CN114719405A - Air conditioner control method, display, air conditioner and storage medium - Google Patents

Abstract

The present invention provides a control method of an air conditioner, a display, an air conditioner and a storage medium. A control method for an air conditioner includes: obtaining influence parameters affecting user experience according to a fresh air working mode of the air conditioner; generating indication information according to the influence parameters; controlling a display module of the air conditioner to display according to the indication information; wherein the influence parameters include at least One or a combination of: carbon dioxide concentration, internal and external circulation parameters. The problem solved by the present invention is that in the fresh air working mode of the air conditioner, the user cannot intuitively know the somatosensory state brought by the fresh air mode of the air conditioner to the user.

Description

Air conditioner control method, display, air conditioner and storage medium

technical field

The present invention relates to the technical field of air conditioners, and in particular, to an air conditioner control method, a display, an air conditioner and a storage medium.

Background technique

With the widespread application of air conditioners and the increasingly high requirements of users for air quality, fresh air air conditioners are favored by users. experience. However, in the prior art, there is no mode for visualizing the user's fresh air experience, and the user cannot intuitively obtain the user's sense of experience caused by the air quality in the fresh air air conditioner.

SUMMARY OF THE INVENTION

The problem solved by the invention is the technical problem that the user cannot intuitively know the somatosensory state brought by the fresh air mode of the air conditioner under the fresh air working mode of the air conditioner, and realizes the technical effect that the user can intuitively know the somatosensory state of the user through the display.

In order to solve the above problems, the present invention provides a control method for an air conditioner. The control method includes: obtaining influence parameters affecting user experience according to the fresh air working mode of the air conditioner; generating indication information according to the influence parameters; controlling the air conditioner according to the indication information The display module displays; wherein, the influencing parameters include at least one or a combination thereof: carbon dioxide concentration, internal and external circulation parameters.

Compared with the prior art, the technical effect achieved by adopting this technical solution: the somatosensory state that the fresh air working mode of the air conditioner can bring to the user is mainly the somatosensory state in terms of air quality. Specifically, by affecting the parameters of carbon dioxide concentration and internal and external circulation The parameters can more specifically digitize the user's somatosensory sensation on the air environment, which is more scientific and efficient. In addition, by obtaining the indication information by influencing the parameters, it is possible to obtain reasonable indication information more scientifically and accurately, and avoid inaccurate detection to obtain erroneous indication information. Through the indication information, the indication information is further displayed on the display module of the air conditioner, so that the user can directly observe the display information on the display module, and the user's body sensation can be directly obtained through the display module under the fresh air working mode of the existing air conditioner. state. The user can adjust the air conditioner according to the existing somatosensory state. For example, when the user finds that the indoor carbon dioxide concentration is high and the indoor air quality is poor according to the display module, he will actively adjust the fresh air working mode of the air conditioner to obtain new air conditioners. User's somatosensory state.

In an example of the present invention, generating the indication information according to the influence parameter includes: obtaining a weight value according to the influence parameter; and generating indication information according to the weight value.

Compared with the prior art, the technical effect achieved by adopting this technical solution is that the weight value is obtained by adding the influence parameter to the calculation, which facilitates further and accurate knowledge of the influence ratio of the influence parameter, and further, can be more accurately based on the weight value. The weight value obtains the indication information. In particular, when there is not one influencing parameter, and multiple influencing parameters become influencing factors affecting the user's somatosensory state, it is necessary to set a weight value to synthesize each influencing parameter. This solution is more suitable for the situation where there are multiple influencing parameters, and is more combined with the actual situation, and comprehensively considers the multiple influencing parameters to obtain the weight value, which can make the indication information more accurate.

In an example of the present invention, when the influencing parameters are carbon dioxide concentration and internal and external circulation parameters, obtaining the weight value according to the influencing parameters includes: detecting the internal and external circulation parameters of the air conditioner to obtain the first weight item; detecting the fresh air working mode of the air conditioner The second weighted item is obtained; the weighted average of the first weighted item and the second weighted item is obtained to obtain the weighted value.

Compared with the prior art, the technical effect achieved by adopting the technical solution: when there are two or more influencing parameters, the weighting items corresponding to various influencing parameters are obtained, and then the weighting average of each weighting item is obtained to obtain the weighting value. . By weighting and averaging each weight item to obtain the weight value, the weight value can be obtained more accurately and scientifically. Obtaining an accurate weight value is the premise of being able to further judge the user's somatosensory state.

