WO2021098530A1

WO2021098530A1 - Intelligent air conditioning system

Info

Publication number: WO2021098530A1
Application number: PCT/CN2020/126977
Authority: WO
Inventors: 陈士杰; 张旻; 柯一龙
Original assignee: 上海三菱电机•上菱空调机电器有限公司
Priority date: 2019-11-18
Filing date: 2020-11-06
Publication date: 2021-05-27
Also published as: CN113237174B; CN110822581B; CN113237174A; CN110822581A

Abstract

An intelligent air conditioning system, comprising a control part (10) that controls an air conditioner (20), an air purifier (30), and a fresh air ventilator (40); the air conditioner (20) controlled by the control part (10) to be triggered according to a dust concentration for dust removal; the air purifier (30) controlled by the control part (10) to be triggered according to the dust concentration for dust removal and to be triggered according to the degree of foreign odor for foreign odor removal; and the fresh air ventilator (40) controlled by the control part (10) to be triggered according to a carbon dioxide concentration for ventilation and to be triggered according to the degree of foreign odor for foreign odor removal. The control part (10) determines whether to continue one of the foreign odor removal, the ventilation and the dust removal according to unit abnormity occurring in at least one of the air conditioner (20), the air purifier (30) and the fresh air ventilator (40), or the control part (10) determines whether to continue one of the foreign odor removal, the ventilation and the dust removal according to a user operation. Therefore, the functions of the intelligent air conditioning system can be maximized, and the most comfortable air conditioner use environment can be brought to a user.

Description

Intelligent air conditioning system

Technical field

The invention relates to an intelligent air conditioning system.

Background technique

In conventional air conditioning systems, users are generally required to manually turn on functions such as ventilation and air purification. For example, only when the user feels that the indoor air quality is poor or notices a high PM2.5 concentration through a mobile phone, will the new fan or air purifier be turned on, so that the health and comfort of the indoor environment cannot be ensured in real time.

In this regard, an air conditioning device that can automatically turn on the fresh air blower according to the air quality obtained by the sensor is proposed.

For example, Patent Literature 1 discloses a control system for a central air conditioner, which includes: a collection module for collecting indoor environmental parameters; a monitoring module, connected to the collection module, for monitoring the collection module to obtain Monitoring results; and a control module, respectively connected to the monitoring module and the fresh air blower, and used to control the fresh air blower according to the monitoring result, so that the fresh air can be changed in real time according to the actual situation of the current indoor environment, Thus, the comfort level of the indoor environment can be adjusted in real time.

In addition, Patent Document 2 discloses an intelligent ventilation fan. The air quality monitoring module detects the current indoor air quality parameters and transmits them to the PLC module. The PLC module analyzes the current indoor air quality coefficients based on the parameters, and then Output control signals, namely the first signal and the second signal to control the first switch and the second switch respectively, so as to automatically control the opening, closing and ventilation direction of the intelligent ventilation fan, thus, it can replace manual operation, save energy and effectively purify Indoor air.

Prior art literature

Patent Document 1: CN202835666U

Patent Document 2: CN109386491A

However, in Patent Document 1 and Patent Document 2, there is nothing about the occurrence of unit abnormality or manual operation by the user during the process of automatically controlling the fresh air blower or ventilating fan, that is, it does not consider what should be done when the unit abnormality or manual operation by the user occurs. Control fresh air blower or ventilating fan. Therefore, if the technical solutions of Patent Document 1 and Patent Document 2 are adopted, the intelligent air-conditioning system may cause a system error when the unit is abnormal or the user manually operates it, and the functions of the intelligent air-conditioning system cannot be maximized, and the user cannot be provided Bring the most comfortable air-conditioning environment.

Summary of the invention

The present invention provides an intelligent air-conditioning system, which can avoid system errors when the intelligent air-conditioning system is abnormal or user manual operation, and can maximize the functions of the intelligent air-conditioning system, and can bring users the most comfortable air-conditioning use surroundings.

In the first aspect of the smart air-conditioning system of the first embodiment of the present invention, a smart air-conditioning system includes: a control unit that controls an air conditioner, an air purifier, and a fresh air blower; The control unit is controlled so as to be triggered according to the dust concentration to perform dust removal processing; an air purifier, which is controlled by the control unit so as to be triggered according to the dust concentration for dust removal processing, and according to the odor And a fresh air blower, which is controlled by the control unit so that it is triggered according to the carbon dioxide concentration for ventilation treatment, and is triggered according to the degree of the abnormal odor to perform the abnormal odor Removal processing, the control unit judges whether to continue the odor removal processing, ventilation processing, and dust removal processing based on a unit abnormality that occurs in at least one of the air conditioner, the air purifier, and the fresh air blower One of the treatments.

