TW201837389A - Indoor space comfort adjusting method and controlling module characterized in that a confortable indoor space temperature can be obtained by simultaneously considering the outdoor weather condition - Google Patents

Abstract

An indoor space comfort adjusting method is implemented by applying a controlling module to an air conditioning apparatus. The method comprises: firstly obtaining the outdoor temperature data indicating the outdoor temperature of the area where the indoor space is located, and the indoor environment evaluation data including a current temperature value, a current humidity value and a wind speed value; then, calculating a comfort range of indoor space temperature according to the outdoor temperature data and calculating an apparent temperature value according to the indoor environment evaluation data; and changing the operation setting of the air conditioning apparatus to make the apparent temperature value be within the comfort range of indoor space temperature, while determining that the apparent temperature value is outside the comfort range of indoor space temperature.

Description

Indoor space comfort adjustment method and control module

The invention relates to a comfort adjustment method, in particular to an indoor space comfort adjustment method involving automatic control. The invention also relates to a control module for implementing the indoor space comfort adjustment method.

In recent years, automatic control technology has gradually matured and is gradually being applied to household appliances for daily life.

A conventional air conditioning equipment control method is to apply the "predicted average voting" model proposed by the Danish scholar Professor Povl Ole Fanger in 1972 (Predicted Mean Vote, referred to as PMV), and evaluate the current temperature using parameters such as temperature and humidity. Whether the environment meets the conditions that make most people feel comfortable. Then, according to the evaluation result, the operation setting of the air conditioner is adjusted, thereby improving the comfort of the indoor environment.

However, PMV is not specifically designed to improve the comfort of the indoor environment. Moreover, the comfort conditions of the indoor environment are actually affected by the external climate environment. Therefore, there is still room for further improvement in the conventional air conditioning equipment control method.

Accordingly, it is an object of the present invention to provide an indoor space comfort adjustment method that further improves the prior art.

Therefore, the indoor space comfort adjustment method of the present invention is implemented by a control module for an air conditioner, and the indoor space comfort adjustment method comprises the following steps: (A) the control module obtains an outdoor temperature indicating the area where the indoor space is located An outdoor temperature data, and an indoor environmental assessment data, the indoor environmental assessment data includes a current temperature value indicating a current temperature of the indoor space, a current humidity value indicating a current humidity of the indoor space, and an indication of the current air conditioning device Wind speed value of wind speed. (B) The control module calculates an indoor space temperature comfort range based on the outdoor temperature data. (C) The control module calculates the integrated temperature value based on the indoor environmental assessment data. (D) when the control module determines that the somatosensory temperature value is outside the comfort range of the indoor space temperature, the control module changes an operational setting of the air conditioning device such that the somatosensory temperature value is located at the The indoor space temperature is within comfort.

In some embodiments of the indoor space comfort adjustment method of the present invention, the operation setting includes a wind speed setting value related to a wind speed output by the air conditioning device, and a humidity related to a target humidity maintained by the air conditioning device. The setting value, the step (D) comprises the following sub-steps: (D1) when the control module determines that the somatosensory temperature value is outside the comfort range of the indoor space temperature, the control module changes the wind speed setting value and the One of the humidity setting values, and updating the indoor environmental assessment data after a first predetermined time, and calculating the somatosensory temperature value again according to the updated indoor environmental assessment data. (D2) when the control module determines that the updated somatosensory temperature value is still outside the indoor space temperature comfort range after the first predetermined time, the control module changes the wind speed setting value and the humidity setting The other of the values.

In some embodiments of the indoor space comfort adjustment method of the present invention, in sub-step (D1) and sub-step (D2);