In an example of the present invention, generating the indication information according to the weight value includes: generating the indication information according to the magnitude relationship between the weight value and the weight threshold.

Compared with the prior art, the technical effect achieved by adopting the technical solution is that the indication information is obtained according to the numerical value relationship of the weight value, which is more scientific and accurate. Multiple weight thresholds may be set to form a numerical range, and the range formed between adjacent weight thresholds represents a user somatosensory state. Through the numerical comparison of the weight value, it is possible to know what kind of user's somatosensory state the current air conditioner has achieved by seeing which numerical range the weight value falls into. The more weight thresholds are set, the finer the division range, and the more detailed the user's current somatosensory state can be known.

In an example of the present invention, the weight threshold includes a first weight threshold and a second weight threshold, and generating the indication information according to the magnitude relationship between the weight value and the weight threshold includes: if the weight value is smaller than the first weight threshold, generating the first indication information ; If the weight value is greater than or equal to the first weight threshold and less than or equal to the second weight threshold, the second indication information is generated; if the weight value is greater than the second weight threshold, the third indication information is generated; wherein, the first weight threshold is less than the second Weight threshold.

Compared with the prior art, the technical effect achieved by adopting this technical solution: by comparing the weight value and the weight threshold value, the air environment state of the air conditioner in the fresh air working mode can be obtained, and the air quality and carbon dioxide concentration can be further obtained. And further instruction information is obtained according to the state of the air environment, so that the display module of the air conditioner displays each instruction information.

In an example of the present invention, the display module of the air conditioner includes a first display module group and a second display module group, the first display module group includes a first display module and a second display module, and the second display module group includes a third display module group. a display module and a fourth display module; according to the indication information, controlling the display module of the air conditioner to display includes: if the indication information is the first indication information, controlling the first display module and the fourth display module to emit light; if the indication information is the second indication information If the indication information is the first display module and the third display module are controlled to emit light; if the indication information is the third indication information, the second display module and the third display module are controlled to emit light.

Compared with the prior art, the technical effect achieved by this technical solution is: by dividing the display module into four parts, each part is provided with a luminous body, and through different display modules simultaneously emitting the same or different luminous color temperature, the to the role of the instruction information. Moreover, in this embodiment, the end portion and the middle portion are set to emit the same color temperature for indication, which is clear and clear, so that the user can feel the somatosensory state more intuitively.

In an example of the present invention, when the influence parameter is an inner and outer loop parameter, obtaining the weight value according to the influence parameter includes: setting the inner and outer loop parameter as the weight value.

Compared with the prior art, the technical effect achieved by adopting this technical solution is: when the air conditioner can only detect one kind of influencing parameter, the weight value of the comprehensive air quality can be obtained by preferably detecting the internal and external circulation parameters. The indication information can also be obtained more accurately according to the weight value.

In an example of the present invention, generating the indication information according to the weight value includes: obtaining the inner and outer circulation working modes of the air conditioner according to the weight value, and generating the indication information.

Compared with the prior art, the technical effect achieved by adopting this technical solution is: by displaying the circulation mode of the air conditioner, the user can be further informed of the current air circulation mode of the air conditioner. When the user feels that the surrounding air environment is poor, the existing internal and external circulation working mode can be obtained through the display module, and then the working mode of the air conditioner can be adjusted according to the existing internal and external circulation working mode, so as to obtain a better user experience.

In an example of the present invention, the display module of the air conditioner includes a first display module group and a second display module group, the first display module group includes a first display module and a second display module, and the second display module group includes a third display module group. a display module and a fourth display module; according to the instruction information, controlling the display module of the air conditioner to display includes: when the weight value matches the inner circulation working mode, controlling the second display module and the fourth display module to emit light; When the cycle working mode matches, the first display module and the third display module are controlled to emit light; when the weight value matches the inner and outer cycle working mode, the first display module and the fourth display module are controlled to emit light.

Compared with the prior art, the technical effect achieved by this technical solution is: by dividing the display module into four parts, each part is provided with a luminous body, and through different display modules simultaneously emitting the same or different luminous color temperature, the to the role of the instruction information. In this embodiment, different cyclic working modes can be indicated by different light-emitting color temperatures and light-emitting positions, which is convenient for users to observe directly.