In addition, in the second aspect of the smart air-conditioning system of the first embodiment of the present invention, in the first aspect, preferably, the unit abnormality includes a connection loss and an error stop.

In addition, in the third aspect of the smart air-conditioning system of the first embodiment of the present invention, in the second aspect, it is preferable that during the process of performing the odor removal process, the air purifier or the fresh air blower generates If the connection is lost or the unit that stops with an error report is abnormal, the odor removal process will continue. If the air purifier and the fresh air blower are abnormal in the unit where the connection is lost, the odor removal process will continue. When the air purifier and the fresh air blower generate an error and stop unit abnormality, the odor removal process is ended and the state at the time of triggering is returned.

In addition, in the fourth aspect of the smart air-conditioning system of the first embodiment of the present invention, in the third aspect, it is preferable that when the abnormal odor removal process is continued, if the detected abnormal odor is If the degree is less than the predetermined first threshold value, the odor removal process is ended and the state at the time of trigger is returned.

In addition, in the fifth aspect of the smart air-conditioning system of the first embodiment of the present invention, in the third aspect, it is preferable that, in the odor removal process, the air purifier is activated and the fresh air blower is activated. Gear operation.

In addition, in the sixth aspect of the smart air-conditioning system of the first embodiment of the present invention, in the second aspect, it is preferable that, in the process of performing the ventilation process, the abnormality of the unit whose connection is lost occurs in the fresh air blower. Next, the ventilation process is continued, and in the case of an abnormality of the unit that the fresh air blower reports an error and stops, the ventilation process is ended and the state at the time of triggering is returned.

In addition, in the seventh aspect of the smart air-conditioning system of the first embodiment of the present invention, in the sixth aspect, it is preferable that, in the case where the ventilation process is continued, if the detected carbon dioxide concentration is less than the predetermined first aspect The second threshold value ends the ventilation process.

In addition, in the eighth aspect of the smart air conditioning system of the first embodiment of the present invention, in the sixth aspect, it is preferable that, in the ventilation process, the fresh air blower is operated in a high gear.

In addition, in the ninth aspect of the smart air conditioning system of the first embodiment of the present invention, in the second aspect, it is preferable that in the process of performing the dust removal process in the light pollution mode, the air cleaner or In the case of an abnormality of the unit whose connection is lost on the fresh air blower, the dust removal process in the light pollution mode is continued, and in the case of an abnormality of the unit where the fresh air blower reports an error and stops, the dust removal process in the light pollution mode is continued. In the removal process, in the case of an abnormality of the unit that reports an error stop of the air purifier, the dust removal process in the light pollution mode is ended and the state at the time of triggering is returned.

In addition, in the tenth aspect of the smart air conditioning system of the first embodiment of the present invention, in the ninth aspect, it is preferable that in the case of continuing the dust removal process in the light pollution mode, if the dust If the concentration is below the prescribed third threshold or the medium pollution mode is triggered, the dust removal process in the light pollution mode is ended and the state returns to the trigger state.

In addition, in the eleventh aspect of the smart air conditioning system of the first embodiment of the present invention, in the ninth aspect, it is preferable that in the dust removal process in the light pollution mode, the air purifier is activated and the air cleaner is activated. The fresh air blower is turned off.

In addition, in the twelfth aspect of the smart air-conditioning system of the first embodiment of the present invention, in the second aspect, it is preferable that in the process of performing the dust removal process in the moderate pollution mode, the air conditioner or When the air purifier or the fresh air blower has an abnormality in the unit whose connection is lost, continue the dust removal process in the moderate pollution mode. When the air conditioner or the fresh air blower has an error and stopped abnormality of the unit Next, continue the dust removal process in the moderate pollution mode, and if the air purifier reports an error and stops abnormally, the dust removal process in the moderate pollution mode is ended and returns to the trigger state.

In addition, in the thirteenth aspect of the smart air-conditioning system of the first embodiment of the present invention, in the twelfth aspect, it is preferable that if the dust removal process in the moderate pollution mode is continued, If the dust concentration is below the prescribed fourth threshold and the light pollution mode is triggered, the dust removal process in the medium pollution mode is ended and the state at the time of triggering is returned.

In addition, in the fourteenth aspect of the smart air-conditioning system of the first embodiment of the present invention, in the twelfth aspect, it is preferable that the air conditioner is caused to blow air in the dust removal process in the moderate pollution mode. Run to start the air purifier and turn off the fresh air blower.

In addition, in the fifteenth aspect of the smart air conditioning system of the first embodiment of the present invention, among the first to fourteenth aspects, it is preferable that the odor removal process is the first priority and the ventilation process is the second priority. Level, dust removal processing is the third priority.

In addition, in the sixteenth aspect of the smart air conditioning system of the first embodiment of the present invention, among the first to fourteenth aspects, it is preferable that the dust is PM2.5.