When the control module determines that the somatosensory temperature value is greater than an upper limit value of the indoor space temperature comfort range, and the control module changes the wind speed setting value, the control module changes the wind speed setting value manner, The magnitude of the wind speed set value is adjusted from a first wind speed value to a second wind speed value greater than the first wind speed value. When the control module determines that the somatosensory temperature value is less than a lower limit value of the indoor space temperature comfort range, and the control module changes the wind speed setting value, the control module changes the wind speed setting value manner, The magnitude of the wind speed set value is adjusted from the first wind speed value to a third wind speed value that is less than the first wind speed value. When the control module determines that the somatosensory temperature value is greater than an upper limit value of the indoor space temperature comfort range, and the control module changes the humidity setting value, the control module changes the humidity setting value, The magnitude of the humidity set value is adjusted from a first humidity value to a second humidity value that is less than the first humidity value. When the control module determines that the somatosensory temperature value is less than a lower limit value of the indoor space temperature comfort range, and the control module changes the humidity setting value, the control module changes the humidity setting value, The magnitude of the humidity set value is adjusted from a first humidity value to a third humidity value greater than the first humidity value.

In some embodiments of the indoor space comfort adjustment method of the present invention, the operational setting further includes a temperature setting associated with a target temperature maintained by the air conditioning device. In the sub-step (D2), after the control module changes the other one of the wind speed setting value and the humidity setting value, the indoor environmental assessment data is further updated after a second predetermined time, and according to the updated The indoor environmental assessment data again calculates the somatosensory temperature value. Step (D) further includes a sub-step (D3) after sub-step (D2): when the control module determines that the updated somatosensory temperature value after the second predetermined time is still located in the indoor space temperature is comfortable When outside the range, the control module changes the temperature setting.

In some implementations of the indoor space comfort adjustment method of the present invention, in the sub-step (D3), when the control module determines that the body temperature value is greater than an upper limit value of the indoor space temperature comfort range, The manner in which the control module changes the temperature set value is to adjust the magnitude of the temperature set value from a first temperature value to a second temperature value that is less than the first temperature value. When the control module determines that the somatosensory temperature value is less than a lower limit value of the comfort range of the indoor space temperature, the manner in which the control module changes the temperature setting value is that the temperature setting value is determined by the first The temperature value is adjusted to a third temperature value greater than the first temperature value.

In some implementations of the indoor space comfort adjustment method of the present invention, the control module includes a processing unit, a communication unit, a sensing unit, and a storage unit. In the step (A), the processing unit is The communication unit receives the outdoor temperature data from a server, receives the current temperature value and the current humidity value via the sensing unit, and reads, from the storage unit, the wind speed corresponding to one of the wind speed setting values included in the operation setting The value of the wind speed is related to the magnitude of the wind speed output by the air conditioner.

In some implementations of the indoor space comfort adjustment method of the present invention, in the step (D), the control module is configured to change the operational setting of the air conditioning device such that the somatosensory temperature value is located in the indoor space temperature. Within the comfort zone and adjacent to an ideal temperature value within the comfort zone of the indoor space.

In some implementations of the indoor space comfort adjustment method of the present invention, the indoor space comfort adjustment method further includes a step (E) after the step (D): when the control module receives a cooling command, the The control module updates the ideal temperature value, and the control module updates the ideal temperature value in such a manner that the updated ideal temperature value is closer to the lower limit of the indoor space temperature comfort range than the updated ideal temperature value. The value is not lower than the lower limit of the comfort range of the indoor space temperature, so that when the control module changes the operation setting of the air conditioner, the somatosensory temperature value is adjacent to the updated ideal temperature value; When the control module receives a warming command, the control module updates the ideal temperature value, and the control module updates the ideal temperature value in such a manner that the updated ideal temperature value is more than the ideal temperature value before the update. Close to an upper limit value of the comfort range of the indoor space temperature, and not higher than an upper limit value of the comfort range of the indoor space temperature, so that the control module changes the operation setting of the air conditioner, The value of the temperature sensing body temperature over the adjacent updated.

The invention also provides a control module capable of implementing the indoor space comfort adjustment method

The control module of the present invention is suitable for cooperating with an air conditioning device, and the control module comprises a communication unit, a sensing unit and a processing unit. The processing unit is electrically connected to the communication unit, the sensing unit and the storage unit, and the processing unit obtains an outdoor temperature data indicating an outdoor temperature of the area where the indoor space is located, and obtains an outdoor temperature data through the sensing unit. The indoor environmental assessment data, the indoor environmental assessment data includes a current temperature value indicating a current temperature of the indoor space, a current humidity value indicating a current humidity of the indoor space, and a wind speed value indicating a current wind speed of the air conditioner, and then The processing unit calculates an indoor space temperature comfort range according to the outdoor temperature data, and calculates an integrated temperature value according to the indoor environmental assessment data, and when the processing unit determines that the somatosensory temperature value is located in the indoor space temperature comfortable range In addition, the processing unit changes an operational setting of the air conditioning device via the communication unit such that the somatosensory temperature value is within a comfortable range of the indoor space temperature.

