a one-to-one correspondence manner;

the light guide plate is arranged on the light guide plate, the light reflection assembly is arranged on one side of the light guide plate, which is back to the light transmission display piece, and the light reflection assembly is provided with a plurality of first light reflection surfaces which are opposite to one side of the light guide plate, which is back to the light outlet part.

2. The display device of the air conditioning equipment according to claim 1, wherein the plurality of display sections are configured to display adjustment states of a plurality of adjustment dimensions of the air conditioning equipment, the adjustment states including an open-closed state and/or a current progress; the multiple adjusting dimensions are four or more than four of temperature, humidity, air outlet, purification, fresh air or sterilization.

3. The display device of the air conditioning apparatus according to claim 2, wherein the plurality of display portions are further configured to display an on state of a linked mode of an air conditioner in which, in response to a control instruction for a first adjustment dimension of a plurality of adjustment dimensions of the air conditioning apparatus, an opened adjustment dimension of the plurality of adjustment dimensions other than the first adjustment dimension is controlled while controlling the first adjustment dimension.

4. The display device of an air conditioning apparatus according to claim 1, wherein each of the indicator lamps includes a plurality of light emitting portions, and the plurality of light emitting portions in each of the indicator lamps are arranged at intervals in a preset direction.

5. The display device of an air conditioning apparatus according to claim 4, wherein a plurality of the indicator lamps and a plurality of the light guide plates are arranged along the preset direction, respectively.

6. The display device of air conditioning equipment according to claim 5, wherein a plurality of escape openings are provided on a side of each of the light guide plates facing the indicator light, and a plurality of the light emitting portions of each of the indicator lights are provided in a corresponding plurality of the escape openings of the light guide plate in a one-to-one correspondence.

7. The display device of an air conditioning apparatus according to claim 4, wherein at least one of the display portions has a plurality of display stages, and the display portion is configured to indicate a current display stage according to a light emission number or a light emission intensity of a plurality of the light emitting portions in the indicator lamp.

8. The display device of claim 1, wherein the light emitting assembly further comprises a circuit board, the circuit board is connected to the plurality of indicator lights, and the circuit board is disposed on a side of the light reflecting assembly facing away from the light guiding assembly.

9. The display device of an air conditioning apparatus according to claim 8, wherein each of the indicator lights has an electrical connection portion extending toward the circuit board, and the light reflecting member has a through hole through which the electrical connection portion is adapted to pass to be electrically connected to the circuit board.

10. The display device of an air conditioning apparatus according to claim 1, wherein the light reflecting member comprises: the light guide plate comprises a plurality of light guide plates, a plurality of light-emitting parts and a plurality of first light-reflecting surfaces, wherein the light-emitting parts are arranged on the light guide plates, and the first light-reflecting surfaces are formed on the light-reflecting films in a one-to-one correspondence mode.

11. The display device of an air conditioning apparatus according to claim 1, wherein the light reflecting member comprises: the light guide plate comprises a plurality of light guide plates, a plurality of light-emitting parts and a plurality of first light reflecting surfaces, wherein the light-emitting parts are arranged on the light guide plates, the light guide plates are arranged on the light guide plates, the light-emitting parts are arranged on the light guide plates, and the first light reflecting surfaces are arranged on the light guide plates in a one-to-one correspondence mode.

12. The display device of an air conditioning apparatus according to any one of claims 1 to 9 and 11, wherein a side of the light reflecting member facing the light guide member has a plurality of first mounting recesses, a plurality of light guide plates are disposed in the plurality of first mounting recesses in a one-to-one correspondence, and the first light reflecting surface is formed on a bottom wall of the first mounting recess.

13. The display device of an air conditioning apparatus according to claim 12, wherein a side wall of the first mounting recess is formed with a second light reflecting surface.

14. The display device of claim 1, wherein a plurality of reflective cavities are formed in the light guide plate on a side facing the first reflective surface.

15. The display device of air conditioning apparatus of claim 14, wherein the plurality of retro-reflective cavities in two adjacent rows and/or two adjacent columns are offset.

16. The display device of an air conditioning apparatus according to claim 1, wherein a side of the light guide plate facing the first light reflecting surface is provided with a plurality of sections of corrugated or zigzag grooves, and the plurality of sections of grooves are sequentially connected in a direction close to the light incident portion.

17. The display device of an air conditioning apparatus according to claim 16, wherein lengths of a plurality of the grooves increase in a direction away from the light incident portion.

18. The display device of an air conditioning apparatus according to claim 1, wherein the light-transmissive display member includes:

a light-transmitting plate covering the plurality of light-emitting portions;

the display device comprises a plurality of light emitting parts, a plurality of display films and a plurality of light emitting parts, wherein the display films are arranged opposite to the light emitting parts in a one-to-one correspondence manner, each display film is positioned between the light transmitting plate and the corresponding light emitting part, and the display parts are arranged on the display films and comprise preset patterns.

19. The display device of air conditioning equipment of claim 18, wherein the display membrane further has a gradual texture.

20. The display device of an air conditioning apparatus according to claim 18, wherein the display film is bonded to the corresponding light exit portion.

21. The display device of an air conditioning apparatus according to claim 1, characterized by further comprising:

the light guide assembly, the light emitting assembly and the light reflecting assembly are arranged in the second mounting concave part, the light emitting part corresponds to the opening of the second mounting concave part, and the light transmitting display part covers the opening of the second mounting concave part.

22. An air conditioning apparatus, characterized by comprising: a panel and a display device of an air conditioning apparatus according to any one of claims 1 to 21, the display device being provided to the panel.

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