In a seventeenth aspect of the smart air-conditioning system of the second embodiment of the present invention, a smart air-conditioning system includes: a control unit that controls an air conditioner, an air purifier, and a fresh air blower; and an air conditioner that is controlled by The control part is controlled so that it is triggered according to the dust concentration for dust removal processing; an air purifier is controlled by the control part so that it is triggered according to the dust concentration for dust removal processing, and according to the difference And a fresh air blower, which is controlled by the control unit so that it is triggered according to the carbon dioxide concentration for ventilation treatment, and is triggered according to the degree of abnormal odor, to perform abnormal odor removal processing; In the odor removal process, the control unit determines whether to continue any of the odor removal process, the ventilation process, and the dust removal process based on a user operation.

In the eighteenth aspect of the smart air conditioning system according to the second embodiment of the present invention, in the seventeenth aspect, it is preferable that in the process of performing the odor removal process, the user operation is to turn off the air purifier Or in the case of turning off the operation of the fresh air blower, continue to perform the odor removal process, and continue to perform the odor removal process in the case where the user operation is the operation other than turning off the air purifier or the fresh air blower In the removal process, when the user operation is an operation of turning off the air purifier and turning off the fresh air blower, the abnormal odor removal process is ended and the state at the time of triggering is returned.

In the nineteenth aspect of the smart air-conditioning system according to the second embodiment of the present invention, in the eighteenth aspect, it is preferable that when the abnormal odor removal process is continued, if the detected abnormal odor is If the degree is less than the predetermined first threshold value, the odor removal process is ended and the state at the time of trigger is returned.

In the twentieth aspect of the smart air-conditioning system according to the second embodiment of the present invention, in the eighteenth aspect, it is preferable that, in the odor removal process, the air purifier is activated and the fresh air blower is activated. Gear operation.

In the twenty-first aspect of the smart air-conditioning system of the second embodiment of the present invention, in the seventeenth aspect, it is preferable that, in the process of performing ventilation processing, the user operation is performed on the fresh air blower. In the case of operations other than shutdown, the ventilation process is continued, and when the user operation is an operation to turn off the fresh air blower, the ventilation process is ended and the state at the time of triggering is returned.

In the twenty-second aspect of the smart air-conditioning system according to the second embodiment of the present invention, in the twenty-first aspect, it is preferable that, in the case of continuing the ventilation process, if the detected carbon dioxide concentration is less than a predetermined The second threshold of, then the ventilation process ends and returns to the state at the time of triggering.

In the twenty-third aspect of the smart air-conditioning system of the second embodiment of the present invention, in the twenty-first aspect, it is preferable that, in the ventilation process, the fresh air blower is operated in a high gear.

In the twenty-fourth aspect of the smart air conditioning system of the second embodiment of the present invention, in the seventeenth aspect, it is preferable that in the process of performing the dust removal process in the light pollution mode, the user operation is In the case of any operation performed on the fresh air blower, the dust removal process in the light pollution mode is continued, and when the user operation is the operation of turning off the air purifier, the air purifier in the light pollution mode is turned off. The dust removal process ends and returns to the state when it was triggered.

In the twenty-fifth aspect of the smart air conditioning system of the second embodiment of the present invention, in the twenty-fourth aspect, it is preferable that if the dust removal process in the light pollution mode is continued, if If the dust concentration is below the prescribed third threshold or the medium pollution mode is triggered, the dust removal process in the light pollution mode is ended and the state at the time of triggering is returned.

The twenty-sixth mode of the smart air-conditioning system of the second embodiment of the present invention. In the twenty-fourth mode, preferably, in the dust removal process in the light pollution mode, the air purifier is activated and Turn off the fresh air blower.

In the twenty-seventh mode of the smart air-conditioning system of the second embodiment of the present invention, in the seventeenth mode, it is preferable that in the process of performing the dust removal process in the moderate pollution mode, the user operation is In the case of any operation performed on the air conditioner or the fresh air blower, the dust removal process in the moderate pollution mode is continued, and if the user operation is the operation of turning off the air purifier, the medium The dust removal process in the high-pollution mode ends and returns to the state when it was triggered.

In the twenty-eighth mode of the smart air-conditioning system of the second embodiment of the present invention, in the twenty-seventh mode, preferably, in the case of continuing the dust removal process in the moderate pollution mode, if If the dust concentration is below the prescribed fourth threshold and the light pollution mode is triggered, the dust removal process in the medium pollution mode is ended and the state at the time of triggering is returned.

In the twenty-ninth aspect of the smart air-conditioning system of the second embodiment of the present invention, in the seventeenth aspect, it is preferable that the air conditioner is operated in the dust removal process in the moderate pollution mode , The air purifier is started, and the fresh air blower is turned off.