In some implementations of the control module of the present invention, the control module further includes a storage unit electrically connected to the processing unit, and the processing unit receives the outdoor temperature data from a server via the communication unit, and The storage unit reads the wind speed value corresponding to one of the wind speed setting values included in the operation setting, the wind speed setting value being related to the magnitude of the wind speed output by the air conditioner.

The effect of the present invention is that the indoor space temperature comfort range and the somatosensory temperature value are respectively calculated according to the outdoor temperature data and the indoor environmental assessment data, and the somatosensory temperature value is located in the indoor space temperature comfort range. When the operation setting of the air conditioner is changed outside, the updated somatosensory temperature value is within the comfort range of the indoor space temperature, and the user in the indoor space feels comfortable. When the user enters the room from the outdoor environment, the comfort level of the indoor space is related to the outdoor environment, and the indoor space temperature comfort range of the embodiment is calculated according to the outdoor temperature of the area where the indoor space is located, When the seasonal temperature of the indoor space changes, the comfort range of the indoor space temperature will also be adjusted. Therefore, the embodiment is more compatible with the change of the comfort feeling of the indoor space of the user in different seasons.

Referring to FIG. 1 , an embodiment of the control module 1 of the present invention includes a sensing unit 11 , a communication unit 12 , a storage unit 13 , an input unit 14 , and an electrical connection between the sensing unit 11 and the communication unit 12 . The storage unit 13 and the processing unit 15 of the input unit 14. In this embodiment, the processing unit 15 is adapted to communicate with a server 102 via the communication unit 12 via the Internet, and is adapted to control the operation of the air conditioner 101 via a Bluetooth interface of the communication unit 12. . In this embodiment, the server 102 stores, for example, weather data of a plurality of different regions, and may be owned by, for example, a government agency, a company, a research institution, a school unit, or an individual, but is not limited thereto. The air conditioner 101 can be, for example, an air conditioner or a total heat exchanger disposed in an indoor space, but is not limited thereto. The air conditioner 101 has an operation setting. In the embodiment, the operation setting includes a wind speed setting value related to the wind speed output by the air conditioner 101, and a humidity related to the target humidity maintained by the air conditioner 101. The set value, and a temperature setting value related to the target temperature maintained by the air conditioner 101. In other embodiments, the processing unit 15 can also simultaneously control the operation of a plurality of air conditioners via the communication unit 12, for example, simultaneously controlling an air conditioner, a dehumidifier, and an electric fan. Of course, different types of air conditioners have The operation settings may be different. For example, the operation setting of the electric fan is only related to the wind speed, and the operation setting of the dehumidifier is only related to the wind speed and humidity. In addition, the processing unit 15 may also control various air conditioners via a Wifi wireless network or a Zigbee interface of the communication unit 12, and is not limited to the embodiment.

In this embodiment, the sensing unit 11 includes a temperature sensor 111 for sensing the current temperature of the indoor space, and a humidity sensor 112 for sensing the current humidity of the indoor space. The storage unit 13 stores a plurality of wind speed values different from each other, and the wind speed values are the wind speed setting values included in the operation setting of the air conditioner 101. For example, when the set wind speed setting value is "weak", the corresponding wind speed value stored in the storage unit 13 is, for example, 1.5 meters per second, when the air speed setting value of the air conditioner 101 is "strong". The corresponding wind speed value stored in the storage unit 13 is, for example, 2.8 meters per second, but is not limited thereto.

Referring to FIG. 2, an indoor space comfort adjustment method performed by the air conditioner 101 in the present embodiment will be described in detail below.