In an example of the present invention, a display is provided in an air conditioner, and the display includes: a first display module group, the first display module group is arranged at a first end of the display, and the first display module group includes a first display module , the second display module; the second display module group, the second display module group is arranged at the second end of the display, the first display module group includes the third display module, the fourth display module; wherein, the first end and the second end relatively.

Compared with the prior art, the technical effect achieved by adopting this technical solution is that each individual display module displays the indication information of the air conditioner by emitting light, so that the user can know the current user's somatosensory state and can be obtained more directly. The information of the user's somatosensory state also facilitates the user to adjust the working mode of the air conditioner in time.

In an example of the present invention, a transition section is set between the second display module and the third display module, and the transition section is a transparent sheet.

Compared with the prior art, the technical effect achieved by adopting this technical solution: a transition interval is set between the first display module group and the second display module group, and the transitional interval is set as a transparent sheet to prevent the second display module from interacting with the fourth display module. Displays color cross between modules.

In another aspect, the present invention provides an air conditioner, which includes a memory, a processor, and a program or instruction stored in the memory and executable on the processor. When the program or instruction is executed by the processor, it is implemented as in the above-mentioned embodiments. The steps of any one of the control methods.

Compared with the prior art, the technical effect achieved by adopting the technical solution is that the above-mentioned control method can be realized through the memory and the processor.

In another aspect, the present invention provides a readable storage medium, where a program or an instruction is stored on the readable storage medium, and when the program or instruction is executed by a processor, the steps of the control method in any one of the foregoing embodiments are implemented.

Compared with the prior art, the technical effect achieved by adopting the technical solution is that the above-mentioned control method can be realized by storing in the memory through a readable storage medium.

After adopting the technical scheme of the present invention, the following technical effects can be achieved:

(1) Through the control method of the present invention, the user can intuitively obtain the user's somatosensory state in the fresh air working mode through the luminous condition of the display module;

(2) The user can also intuitively judge the internal and external circulation mode of the air conditioner by displaying the light-emitting condition of the module, and obtain the current air circulation information.

Description of drawings

FIG. 1 is one of the flow charts of a control method of an air conditioner provided by the present invention.

FIG. 2 is the second flow chart of the control method of the air conditioner.

FIG. 3 is the third flow chart of the control method of the air conditioner.

FIG. 4 is the fourth flowchart of the control method of the air conditioner.

FIG. 5 is the fifth flow chart of the control method of the air conditioner.

FIG. 6 is a schematic structural diagram of a display.

FIG. 7 is a schematic diagram of a module of an air conditioner.

Description of reference numbers:

100-air conditioner; 110-display; 110a-first display module group; 110b-second display module group; 111-first display module; 112-second display module; 113-third display module; 114-fourth Display module; 120-memory; 130-processor.

Detailed ways

In order to make the above objects, features and advantages of the present invention more clearly understood, the specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1:

In a specific embodiment, referring to FIG. 1 , the present invention provides a control method for an air conditioner, the control method comprising:

Step S100: according to the fresh air working mode of the air conditioner, obtain influencing parameters that affect user experience;

Step S200: generating indication information according to the influence parameter;

Step S300: controlling the display module of the air conditioner to display according to the instruction information;

Wherein, the influencing parameters include at least one or a combination thereof: carbon dioxide concentration, internal and external circulation parameters.

In this embodiment, the air conditioner has a fresh air working mode, and the fresh air working mode of the air conditioner can bring a fresh air experience to the user. Among them, the influencing factors that affect the user experience include air quality, ambient temperature, and mild wind. For the fresh air mode of the air conditioner, the improvement to the user environment is mostly the improvement of the indoor air quality. Therefore, the influencing parameters affecting the user experience are set as the indoor carbon dioxide concentration and the internal and external circulation parameters of the air conditioner in the fresh air working mode. Further, the internal and external circulation parameters are specifically the air quality parameters in the internal and external circulation mode. The internal and external circulation mode is the common air circulation mode in the fresh air working mode of the air conditioner. Among them, the internal circulation mode is: the indoor air is purified to remove dust, and the output is relatively pure air, and the energy loss of the air conditioner is small, but the circulation mode has little effect on eliminating harmful gases. The external circulation mode is: the outdoor air is introduced into the room through dust removal and filtering, the air quality is relatively good, but the air conditioning energy loss is relatively large. The internal and external circulation mode is: in addition to introducing outdoor fresh air, it also purifies indoor air, and the overall air quality is the best circulation mode.