In the thirtieth aspect of the smart air conditioning system according to the second embodiment of the present invention, among the seventeenth to twenty-ninth aspects, it is preferable that the odor removal process is the first priority, and the ventilation process is the second priority. Level, dust removal processing is the third priority.

In the thirty-first mode of the smart air conditioning system of the second embodiment of the present invention, in the seventeenth to twenty-ninth modes, preferably, the dust is PM2.5.

Description of the drawings

Fig. 1 is a block diagram showing the overall structure of the smart air-conditioning system of the present invention.

Fig. 2 is a schematic diagram illustrating a situation in which a unit abnormality occurs during the process of odor removal processing in the intelligent air-conditioning system of the present invention.

Fig. 3 is a schematic diagram illustrating a situation in which a unit abnormality occurs during a ventilation process in the intelligent air-conditioning system of the present invention.

Fig. 4 is a schematic diagram illustrating a situation in which a unit abnormality occurs during the dust removal process in the intelligent air-conditioning system of the present invention.

Fig. 5 is a schematic diagram for explaining a situation in which a user operation occurs during the process of odor removal processing in the smart air-conditioning system of the present invention.

Fig. 6 is a schematic diagram illustrating a situation in which a user operation occurs during a ventilation process in the smart air-conditioning system of the present invention.

Fig. 7 is a schematic diagram illustrating a situation in which a user operation occurs in the process of dust removal processing in the intelligent air-conditioning system of the present invention.

Detailed ways

As shown in FIG. 1, the intelligent air conditioning system 1 of the present invention includes an air conditioner 20, an air purifier 30, a fresh air fan 40, and a control unit 10.

The air conditioner 20 can adjust parameters such as the temperature and humidity of the indoor ambient air and can supply air to the room. In addition, the air conditioner 20 may be a wall-mounted air conditioner, a stand air conditioner, a window air conditioner, a ceiling air conditioner, etc., and there is no particular limitation.

In addition, in the present embodiment, the air conditioner 20 is controlled by the control unit 10 so as to be triggered in accordance with the dust concentration to perform the dust removal process.

The air purifier 30 can adsorb, decompose or transform various air pollutants (generally including decoration pollution such as PM2.5, pollen, formaldehyde, bacteria, etc.), and effectively improve air cleanliness. The air purifier 30 can adopt adsorption technology, negative (positive) ion technology, catalytic technology, photocatalyst technology, superstructure light mineralization technology, HEPA high efficiency filtration technology, electrostatic dust collection technology, etc., and there is no particular limitation.

In addition, in the present embodiment, the air cleaner 30 is controlled by the control unit 10 so that it is triggered according to the dust concentration to perform the dust removal process, and is triggered according to the degree of the abnormal odor to perform the abnormal odor removal process.

The fresh air blower 40 can circulate the indoor air, discharge the dirty indoor air to the outdoors, and at the same time pass the fresh outdoor air into the room after sterilization, disinfection, filtration and other measures, so as to replace the indoor air.

In addition, in the present embodiment, the fresh air blower 40 is controlled by the control unit 10 so that it is triggered according to the carbon dioxide concentration to perform ventilation processing, and is triggered according to the degree of abnormal odor to perform abnormal odor removal processing.

The control unit 10 determines whether to continue any of the odor removal process, the ventilation process, and the dust removal process based on a unit abnormality or user operation that occurs in at least one of the air conditioner 20, the air cleaner 30, and the fresh air blower 40 .

Next, the control of the air conditioner 20, the air cleaner 30, and the fresh air blower 40 by the control unit 10 will be described in detail.

The control unit 10 determines whether or not to perform the abnormal odor removal process based on the degree of the abnormal odor. When it is determined that the degree of the abnormal odor is greater than or equal to the predetermined first threshold, the control unit 10 starts (triggers) the removal of the abnormal odor, that is, controls to start the air purifier and the fresh air blower in the full heat exchange mode. Gear operation.

In addition, when the odor removal process starts (triggered), there are the following four possibilities for the state of the air purifier and the fresh air blower (state at the time of triggering): the air purifier is on and the fresh air blower is on; the air purifier is on and the fresh air blower is off; air The purifier is turned off and the fresh air blower is turned on; the air purifier is turned off and the fresh air blower is turned off.

In addition, the odor removal processing is the highest priority, and the odor removal processing action is triggered with priority in any case.

In the process of the odor removal process, if the air purifier 30 or the fresh air blower 40 has a connection loss or an error stopped the unit is abnormal, the odor removal process is continued (that is, open), and the air purifier 30 and the new fan 40 are abnormal. If the fan 40 has an abnormality in the unit whose connection is lost, the odor removal process is continued (that is, open). When the air purifier 30 and the fresh fan 40 have an error and stop unit abnormality, the odor removal process is ended (that is, Return) and return to the state when triggered.