First, step S1 is performed. In step S1, the processing unit 15 of the control module 1 receives an outdoor temperature data indicating an outdoor temperature of an area in which the indoor space is located, and an indoor environmental assessment data indicating an environmental parameter of the indoor space. More specifically, the processing unit 15 receives the outdoor temperature data from the server 102 via the communication unit 12, and the outdoor temperature data is, for example, a previous two-week average temperature T _A , which is based on the current date, but Not limited to this. The indoor environmental assessment data includes a current temperature value indicating a current temperature of the indoor space, a current humidity value indicating a current humidity of the indoor space, and the wind speed value corresponding to a current wind speed setting value of the air conditioner 101. In this embodiment, the processing unit 15 receives the current temperature value from the temperature sensor 111 of the sensing unit 11, receives the current humidity value from the humidity sensor 112 of the sensing unit 11, and The storage unit 13 reads the wind speed value corresponding to the wind speed setting value currently set by the air conditioner 101. Next, step S2 is performed.

In step S2, the processing unit 15 calculates an indoor space temperature comfort range based on the outdoor temperature data. In this embodiment, the indoor space temperature comfort range includes an upper limit value T _max , a lower limit value T _min , and an ideal temperature value T _ideal between the upper limit value T _max and the lower limit value T _min . The ideal temperature value T _ideal is an optimum temperature representing the indoor space. In the present embodiment, the calculation formulas of the upper limit value T _max , the lower limit value T _min and the ideal temperature value T _ideal are as follows:

In the present embodiment, the value of C _{1 is} , for example, 16.2, the value of C _{2 is} , for example, 10.74, and the value of C _{3 is} , for example, 5.93. The aforementioned C ₁ to C ₃ are suitable for the relatively cold winter, so that C ₁ to C ₃ are both positive numbers such that the ideal temperature value T _ideal is greater than the first two weeks average temperature T _A . In particular, the values of C ₁ to C ₃ may vary according to different regions, different seasons, and different user habits, and thus the upper limit value T _max , the lower limit value T _{min ,} and the ideal temperature value T The values of _ideal and C ₁ to C ₃ are not limited to the embodiment. Next, step S3 is performed.

In step S3, the processing unit 15 calculates an integrated temperature value T _S based on the indoor environment evaluation data. In the present embodiment, the calculation formula of the somatosensory temperature value T _S is as follows:

Where T _{C in} Equation 4 represents the current temperature value, V _C represents the wind speed value, H _{C in} Equation 5 represents the current humidity value, and e represents the base of the natural logarithm function (Exponential). In particular, the calculation formula of the somatosensory temperature value T _S is not limited to the embodiment. In other embodiments, different calculations may be designed for the somatosensory temperature value T _S according to actual requirements. formula. Next, step S4 is performed.

In step S4, the processing unit 15 determines whether the somatosensory temperature value T _S is within the comfort range of the indoor space temperature. When the determination result of the processing unit 15 is YES, the step S1 is performed again after a predetermined delay time, and the predetermined delay time may be, for example, 10 seconds, but is not limited thereto. When the determination result of the processing unit 15 is NO, step S5 is performed.

In step S5, when the processing unit 15 determines that the somatosensory temperature value T _S is outside the indoor space temperature comfort range, the processing unit 15 changes the wind speed setting value set by the air conditioner 101. More specifically, according to the aforementioned formula 4 and formula 5, the wind speed in the indoor space (i.e., the wind speed value) is negatively correlated with the somatosensory temperature value T _S , that is, when the processing unit 15 determines When the somatosensory temperature value T _S is greater than the upper limit value T _{max of} the indoor space temperature comfort range, the user may feel that the indoor space is too hot, so that the wind speed setting value has not been set to the maximum, The manner in which the processing unit 15 changes the wind speed setting value is to adjust the magnitude of the wind speed setting value from a first wind speed value to a second wind speed value greater than the first wind speed value (for example, the wind speed setting value is from the middle Change to "strong"). On the other hand, when the control module 1 determines that the somatosensory temperature value T _S is less than the lower limit value T _{min of} the indoor space temperature comfort range, the representative user may feel that the indoor space is too cold, and therefore, the wind speed is set. The manner in which the processing unit 15 changes the wind speed setting value is to adjust the magnitude of the wind speed setting value from the first wind speed value to a third wind speed value smaller than the first wind speed value. (For example, change the wind speed setting value from "medium" to "weak"). Next, step S6 is performed.