Further, the influencing parameter can be only the carbon dioxide concentration, or only the internal and external circulation parameters, or both can be used.

Further, in order for the user to intuitively know the somatosensory state brought by the fresh air mode of the air conditioner to the user, step S100 needs to be performed to first obtain the influencing parameters affecting the user experience in the fresh air working mode of the air conditioner. The influencing parameters in this step are the carbon dioxide concentration parameters and the internal and external circulation parameters in the above. After learning the influence parameters, go to step S200, compare and calculate the influence parameters according to the influence parameters, and finally obtain the user's somatosensory state in the fresh air mode of the air conditioner, and generate the instruction information based on the obtained user's somatosensory state information, and perform the following steps on the user. instruct. After obtaining the specific instruction information, step S300 is performed, and the instruction information is completed through the display module of the air conditioner, and the user can intuitively know the somatosensory state brought by the air conditioner to the user according to the display information of the display module.

In this embodiment, the somatosensory state that the fresh air working mode of the air conditioner can bring to the user is mainly the somatosensory state of air quality. Somatosensory data, more scientific and efficient. In addition, by obtaining the indication information by influencing the parameters, it is possible to obtain reasonable indication information more scientifically and accurately, and avoid inaccurate detection to obtain erroneous indication information. Through the indication information, the indication information is further displayed on the display module of the air conditioner, so that the user can directly observe the display information on the display module, and the user's body sensation can be directly obtained through the display module under the fresh air working mode of the existing air conditioner. state. The user can adjust the air conditioner according to the existing somatosensory state. For example, when the user finds that the indoor carbon dioxide concentration is high and the indoor air quality is poor according to the display module, he will actively adjust the fresh air working mode of the air conditioner to obtain new air conditioners. User's somatosensory state.

Embodiment 2:

In a specific embodiment, referring to FIG. 2 , generating indication information according to the influence parameter includes:

Step S210: obtaining the weight value according to the influence parameter;

Step S220: Generate indication information according to the weight value.

In this embodiment, in step S200, the indication information is generated according to the influence parameter, which is specifically divided into two steps. In step S210, the obtained influence parameters, carbon dioxide concentration, and internal and external circulation parameters are calculated to obtain a weight value. When the influencing parameter is the combination of carbon dioxide concentration and internal and external circulation parameters, the weight value is obtained by the comprehensive addition of the two. The influence parameter is represented by a final value, that is, the weight value. The user's somatosensory state can be determined according to the range in which the value of the weight value is located. Specifically, step S220 is performed. After the weight value is obtained, the user's somatosensory state is further judged according to the numerical information of the weight value and the range in which it is located, and corresponding indication information is obtained to instruct the display module of the air conditioner to display. The influencing parameter is the combination of carbon dioxide concentration and internal and external circulation parameters, and the weight value is the addition of the two. When the influence parameter is only one of them, the influence parameter can be directly set as the weight value.

In this embodiment, the weight value is obtained by adding and calculating the influence parameter, which facilitates further and more accurate knowledge of the influence ratio of the influence parameter, and further enables the indication information to be obtained more accurately according to the weight value. In particular, when there is not one influencing parameter, and multiple influencing parameters become influencing factors affecting the user's somatosensory state, it is necessary to set a weight value to synthesize each influencing parameter. This solution is more suitable for the situation where there are multiple influencing parameters, and is more combined with the actual situation, and comprehensively considers the multiple influencing parameters to obtain the weight value, which can make the indication information more accurate.

Embodiment three:

In a specific embodiment, referring to FIG. 3 , when the influencing parameters are carbon dioxide concentration and internal and external circulation parameters, according to the influencing parameters, the weight values obtained include:

Step S211: Detect the internal and external circulation parameters of the air conditioner to obtain the first weight item;

Step S212: Detecting the carbon dioxide concentration in the fresh air working mode of the air conditioner to obtain a second weight term;

Step S213: Weighted average of the first weight item and the second weight item to obtain a weight value.