In the case where the abnormal odor removal processing is continued, if the degree of the detected abnormal odor is less than the predetermined first threshold value (the end condition is satisfied), the abnormal odor removal processing is terminated and the state at the time of the trigger is returned.

However, if the user operates a certain device in the odor removal process, the end operation of the device is subject to the user's final operation, and the remaining devices (if any) return to the state when they were triggered.

For example, suppose the air purifier is on and the fresh air blower is on at the time of triggering, but after the linkage is triggered, that is, if the user manually turns off the air purifier during the odor removal process, it will be determined to continue the odor removal process (i.e. open ), after the end conditions are met, the air purifier remains closed, and only the fresh air blower returns to the state when it was triggered.

As a result, the smart air conditioner can be brought into a state that meets the requirements of the user, and the user will not be distrustful due to excessive smart control.

The control unit 10 determines whether or not to perform a ventilation process based on the concentration of carbon dioxide. When it is determined that the concentration of carbon dioxide is above the predetermined second threshold (1000 pm in this example), the control unit 10 starts (triggers) the ventilation process, that is, controls so that the fresh air blower is in the high gear in the full heat exchange mode run.

In addition, there are three possibilities for the status of the fresh air blower at the start (triggered) of the air exchange process (the state at the time of triggering): the fresh air blower is running at a high gear; the fresh air blower is running at a low gear; and the fresh air blower is off.

In addition, the ventilation process is the second priority, and if there is a higher priority level (ie, odor removal process) action, you need to wait for it to end before triggering.

In the process of ventilation processing, in the case of an abnormality of a unit with a loss of connection of the fresh air blower 40, the ventilation processing is continued, and in the case of an abnormality of the unit with an error and stop of the fresh air blower 40, the ventilation processing is ended and returned State when triggered.

In the case of continuing the ventilation process, if the detected carbon dioxide concentration is less than the predetermined second threshold value, the ventilation process is terminated.

Generally speaking, when the carbon dioxide concentration is 350～450ppm, it makes people feel like a normal outdoor environment; when the carbon dioxide concentration is 350～1000ppm, it makes people feel fresh and breathing smoothly; when the carbon dioxide concentration is 1000～2000ppm , It makes people feel muddy and drowsy.

In this embodiment, the second threshold is set to 500 ppm. In addition, the second threshold is not limited to 500 pm, and can be appropriately set with reference to the carbon dioxide concentration and the physiological response of the human body.

In addition, similar to the odor removal process, if the user operates a certain device in the ventilation process, the end operation of the device is subject to the user's final operation, and the remaining devices (if any) return to the state when they were triggered.

In this embodiment, the control unit 10 determines whether it is light pollution or moderate pollution based on the concentration of PM2.5, that is, when the concentration of PM2.5 is 75 to 115μg/m ³ , it is determined to be light pollution, at PM2. When the concentration of 5 is greater than or equal to 115 μg/m ³ , it is judged as moderate pollution.

When it is determined that it is lightly polluted, the control unit 10 starts (triggers) the dust removal process in the lightly polluted mode, that is, performs control so that the air cleaner 30 is started and the fresh air blower 40 is turned off.

In addition, when the dust removal process in the light pollution mode is started (triggered), there are four possibilities for the state of the air purifier and the fresh air blower (state at the time of triggering): the air purifier is turned on and the fresh air blower is turned on; the air purifier is turned on and The new fan is turned off; the air purifier is turned off and the new fan is turned on; the air purifier is turned off and the new fan is turned off.

In addition, the dust removal process in the light pollution mode is the third priority. If there is a higher priority level (that is, the odor removal process and the ventilation process), the action needs to wait for its completion before triggering.

During the dust removal process in the light pollution mode, if the air purifier 30 or the fresh air blower 40 has an abnormality in the unit whose connection is lost, the dust removal process in the light pollution mode is continued, and the fresh air blower 40 In the case of an abnormality of the unit with an error stop, continue the dust removal process in the light pollution mode, and in the case of an abnormality of the unit with an error stop of the air purifier 30, the dust removal process in the light pollution mode is ended and returned State when triggered.

In the case of continuing the dust removal process in the light pollution mode, if the dust concentration is below the specified third threshold or the medium pollution mode is triggered, the dust removal process in the light pollution mode is ended and the state returns to the trigger state .

Regarding the above-mentioned third threshold, in order to avoid frequent start and stop of the equipment, it can be appropriately set after actual evaluation. In this embodiment, the third threshold is set to 50 μg/m ³ , but it is not limited to this.

In addition, similar to the odor removal process, if the user operates a certain device in the dust removal process in the light pollution mode, the end operation of the device is subject to the user's final operation, and the rest of the equipment (if any) is returned State when triggered.