In step S6, the processing unit 15 updates the indoor environment assessment data after a first predetermined time, and calculates the somatosensory temperature value T _S again according to the updated indoor environment assessment data. The first predetermined time may be, for example, 3 minutes, but is not limited thereto. Next, step S7 is performed.

In step S7, the processing unit 15 determines whether the recalculated somatosensory temperature value T _S is within the indoor space temperature comfort range. When the result of the determination by the processing unit 15 is YES, step S1 is executed again after the predetermined delay time. When the determination result of the processing unit 15 is NO, step S8 is performed.

In step S8, when the processing unit 15 determines that the updated somatosensory temperature value T _{S is} still outside the indoor space temperature comfort range after the first predetermined time, the processing unit 15 changes the air conditioning device 101. The humidity setting value set by the operation. Specifically, according to the foregoing formula 4 and formula 5, the humidity in the indoor space (ie, the current humidity value) is positively correlated with the somatosensory temperature value T _S , and when the processing unit 15 determines the somatosensory temperature value When T _{S is} still greater than the upper limit value T _{max of} the indoor space temperature comfort range, the processing unit 15 sets the humidity on the premise that the wind speed set value has been set to the maximum and the humidity set value has not been set to the minimum. The size of the set value is adjusted by a first humidity value to a second humidity value that is less than the first humidity value (for example, the humidity setting value is changed from "medium" to "low", that is, the air conditioner 101 is enhanced. Wet strength). On the other hand, when the processing unit 15 determines that the somatosensory temperature value T _{S is} still less than the lower limit value T _{min of} the indoor space temperature comfort range, and the wind speed setting value has been set to the minimum, and the humidity setting value has not yet been Under the premise of being set to the maximum, the processing unit 15 adjusts the magnitude of the humidity setting value from the first humidity value to a third humidity value greater than the first humidity value (for example, the humidity setting value is from the middle) The change to "high", that is, the dehumidification strength of the air conditioner 101 is weakened. Next, step S9 is performed.

In step S9, the processing unit 15 updates the indoor environment assessment data again after a second predetermined time, and calculates the somatosensory temperature value T _S again according to the updated indoor environment assessment data. The second predetermined time is, for example, 3 minutes, but is not limited thereto. Next, step S10 is performed.

In step S10, the processing unit 15 determines whether the re-calculated somatosensory temperature value T _S is within the indoor space temperature comfort range. When the result of the determination by the processing unit 15 is YES, step S1 is executed again after the predetermined delay time. When the determination result of the processing unit 15 is NO, step S11 is performed.

In step S11, when the processing unit 15 determines that the updated somatosensory temperature value T _{S is} still outside the indoor space temperature comfort range after the second predetermined time, the processing unit 15 changes the air conditioning device 101. The set temperature setting value is set. Specifically, when the processing unit 15 determines that the somatosensory temperature value T _{S is} still greater than the upper limit value T _{max of} the indoor space temperature comfort range, and the wind speed setting value has been set to the maximum, the humidity setting value has been When set to a minimum, the processing unit 15 adjusts the magnitude of the temperature set value from a first temperature value to a second temperature value that is less than the first temperature value (eg, decreases the temperature set value by 1 degree). On the contrary, when the processing unit 15 determines that the somatosensory temperature value T _{S is} still less than the lower limit value T _{min of} the indoor space temperature comfort range, and the wind speed setting value has been set to the minimum, the humidity setting value has been set to When the maximum is reached, the processing unit 15 adjusts the magnitude of the temperature set value from the first temperature value to a third temperature value greater than the first temperature value (for example, increasing the temperature set value by 1 degree). Next, step S1 is performed again after the predetermined delay time.