In this embodiment, when the influence parameter is a combination of the carbon dioxide concentration and the influence parameter of the internal and external circulation parameters, it can be known from the previous embodiment that the two influence parameters need to be added to obtain the weight value. At this time, steps S211 and S212 are performed. By performing step S211, the inner and outer loop parameters in the influence parameters are detected and obtained, and set as the first weight item. Wherein, the internal and external circulation parameters in this step are specifically the air quality parameters in the internal and external circulation process. By continuing to step S212, the carbon dioxide concentration in the influencing parameters in the fresh air working mode of the air conditioner is detected and set as the second weight item. After the weight items corresponding to the two influence parameters are obtained, the weight value is obtained by weighted average, which is step S213.

In this embodiment, when there are two or more influencing parameters, weights corresponding to various influencing parameters are obtained, and then each weighting item is weighted and averaged to obtain a weighting value. By weighting and averaging each weight item to obtain the weight value, the weight value can be obtained more accurately and scientifically. Obtaining an accurate weight value is the premise of being able to further judge the user's somatosensory state.

Embodiment 4:

In a specific embodiment, generating the indication information according to the weight value includes:

Step S220a: Generate indication information according to the magnitude relationship between the weight value and the weight threshold.

In this embodiment, the indication information is specifically obtained, which is further obtained through the numerical range of the weight value. Specifically, the indication information is obtained by comparing the weight value with the weight threshold. The weight threshold includes a first weight threshold, which can be set as P, and also includes a second weight threshold, which can be set as Q. The weight value is compared with the first weight threshold and the second weight threshold.

In this embodiment, the indication information is obtained according to the numerical value relationship of the weight values, which is more scientific and accurate. Multiple weight thresholds may be set to form a numerical range, and the range formed between adjacent weight thresholds represents a user somatosensory state. Through the numerical comparison of the weight value, it is possible to know what kind of user's somatosensory state the current air conditioner has achieved by seeing which numerical range the weight value falls into. The more weight thresholds are set, the finer the division range, and the more detailed the user's current somatosensory state can be known.

In a specific embodiment, referring to FIG. 4 , the weight threshold includes a first weight threshold and a second weight threshold, and generating the indication information according to the magnitude relationship between the weight value and the weight threshold includes:

Step S221a: if the weight value is less than the first weight threshold, generate first indication information;

Step S222a: if the weight value is greater than or equal to the first weight threshold and less than or equal to the second weight threshold, generate second indication information;

Step S223a: if the weight value is greater than the second weight threshold, generate third indication information;

Wherein, the first weight threshold is smaller than the second weight threshold.

In this embodiment, as can be seen from the above, the first weight threshold is set to P, the second weight threshold is set to Q, and the indication information is obtained by comparing the weight value obtained according to the above steps with the weight threshold. Wherein, the first weight threshold P is smaller than the second weight threshold Q.

In this embodiment, specifically, when the weight value is smaller than the first weight threshold value P, it means that the weight value value at this time is small, and the weight value obtained by the weighted average of the carbon dioxide concentration and the air quality parameter is small. It means that at this time, the air environment in the fresh air working mode of the air conditioner is good, and the user's somatosensory state is good. At this time, the first indication information is generated, and the first indication information represents that the air environment in the fresh air working mode of the air conditioner is good, and the user's somatosensory state is good.

Further, when the weight value is greater than the first weight threshold P but less than the second weight threshold Q, it means that the weight value is not too small, but not too large. The carbon dioxide concentration is not too high, and the air quality is not very bad, but there is a certain carbon dioxide concentration, and the air quality has not reached the best state. At this time, the second instruction information is generated, and the second instruction information indicates that the current air environment is in a normal state, there is a certain carbon dioxide concentration, the air quality is not optimal, and the user's somatosensory state is normal.

Further, when the weight value is greater than the second weight threshold value Q, it means that the value of the weight value at this time is larger, and the weight value obtained by the weighted average of the carbon dioxide concentration and the air quality parameter is larger. It means that the air environment in the fresh air working mode of the air conditioner is poor at this time, and the user's physical feeling state is poor. At this time, the second indication information is generated, and the second indication information represents that the air environment in the fresh air working mode of the air conditioner is poor, and the user's somatosensory state is poor, and the user needs to change the working mode of the air conditioner according to the somatosensory feeling.