For example, in the case of light pollution, it is assumed that the air purifier is on and the fresh air blower is on at the time of triggering, but after the linkage is triggered, that is, during the dust removal process, if the user manually turns off the air purifier, it will be judged to be finished. After the dust removal treatment (ie return), the air purifier remains closed, and only the fresh air blower returns to the state when it is triggered.

In addition, when it is determined that the pollution is moderate, the control unit 10 starts (triggers) the dust removal process in the moderate pollution mode, that is, controls the air conditioner 20 to perform air blowing operation, and the air purifier 30 is activated , And turn off the fresh air blower 40.

In addition, when the dust removal process in the moderate pollution mode starts (triggered), the states of the air conditioner, air purifier, and fresh air blower (state at the time of trigger) have the following possibilities: the air conditioner performs humidity/cooling/heating operation + light Four possibilities in the low-pollution mode; four possibilities in the air conditioner running/turning off + light-pollution mode.

In addition, the dust removal process in the medium pollution mode is the third priority. If there is a higher priority level (ie, the odor removal process and the ventilation process), you need to wait for it to end before triggering.

During the dust removal process in the moderate pollution mode, if the air conditioner 20, air purifier 30, or fresh air blower 40 has an abnormality in the unit whose connection is lost, continue the dust removal process in the moderate pollution mode. When the air conditioner 20 or the fresh air blower 40 has an error and stopped unit abnormality, continue the dust removal process in the medium pollution mode. When the air purifier 30 has an error and stop unit abnormality, set it to the medium pollution mode. The following dust removal process ends and returns to the state when it was triggered.

In the case of continuing the dust removal process in the medium pollution mode, if the dust concentration is below the specified fourth threshold and the light pollution mode is triggered, the dust removal process in the medium pollution mode is ended and the state returns to the trigger state .

Regarding the above-mentioned fourth threshold, in this embodiment, the fourth threshold is set to 100 μg/m ³ , but it is not limited to this, and can be appropriately set after actual evaluation.

In addition, similar to the odor removal process, if the user operates a certain device in the dust removal process in the moderate pollution mode, the end operation of the device is subject to the user's final operation, and the rest of the equipment (if any) is returned State when triggered.

As a result, the smart air-conditioning device can be brought into a state that meets the user's requirements, and the user will not feel distrustful due to excessive smart control.

By constructing the intelligent air conditioning system 1 of the present invention including the air conditioner 20, the air purifier 30, the fresh air blower 40, and the control unit 10 as described above, it is possible to avoid system errors in the intelligent air conditioning system when a unit abnormality occurs, and to Maximizing the functions of the intelligent air-conditioning system can bring users the most comfortable air-conditioning environment.

In the following, only the differences from the case where a unit abnormality occurs during the odor removal process will be described. Specifically, in the process of performing the odor removal process, when the user operation is to turn off the air purifier 30 or the operation of turning off the fresh air blower 40, the odor removal process is continued, and when the user operation is to turn off the air purifier 30 Or if the fresh air blower 40 performs other operations other than shutting down, the odor removal process is continued. If the user operation is to turn off the air purifier 30 and the fresh air blower 40, the odor removal process is ended and the trigger is returned. Time state.

Except for the above-mentioned differences, the rest is similar to the case of unit abnormality during the process of odor removal processing, and repeated description is omitted here.

In the following, only the differences from the situation in which the unit abnormality occurs during the ventilation process will be explained. Specifically, in the process of performing ventilation processing, if the user operation is an operation other than turning off the fresh air blower 40, the ventilation processing is continued, and when the user operation is an operation to turn off the fresh air blower 40 To end the ventilation process and return to the state at the time of trigger.

In the following, only the differences from the situation in which the unit abnormality occurs during the ventilation process will be explained. Specifically, in the process of performing the dust removal process in the light pollution mode, if the user operation is any operation performed on the fresh air blower 40, the dust removal process in the light pollution mode is continued, and the user operation In the case of the operation of turning off the air cleaner 30, the dust removal process in the light pollution mode is ended and the state at the time of triggering is returned. During the dust removal process in the moderate pollution mode, if the user operation is any operation on the air conditioner 20 or the fresh air blower 40, continue the dust removal process in the moderate pollution mode. In the case of the operation of turning off the air cleaner 30, the dust removal process in the medium pollution mode is ended and the state at the time of triggering is returned.

By configuring the intelligent air conditioning system 1 of the present invention including the air conditioner 20, the air purifier 30, the fresh fan 40, and the control unit 10 as described above, it is possible to prevent the intelligent air conditioning system from causing a system error when the user manually operates it, and It can maximize the functions of the intelligent air-conditioning system and bring the most comfortable air-conditioning environment to users.