In the present embodiment, when the processing unit 15 first determines that the somatosensory temperature value T _S is outside the indoor space temperature comfort range, the wind speed setting value in the operation setting is first changed (step S5). If the wind speed setting value is changed so that the updated somatosensory temperature value T _S is not within the indoor space temperature comfort range, the processing unit 15 further changes the humidity setting value in the operation setting (step S8). If the wind speed setting value and the humidity setting value are changed, if the updated somatosensory temperature value T _S is still not within the indoor space temperature comfort range, the processing unit 15 further changes the operation setting. The temperature setting value is such that the somatosensory temperature value T _S is within the comfort range of the indoor space temperature. In the general air conditioner 101, the function of changing the wind speed consumes less power, and the function of changing the temperature consumes the most power. Therefore, the processing unit 15 in this embodiment uses "wind speed → humidity → temperature". The order of the changes changes the operational setting, and the comfort of the indoor space can be adjusted in a more energy-saving manner. However, in other embodiments, the processing unit 15 may change the operation setting in the order of “humidity→wind speed→temperature”, for example, and is not limited to the embodiment.

It should be noted that, in step S5, step S8 and step S11 of the embodiment, when the control unit changes the wind speed setting value, the humidity setting value or the temperature setting value in the operation setting, the purpose thereof is not only included The somatosensory temperature value T _S recalculated after changing the operation for a period of time can be located within the comfort range of the indoor space temperature, and further includes the somatosensory temperature value T _{S being as} close as possible to the comfortable range of the indoor space temperature. The ideal temperature value is T _ideal . Therefore, taking the temperature setting value in step S11 as an example, it is assumed that the current somatosensory temperature value T _S is outside the spatial temperature comfort range, and the temperature setting value is 29 degrees, and the ideal temperature value T _ideal is At 26 degrees, it is assumed that the processing unit 15 can set the temperature sensing value T _S recalculated after a period of time to be within the comfortable range of the indoor space temperature, regardless of whether the temperature setting value is set to 28 degrees or 27 degrees. Then, the processing unit 15 firstly takes "28 degrees" and "27 degrees" as the current temperature values after the period of time and substitutes them into Equation 4 to determine which of the calculated results is closer to the ideal temperature value T _ideal ( 26 degrees), and as a new temperature set value closer to the ideal temperature value T _ideal .

In addition, the size of the ideal temperature value T _ideal can be adjusted by the user by operating the input unit 14 to conform to the usage habits of different users. Specifically, when the processing unit 15 receives a cooling instruction via the input unit 14, the processing unit 15 updates the ideal temperature value T _ideal according to the cooling instruction, and the processing unit 15 updates the ideal temperature value T _ideal manner, such that the desired temperature is the updated value of the desired temperature T _ideal compared before updated value T _ideal closer to the lower limit temperature T _min of the indoor space comfortable range and not lower than the interior temperature of the comfort range Limit value T _min . When the control module 1 receives a temperature increase command, the control module 1 updates the ideal temperature value T _ideal according to the temperature increase command, and the processing unit 15 updates the ideal temperature value T _ideal by updating the the desired temperature value before the desired temperature T _ideal than the updated value T _ideal closer to the interior thermal comfort limits of the range T _max, the interior temperature not higher than the upper limit of the comfort range T _max. In this way, when the processing unit 15 subsequently changes the operation setting of the air conditioner 101, the somatosensory temperature value T _{S is} adjacent to the updated ideal temperature value T _ideal , and conforms to the user's usage habits. In this embodiment, when the processing unit 15 receives the cooling instruction every time, the processing unit 15 lowers the ideal temperature value T _ideal by, for example, 0.5 degrees, when the processing unit 15 receives the warming command each time. The processing unit 15 increases the ideal temperature value T _ideal by, for example, 0.5 degrees, but is not limited thereto.