In this embodiment, by comparing the weight value and the weight threshold value, the air environment state of the air conditioner in the fresh air working mode can be obtained, and further air quality and carbon dioxide concentration can be obtained. And further instruction information is obtained according to the state of the air environment, so that the display module of the air conditioner displays each instruction information.

Embodiment 5:

In a specific embodiment, referring to FIG. 5 , the display module of the air conditioner includes a first display module group and a second display module group, and the first display module group includes a first display module, a second display module, and a second display module. The group includes a third display module and a fourth display module; according to the indication information, the display module that controls the air conditioner to display includes:

Step S311: if the indication information is the first indication information, control the first display module and the fourth display module to emit light;

Step S312: if the indication information is the second indication information, control the first display module and the third display module to emit light;

Step S313: If the indication information is the third indication information, control the second display module and the third display module to emit light.

In this embodiment, the display modules of the air conditioner are divided into two display module groups, a first display module group and a second display module group. The first display module group is further divided into a first display module and a second display module, and the second display module group is further divided into a third display module and a fourth display module. Each display module is respectively provided with a light-emitting body, wherein the second display module and the third display module have the same light-emitting color temperature, and the first display module and the fourth display module have a second light-emitting color temperature.

Further, when there is the first indication information, the first display module and the fourth display module are controlled to emit light, the first display module is arranged at the left end of the display module, and the fourth display module is arranged at the middle of the display module to the right, and, The luminous color temperature of the two display modules is the same. Therefore, when the left end of the display module of the air conditioner exhibits the same luminous color temperature as the position to the right of the middle part, it means that the air environment is good at this time.

Further, when there is second indication information, the first display module and the third display module are controlled to emit light, the first display module and the third display module are both arranged at the end of the display module, and the luminous color temperature of the two display modules is not the same. Therefore, when the two ends of the display module of the air conditioner exhibit two different luminous color temperatures, it means that the air environment at this time is normal.

Further, when there is third indication information, the second display module and the third display module are controlled to emit light, the third display module is arranged at the right end of the display module, the second display module is arranged at the middle of the display module to the left, and, The luminous color temperature of the two display modules is the same. Therefore, when the right end of the display module of the air conditioner and the position to the left of the middle of the air conditioner exhibit the same luminous color temperature, it means that the air environment is poor at this time.

In this embodiment, the display module is divided into four parts, and each part is provided with a light-emitting body, and different display modules simultaneously emit the same or different light-emitting color temperature, which can play the role of indicating information. Moreover, in this embodiment, the end portion and the middle portion are set to emit the same color temperature for indication, which is clear and clear, so that the user can feel the somatosensory state more intuitively.

Embodiment 6:

In a specific embodiment, when the influence parameter is an inner and outer loop parameter, obtaining the weight value according to the influence parameter includes:

Step S220b: Set the inner and outer loop parameters as weight values.

In this embodiment, when there is only one influencing parameter, it is generally preferable to set the inner and outer loop parameters as the influencing parameter. The internal and external circulation parameters can better reflect the comprehensive air quality in the whole environment. At this time, when there is only one type of influence parameter, the only type of influence parameter can be directly set as the weight value. That is, in this embodiment, the inner and outer loop parameters are set as weight values. The internal and external circulation parameters at this time are the air quality parameters.

In this embodiment, when the air conditioner can only detect one kind of influencing parameter, it is preferable to detect the internal and external circulation parameters so as to obtain the weight value of the comprehensive air quality. The indication information can also be obtained more accurately according to the weight value.

In a specific embodiment, generating the indication information according to the weight value includes:

Step S221b: Obtain the internal and external circulation operating modes of the air conditioner according to the weight value, and generate instruction information.

In this embodiment, the weight value is the inner and outer circulation parameters, and the inner and outer circulation working modes of the air conditioner at this time can be obtained through the inner and outer circulation parameters. The inner and outer circulation working modes can be specifically an inner circulation working mode, an outer circulation working mode, and an inner and outer circulation working mode. According to the cycle working mode of the air conditioner, the air quality is judged, and indication information is further generated to remind the user of the current cycle working mode.