The foregoing descriptions are merely some embodiments of the present invention. For those skilled in the art, without departing from the inventive concept of the present invention, further modifications and improvements can be made, and these modifications and improvements are all included in the protection scope of the present invention.

For example, in the above embodiment, the case where the dust is PM2.5 is shown, but it is not limited to this, and decoration pollution such as pollen and formaldehyde, bacteria, etc. may also be included.

Industrial applicability

The intelligent air-conditioning system of the present invention can be used in homes, offices, industrial plants, etc. It can prevent the intelligent air-conditioning system from generating system errors when the unit is abnormal or the user’s manual operation, and can maximize the functions of the intelligent air-conditioning system to provide users Bring the most comfortable air-conditioning environment.

Label description

1: Intelligent air conditioning system

10: Control Department

20: Air conditioner

30: Air purifier

40: Fresh air blower

Claims

An intelligent air conditioning system, including:

Control unit, which controls air conditioners, air purifiers, and fresh air fans;

An air conditioner, which is controlled by the control unit so as to be triggered according to the dust concentration to perform dust removal processing;

An air purifier, which is controlled by the control unit so that it is triggered according to the dust concentration to perform dust removal processing, and is triggered according to the degree of abnormal odor to perform abnormal odor removal processing; and

A fresh air blower, which is controlled by the control unit so that it is triggered according to the carbon dioxide concentration to perform ventilation treatment, and is triggered according to the degree of abnormal odor to perform abnormal odor removal treatment,

The control unit determines whether to continue any of the odor removal process, the ventilation process, and the dust removal process based on a unit abnormality that occurs in at least one of the air conditioner, the air purifier, and the fresh air blower deal with.
The intelligent air conditioning system according to claim 1, wherein:

The unit abnormalities include connection loss and error stop.
The intelligent air conditioning system according to claim 2, characterized in that,

In the process of odor removal treatment,

If the air purifier or the fresh air blower has a connection loss or an error stop unit abnormality, continue to perform the odor removal process,

In the case of an abnormality in the unit with a lost connection between the air purifier and the fresh air blower, continue to perform the odor removal process,

In the case that the air purifier and the fresh air blower have an error and stop unit abnormality, the odor removal process is ended and the state at the time of triggering is returned.
The intelligent air conditioning system according to claim 3, characterized in that:

In the case where the abnormal odor removal processing is continued, if the degree of the detected abnormal odor is less than the predetermined first threshold value, the abnormal odor removal processing is terminated and the state at the time of trigger is returned.
The intelligent air conditioning system according to claim 3, characterized in that:

In the odor removal process, the air purifier is activated and the fresh air blower is operated in a high gear.
The intelligent air conditioning system according to claim 2, characterized in that,

In the process of ventilation treatment,

In the case of an abnormality in the unit whose connection is lost to the new fan, continue to perform ventilation processing,

In the case of an abnormality of the unit with an error report and stop of the fresh air blower, the ventilation process is ended and the state at the time of triggering is returned.
The intelligent air conditioning system according to claim 6, wherein:

In the case of continuing the ventilation process, if the detected carbon dioxide concentration is less than the predetermined second threshold value, the ventilation process is terminated.
The intelligent air conditioning system according to claim 6, wherein:

In the ventilation process, the fresh air blower is operated in a high gear.
The intelligent air conditioning system according to claim 2, characterized in that,

In the process of dust removal treatment in light pollution mode,

In the case of an abnormality in the air purifier or the new fan with a lost connection, continue to perform the dust removal process in the light pollution mode,

In the case of an abnormality of the unit with an error and stop of the fresh air blower, continue the dust removal process in the light pollution mode,

In the case that the air purifier has an abnormality of the unit that reports an error and stops, the dust removal process in the light pollution mode is ended and the state at the time of triggering is returned.
The intelligent air conditioning system according to claim 9, wherein:

In the case of continuing the dust removal process in the light pollution mode, if the dust concentration is below the prescribed third threshold or the medium pollution mode is triggered, the dust removal process in the light pollution mode is ended and Return to the state when triggered.
The intelligent air conditioning system according to claim 9, wherein:

In the dust removal process in the light pollution mode, the air purifier is started and the fresh air blower is turned off.
The intelligent air conditioning system according to claim 2, characterized in that,

In the process of dust removal in the moderate pollution mode,

If the air conditioner or the air purifier or the fresh air blower has an abnormality in the unit whose connection is lost, continue the dust removal process in the moderate pollution mode,

In the event that the air conditioner or the fresh air blower has an abnormality in the unit that reports an error and stops, continue the dust removal process in the moderate pollution mode,

In the case of an abnormality of the air purifier that reports an error and stops, the dust removal process in the medium pollution mode is ended and the state at the time of triggering is returned.
The intelligent air conditioning system of claim 12, wherein:

In the case of continuing the dust removal process in the medium pollution mode, if the dust concentration is below the prescribed fourth threshold and the light pollution mode is triggered, the dust removal process in the medium pollution mode is ended and Return to the state when triggered.
The intelligent air conditioning system of claim 12, wherein:

In the dust removal process in the moderate pollution mode, the air conditioner is made to perform air blowing operation, the air purifier is started, and the fresh air blower is turned off.
The intelligent air conditioning system according to any one of claims 1 to 14, characterized in that:

The odor removal process is the first priority, the ventilation process is the second priority, and the dust removal process is the third priority.
The intelligent air conditioning system according to any one of claims 1 to 14, characterized in that:

The dust is PM2.5.
An intelligent air conditioning system, including:

Control unit, which controls air conditioners, air purifiers, and fresh air fans;

An air conditioner, which is controlled by the control unit so as to be triggered according to the dust concentration to perform dust removal processing;

An air purifier, which is controlled by the control unit so that it is triggered according to the dust concentration to perform dust removal processing, and is triggered according to the degree of abnormal odor to perform abnormal odor removal processing; and

A fresh air blower, which is controlled by the control unit so that it is triggered according to the carbon dioxide concentration to perform ventilation treatment, and is triggered according to the degree of abnormal odor to perform abnormal odor removal treatment,

The control unit determines whether to continue any of the odor removal process, the ventilation process, and the dust removal process based on the user's operation.
The intelligent air conditioning system of claim 17, wherein:

In the process of odor removal treatment,

In the case where the user operation is the operation of turning off the air purifier or turning off the fresh air blower, continue to perform the odor removal process,

In the case where the user operation is an operation other than turning off the air purifier or the fresh air blower, continue to perform the odor removal process,

In a case where the user operation is an operation of turning off the air purifier and turning off the fresh air blower, the odor removal process is ended and the state at the time of triggering is returned.
The intelligent air conditioning system of claim 18, wherein:

In the case where the abnormal odor removal processing is continued, if the degree of the detected abnormal odor is less than the predetermined first threshold value, the abnormal odor removal processing is ended and the state at the time of trigger is returned.
The intelligent air conditioning system of claim 18, wherein:

In the odor removal process, the air purifier is activated and the fresh air blower is operated in a high gear.
The intelligent air conditioning system of claim 17, wherein:

In the process of ventilation treatment,

In the case where the user operation is to perform operations other than turning off the fresh air blower, continue the ventilation process,

In the case where the user operation is an operation to turn off the fresh air blower, the ventilation process is ended and the state at the time of triggering is returned.
The intelligent air conditioning system of claim 21, wherein:

In the case of continuing the ventilation process, if the detected carbon dioxide concentration is less than the predetermined second threshold value, the ventilation process is ended and the state at the time of trigger is returned.
The intelligent air conditioning system of claim 21, wherein:

In the ventilation process, the fresh air blower is operated in a high gear.
The intelligent air conditioning system of claim 17, wherein:

In the process of dust removal treatment in light pollution mode,

In the case that the user operation is any operation performed on the fresh air blower, continue the dust removal process in the light pollution mode,

In a case where the user operation is an operation to turn off the air purifier, the dust removal process in the light pollution mode is ended and the state at the time of triggering is returned.
The intelligent air conditioning system of claim 24, wherein:

In the case of continuing the dust removal process in the light pollution mode, if the dust concentration is below the prescribed third threshold or the medium pollution mode is triggered, the dust removal process in the light pollution mode is ended and Return to the state when triggered.
The intelligent air conditioning system of claim 24, wherein:

In the dust removal process in the light pollution mode, the air purifier is started and the fresh air blower is turned off.
The intelligent air conditioning system of claim 17, wherein:

In the process of dust removal in the moderate pollution mode,

In the case where the user operation is any operation performed on the air conditioner or the fresh air blower, continue the dust removal process in the moderate pollution mode,

In a case where the user operation is an operation to turn off the air purifier, the dust removal process in the moderate pollution mode is ended and the state at the time of triggering is returned.
The intelligent air conditioning system of claim 27, wherein:

In the case of continuing the dust removal process in the medium pollution mode, if the dust concentration is below the prescribed fourth threshold and the light pollution mode is triggered, the dust removal process in the medium pollution mode is ended and Return to the state when triggered.
The intelligent air conditioning system of claim 27, wherein:

In the dust removal process in the moderate pollution mode, the air conditioner is made to perform air blowing operation, the air purifier is started, and the fresh air blower is turned off.
The intelligent air conditioning system according to any one of claims 17 to 29, characterized in that:

The odor removal process is the first priority, the ventilation process is the second priority, and the dust removal process is the third priority.
The intelligent air conditioning system according to any one of claims 17 to 29, wherein:

The dust is PM2.5.