In summary, the control module 1 of the present embodiment and the indoor space comfort adjustment method performed on the air conditioner 101 can calculate the indoor space temperature comfort range by receiving the outdoor temperature data, and receive The indoor environmental assessment data calculates the somatosensory temperature value T _S , and when the somatosensory temperature value T _S is outside the comfort range of the indoor space temperature, the operation of the air conditioning device 101 is correspondingly changed with a relatively energy-saving control mechanism. It is set such that the somatosensory temperature value T _S is within the comfort range of the indoor space temperature. When the user enters the room from the outdoor environment, the comfort level of the indoor space is related to the outdoor environment, and the indoor space temperature comfort range of the embodiment is calculated according to the average temperature of the previous two weeks in the area where the indoor space is located. Therefore, when the outdoor temperature of the indoor space is changed when the season is rotated, the indoor space temperature comfort range is also adjusted. Therefore, the embodiment is more compatible with the change of the comfort feeling of the indoor space of the user in different seasons. Moreover, the user can adjust the ideal temperature value T _ideal in the comfort range of the indoor space according to his or her own preference, and can satisfy users of different habits, so that the object of the present invention can be achieved.

However, the above is only the embodiment of the present invention, and the scope of the invention is not limited thereto, and all the equivalent equivalent changes and modifications according to the scope of the patent application and the patent specification of the present invention are still The scope of the invention is covered.

1‧‧‧Control Module

11‧‧‧Sensor unit

111‧‧‧Temperature Sensor

112‧‧‧Humidity sensor

12‧‧‧Communication unit

13‧‧‧ storage unit

14‧‧‧ Input unit

15‧‧‧Processing unit

101‧‧‧Air conditioning equipment

102‧‧‧Server

S1~S11‧‧‧ steps

The other features and advantages of the present invention will be apparent from the embodiments of the present invention. FIG. 1 is a block diagram of an embodiment of the control module of the present invention; and FIG. 2 is a flow chart illustrating This embodiment relates to an indoor space comfort adjustment method performed by an air conditioner.

Claims (10)