In this embodiment, by displaying the circulation mode of the air conditioner, the user can be further informed of the current air circulation mode of the air conditioner. When the user feels that the surrounding air environment is poor, the existing internal and external circulation working mode can be obtained through the display module, and then the working mode of the air conditioner can be adjusted according to the existing internal and external circulation working mode, so as to obtain a better user experience.

Embodiment 7:

In a specific embodiment, the display module of the air conditioner includes a first display module group and a second display module group, the first display module group includes a first display module and a second display module, and the second display module group includes a third display module group. A display module and a fourth display module; according to the indication information, the display module that controls the air conditioner to display includes:

Step S222b: when the weight value matches the working mode of the inner loop, control the second display module and the fourth display module to emit light;

Step S223b: when the weight value matches the working mode of the outer loop, control the first display module and the third display module to emit light;

Step S224b: Controlling the first display module and the fourth display module to emit light when the weight value matches the inner and outer circulation working modes.

In this embodiment, the first display module group and the second display module group. The first display module group is further divided into a first display module and a second display module, and the second display module group is further divided into a third display module and a fourth display module. Each display module is respectively provided with a light-emitting body, wherein the first display module and the third display module have the same light-emitting color temperature, and the second display module and the fourth display module have a second light-emitting color temperature.

Further, when the weight value matches the working mode of the inner loop, the second display module and the fourth display module are controlled to emit light. Wherein, both the second display module and the fourth display module are arranged in the middle of the display module, and the second display module and the fourth display module have the same light emission color temperature, which is warm color light. Therefore, when the middle part of the display module of the air conditioner exhibits the same luminous color temperature, it means that it is the inner circulation working mode.

Further, when the weight value matches the working mode of the outer loop, the first display module and the third display module are controlled to emit light. Wherein, the first display module and the third display module are both arranged at two ends of the display module, and the first display module and the third display module have the same luminous color temperature, which is cool color light. Therefore, when the end of the display module of the air conditioner exhibits the same luminous color temperature, it is indicated that it is the outer circulation working mode at this time.

Further, when the weight value matches the inner and outer circulation working mode, the first display module and the fourth display module are controlled to emit light. The first display module is arranged at the left end of the display module, and the fourth display module is arranged at the right end of the display module, and the two have different light-emitting color temperatures. When the air conditioner is in the above display state, it means that it is in the internal and external circulation working mode.

In this embodiment, the display module is divided into four parts, and each part is provided with a light-emitting body, and different display modules simultaneously emit the same or different light-emitting color temperature, which can play the role of indicating information. In this embodiment, different cyclic working modes can be indicated by different light-emitting color temperatures and light-emitting positions, which is convenient for users to observe directly.

Embodiment 8:

In a specific embodiment, referring to FIG. 6, a display is provided in an air conditioner, and the display includes: a first display module group, the first display module group is arranged at a first end of the display, and the first display module group includes a first display module, a second display module; a second display module group, the second display module group is located at the second end of the display, and the first display module group includes a third display module and a fourth display module; wherein, the first end Opposite to the second end.

A transition section is arranged between the second display module and the third display module, and the transition section is a transparent sheet.

In this embodiment, the air conditioner is provided with a display, and the display is provided at a position where the user can directly observe. The display includes a first display module group, which is arranged at the leftmost end of the display; and also includes a second display module group, which is arranged at the rightmost end of the display. And the first display module in the first display module group is arranged at the left end of the first display module group, the second display module is arranged at the right end of the first display module group; the fourth display module in the second display module group is arranged at the first display module group. The left end of the second display module group, and the third display module is arranged at the right end of the second display module group. Each display module is provided with a light-emitting color block, which can emit light independently according to the instruction information of the air conditioner. Wherein, a transition section is set between the first display module group and the second display module set, and the transition section is set as a transparent sheet to prevent color cross between the second display module and the fourth display module.

In this embodiment, each individual display module displays the indication information of the air conditioner by emitting light, so that the user can know the current user's somatosensory state, which enables the user to obtain the information of the user's somatosensory state more directly, and is also convenient for the user to adjust in time. The working mode of the air conditioner.

Embodiment 9:

In a specific embodiment, referring to FIG. 7 , an air conditioner includes a memory, a processor, and a program or instruction stored in the memory and executable on the processor, and the program or instruction is implemented when executed by the processor The steps of the control method according to any one of the above embodiments.