An indoor space comfort adjustment method is implemented by a control module for an air conditioning device, and the indoor space comfort adjustment method comprises the following steps: (A) the control module obtains an indication of an outdoor temperature of an area in which the indoor space is located The outdoor temperature data and the indoor environmental assessment data, the indoor environmental assessment data includes a current temperature value indicating a current temperature of the indoor space, a current humidity value indicating a current humidity of the indoor space, and a current wind speed indicating the air conditioner (B) the control module calculates an indoor space temperature comfort range based on the outdoor temperature data; (C) the control module calculates an integrated temperature value based on the indoor environmental assessment data; and (D) when the When the control module determines that the somatosensory temperature value is outside the comfort range of the indoor space temperature, the control module changes an operation setting of the air conditioning device, so that the somatosensory temperature value is located in the indoor space temperature comfort range. within. The indoor space comfort adjustment method according to claim 1, wherein the operation setting includes a wind speed setting value related to a wind speed output by the air conditioner, and a humidity related to a target humidity maintained by the air conditioner. The setting value, the step (D) comprises the following sub-steps: (D1) when the control module determines that the somatosensory temperature value is outside the comfort range of the indoor space temperature, the control module changes the wind speed setting value and the One of the humidity setting values, and updating the indoor environmental assessment data after a first predetermined time, and recalculating the somatosensory temperature value according to the updated indoor environmental assessment data; and (D2) when the control module The control module changes the other of the wind speed set value and the humidity set value when it is determined that the updated somatosensory temperature value is still outside the indoor space temperature comfort range after the first predetermined time. The indoor space comfort adjustment method according to claim 2, wherein in the sub-step (D1) and the sub-step (D2); when the control module determines that the somatosensory temperature value is greater than the indoor space temperature comfort range The upper limit value, and when the control module changes the wind speed setting value, the control module changes the wind speed setting value by adjusting the magnitude of the wind speed setting value from a first wind speed value to a greater value than the first a second wind speed value of a wind speed value; when the control module determines that the body temperature value is less than a lower limit value of the indoor space temperature comfort range, and the control module changes the wind speed set value, the control mode The manner of changing the set value of the wind speed is to adjust the magnitude of the set value of the wind speed from the first wind speed value to a third wind speed value less than the first wind speed value; when the control module determines the somatosensory temperature value Is greater than the upper limit of the comfort range of the indoor space temperature, and the control module changes the humidity setting value when the control module changes the humidity setting value, and the size of the humidity setting value is first Humidity value adjustment a second humidity value that is less than the first humidity value; and when the control module determines that the body temperature value is less than a lower limit of the indoor space temperature comfort range, and the control module changes the humidity setting The value of the humidity setting value is changed by the first humidity value to a third humidity value greater than the first humidity value. The indoor space comfort adjustment method according to claim 2, wherein the operation setting further includes a temperature setting value related to a target temperature maintained by the air conditioning device; in the substep (D2), the control module is changed. After the other one of the wind speed setting value and the humidity setting value, updating the indoor environmental assessment data after a second predetermined time, and calculating the somatosensory temperature value again according to the updated indoor environmental assessment data; Step (D) further includes a sub-step (D3) after sub-step (D2): when the control module determines that the updated somatosensory temperature value after the second predetermined time is still located in the indoor space temperature is comfortable When outside the range, the control module changes the temperature setting. The indoor space comfort adjustment method according to claim 4, wherein in the sub-step (D3); when the control module determines that the body temperature value is greater than an upper limit value of the indoor space temperature comfort range, The control module changes the temperature setting value by adjusting the temperature setting value from a first temperature value to a second temperature value smaller than the first temperature value; when the control module determines the body When the temperature sense value is less than the lower limit value of the comfort range of the indoor space temperature, the control module changes the temperature set value by adjusting the magnitude of the temperature set value from the first temperature value to be greater than the first The third temperature value of the temperature value. The method for adjusting the comfort of an indoor space according to claim 1, wherein the control module comprises a processing unit, a communication unit, a sensing unit and a storage unit, and in the step (A), the processing unit is The communication unit receives the outdoor temperature data from a server, receives the current temperature value and the current humidity value via the sensing unit, and reads, from the storage unit, the wind speed corresponding to one of the wind speed setting values included in the operation setting The value of the wind speed is related to the magnitude of the wind speed output by the air conditioner. The indoor space comfort adjustment method according to claim 1, wherein in the step (D), the control module is configured to change the operation setting of the air conditioner so that the somatosensory temperature value is located in the indoor space temperature. Within the comfort zone and adjacent to an ideal temperature value within the comfort zone of the indoor space. The indoor space comfort adjustment method according to claim 7, further comprising a step (E): when the control module receives a cooling command, the control module updates the ideal temperature value, and the control module updates the The ideal temperature value is obtained by making the updated ideal temperature value closer to the lower limit value of the indoor space temperature comfort range than the updated ideal temperature value, and not lower than the indoor space temperature comfortable range lower limit value. When the control module changes the operation setting of the air conditioner, the somatosensory temperature value is adjacent to the updated ideal temperature value; when the control module receives a warming command, the control module updates the ideal a temperature value, and the control module updates the ideal temperature value in such a manner that the updated ideal temperature value is closer to the upper limit value of the indoor space temperature comfort range than the updated ideal temperature value, and is not higher than The upper limit of the indoor space temperature comfort range is such that when the control module changes the operation setting of the air conditioner, the somatosensory temperature value is adjacent to the updated ideal temperature value. A control module is adapted to cooperate with an air conditioning device, the control module comprising: a communication unit; a sensing unit; and a processing unit electrically connecting the communication unit, the sensing unit and the storage unit, The processing unit obtains an outdoor temperature data indicating an outdoor temperature of the area where the indoor space is located, and obtains an indoor environmental assessment data through the sensing unit, where the indoor environmental assessment data includes a current temperature indicating the indoor space. a current temperature value, a current humidity value indicating a current humidity of the indoor space, and a wind speed value indicating a current wind speed of the air conditioner, and then the processing unit calculates an indoor space temperature comfort range according to the outdoor temperature data, and according to the The indoor environment assessment data calculates an integrated temperature value. When the processing unit determines that the somatosensory temperature value is outside the comfort range of the indoor space temperature, the processing unit changes an operation setting of the air conditioning device via the communication unit. So that the somatosensory temperature value is within the comfort range of the indoor space temperature The control module of claim 9, further comprising a storage unit electrically connected to the processing unit, the processing unit receiving the outdoor temperature data from a server via the communication unit, and reading from the storage unit The wind speed value of one of the wind speed setting values included in the operation setting, the wind speed setting value being related to the magnitude of the wind speed output by the air conditioner.