A readable storage medium on which a program or an instruction is stored, and when the program or instruction is executed by a processor, implements the steps of the control method according to any one of the foregoing embodiments.

Although the present invention is disclosed above, the present invention is not limited thereto. Any person skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention. Therefore, the protection scope of the present invention should be based on the scope defined by the claims.

Claims (13)

1. A control method for an air conditioner, wherein the control method comprises: According to the fresh air working mode of the air conditioner, the influencing parameters affecting the user experience are obtained; generating indication information according to the influence parameter; controlling the display module of the air conditioner to display according to the indication information; Wherein, the influencing parameters include at least one or a combination thereof: carbon dioxide concentration, internal and external circulation parameters. 2 . The control method according to claim 1 , wherein the generating the indication information according to the influence parameter comprises: 2 . According to the influence parameter, the weight value is obtained; The indication information is generated according to the weight value. 3. The control method according to claim 2, wherein, when the influencing parameters are carbon dioxide concentration and internal and external circulation parameters, obtaining the weight value according to the influencing parameters comprises: Detecting the internal and external circulation parameters of the air conditioner to obtain a first weight item; Detecting the carbon dioxide concentration in the fresh air working mode of the air conditioner to obtain a second weight term; The weight value is obtained by weighted average of the first weight item and the second weight item. 4. The control method according to claim 2, wherein the generating the indication information according to the weight value comprises: The indication information is generated according to the magnitude relationship between the weight value and the weight threshold. 5 . The control method according to claim 4 , wherein the weight threshold includes a first weight threshold and a second weight threshold, and the generating the indication information according to the magnitude relationship between the weight value and the weight threshold includes: 6 . : If the weight value is less than the first weight threshold, generating first indication information; If the weight value is greater than or equal to the first weight threshold and less than or equal to the second weight threshold, generating second indication information; If the weight value is greater than the second weight threshold, generating third indication information; Wherein, the first weight threshold is smaller than the second weight threshold. 6 . The control method according to claim 5 , wherein the display module of the air conditioner includes a first display module group and a second display module group, and the first display module group includes a first display module, a second display module group, and a second display module group. 7 . Two display modules, the second display module group includes a third display module and a fourth display module; the controlling the display module of the air conditioner to display according to the indication information includes: If the indication information is the first indication information, controlling the first display module and the fourth display module to emit light; if the indication information is the second indication information, controlling the first display module and the third display module to emit light; If the indication information is the third indication information, the second display module and the third display module are controlled to emit light. 7. The control method according to claim 2, wherein, when the influence parameter is an inner and outer loop parameter, the obtaining a weight value according to the influence parameter comprises: The inner and outer loop parameters are set as the weight value. 8. The control method according to claim 7, wherein the generating the indication information according to the weight value comprises: The inner and outer circulation working modes of the air conditioner are obtained according to the weight value, and the indication information is generated. 9 . The control method according to claim 8 , wherein the display module of the air conditioner includes a first display module group and a second display module group, and the first display module group includes a first display module, a first display module group, and a second display module group. 10 . Two display modules, the second display module group includes a third display module and a fourth display module; the controlling the display module of the air conditioner to display according to the indication information includes: When the weight value matches the inner loop working mode, controlling the second display module and the fourth display module to emit light; When the weight value matches the outer loop working mode, controlling the first display module and the third display module to emit light; When the weight value matches the inner and outer circulation working mode, the first display module and the fourth display module are controlled to emit light. 10. A display, characterized in that the display is provided in an air conditioner, and the display comprises: a first display module group, the first display module group is arranged at the first end of the display, and the first display module group includes a first display module and a second display module; a second display module group, the second display module group is arranged at the second end of the display, and the first display module group includes a third display module and a fourth display module; Wherein, the first end is opposite to the second end. 11 . The display of claim 10 , wherein a transition section is set between the second display module and the third display module, and the transition section is a transparent sheet. 12 . 12. An air conditioner, characterized in that the air conditioner comprises a memory, a processor, and a program or instruction stored on the memory and executable on the processor, the program or instruction being processed by the processor The steps of the control method according to any one of claims 1 to 9 are realized when the controller is executed. 13. A readable storage medium, wherein a program or an instruction is stored on the readable storage medium, and when the program or instruction is executed by a processor, the control according to any one of claims 1 to 9 is realized steps of the method.

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