CN114440421B - Environment temperature adjusting method and environment temperature adjusting system - Google Patents

Abstract

The invention belongs to the technical field of indoor temperature control. The invention discloses an environmental temperature adjusting method, which comprises the following steps of: basic parameters of temperature control equipment are obtained, and adjustment data of a user are obtained; and (3) data processing and calculating: calculating according to the regulation data to obtain the expected temperature and the optimal temperature of the individual; and (3) adjusting the ambient temperature: adjusting the ambient temperature according to the optimal temperature; local temperature regulation: and carrying out local temperature regulation and control on the area where the user is located according to the individual expected temperature, the position data and the basic parameters of the temperature control equipment. The invention also discloses an environment temperature regulating system which comprises an input module, a receiving module, a data processing module, a control module and a sending module. The invention is used for regulating and controlling the indoor temperature, and can further meet the temperature requirements of individual personnel on the premise of meeting the temperature requirements of all indoor personnel.

Description

Environment temperature adjusting method and environment temperature adjusting system

Technical Field

The invention belongs to the technical field of indoor temperature control, and particularly relates to an environment temperature adjusting method and an environment temperature adjusting system.

Background

Along with the improvement of the living standard of people, the indoor temperature regulation and control modes of people are more and more diversified. At present, more devices such as an air conditioner, an air cooler, a warmer and the like are used for controlling the indoor temperature.

In order to more effectively use the temperature control equipment to regulate and control the indoor temperature and ensure the comfort of indoor personnel, a method is needed for regulating the indoor temperature control equipment to a certain extent. At present, more physiological parameters of indoor personnel are identified through wearing equipment, and then the temperature control equipment is regulated and controlled according to the physiological parameters. The method is direct and effective, and can ensure the comfort level of indoor personnel to a certain extent, but the method is difficult to meet the temperature requirements of the indoor personnel in a multi-person environment. In order to adapt to the temperature demands of multiple indoor people, the prior art performs centralized processing calculation by participating in the regulation of the indoor environment through multiple people and integrating the temperature demands of the multiple indoor people, and gives a temperature value, so that the indoor people can only be ensured to be in a comfortable temperature basically.

The existing temperature regulation mode can comprehensively consider the temperature demands of multiple users, but only average the temperature demands of the users, and can not accurately meet the individual temperature demands in an indoor multi-user environment.

Disclosure of Invention

According to the environmental temperature adjusting method, the problem that individual temperature requirements cannot be met in an indoor multi-user environment in the prior art is solved, and the effect that the individual temperature requirements are met while the overall user temperature requirements are integrated in the indoor multi-user environment is achieved.

The embodiment of the application provides an environment temperature adjusting method, which comprises the following steps: and (3) data acquisition: basic parameters of temperature control equipment are obtained, and adjustment data of a user are obtained, wherein the adjustment data comprise position data, individual characteristic parameters and preset parameters; and (3) data processing and calculating: calculating according to the regulation data of the users to obtain the expected temperature of the individual, and calculating according to the regulation data of all the users to obtain the optimal temperature; and (3) adjusting the ambient temperature: adjusting the ambient temperature according to the optimal temperature; local temperature regulation: and carrying out local temperature regulation and control on the area where the user is located according to the individual expected temperature, the position data and the basic parameters of the temperature control equipment.

Preferably, the ambient temperature adjustment method further includes: setting a temperature regulation area; in the data processing calculation step, the adjustment data is adjustment data of a user in the temperature adjustment area.

Preferably, the location data is obtained by at least one of WiFi positioning technology, radio frequency positioning technology, ultra wideband positioning technology or bluetooth technology.

Preferably, the individual characteristic parameter comprises at least one of body temperature, heart rate, blood pressure or an active state.

Preferably, the preset parameters comprise comfort temperature of the user, and the preset parameters are adjusted according to historical individual characteristic parameters of the user.

Preferably, in the local temperature adjusting step, local temperature adjustment is performed on the position of the user from large to small according to the difference between the expected temperature and the optimal temperature of the individual.

Preferably, the temperature control device comprises at least one of an air conditioner, an air cooler or a warmer.

Preferably, the local temperature regulation is realized by at least one mode including wind direction control, wind speed control or air outlet temperature control.

The embodiment of the application also provides an environment temperature adjusting system, which comprises: the input module is used for inputting basic parameters of the temperature control equipment; the receiving module is used for receiving the adjusting data of the wearing equipment, wherein the adjusting data comprises position data, individual characteristic parameters and preset parameters; the data processing module is connected with the input module, receives the basic parameters, is connected with the receiving module, receives the adjustment data, and obtains a data calculation result according to the basic parameters and the adjustment data; the control module is connected with the data processing module, receives the data calculation result and generates a control signal; the sending module is connected with the control module and is used for sending a control signal to the temperature control equipment to adjust the ambient temperature; the environmental temperature regulation includes optimal temperature regulation and local temperature regulation.

Preferably, the input module is further used for inputting a temperature regulation area; and the data processing module processes and calculates the adjustment data of the equipment worn in the temperature adjustment area.

In summary, the embodiment of the application has at least the following beneficial effects:

1. according to the environmental temperature regulation method, the user is accurately positioned, and the indoor local area is finely regulated in a mode of changing wind direction, controlling wind speed, changing air outlet temperature and the like according to individual demands of the user, so that the problem that special individual temperature demands cannot be met under a multi-user environment in the prior art is solved, and the technical effect of meeting individual temperature demands on the premise of guaranteeing most of indoor user temperature demands is achieved;

2. according to the environmental temperature adjusting method, the problem of acquiring and calculating data of invalid users in the prior art is solved by accurately positioning the users and setting the temperature adjusting area, reliability of calculated data is guaranteed, and indoor comfort of the effective users is improved.

Drawings

FIG. 1 is a flow chart of a method for regulating ambient temperature according to an embodiment of the present application;

FIG. 2 is another flow chart of a method of regulating ambient temperature according to an embodiment of the present application;

fig. 3 is an arrangement of bluetooth beacons according to an embodiment of the present application;

FIG. 4 is a connection relationship of an environmental temperature regulation system according to an embodiment of the present application;

FIG. 5 is another connection relationship of an environmental temperature conditioning system according to an embodiment of the present application;

in the figure: the system comprises an environment temperature regulating system 100, an input module 11, a receiving module 12, a data processing module 13, a control module 14, a transmitting module 15, a wearing device 200, a temperature control device 300 and a Bluetooth beacon 400.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions in the specific embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail with reference to examples.

The embodiment of the application solves the problem that the temperature requirement of an individual cannot be met under the indoor multi-person environment in the prior art, fine-adjusts the indoor local environment temperature through accurately positioning the individual with special requirements, and achieves the technical effect of meeting the temperature requirement of the individual under the condition of comprehensively considering indoor users.

In the prior art, a method for acquiring physiological parameters of a user through a smart watch or a smart bracelet and adjusting temperature of indoor temperature control equipment is available. The temperature regulation mode can consider the physiological level of the indoor user, and properly regulate the temperature control equipment in due time through the physiological change of the user, so that the indoor temperature is always kept at the comfortable temperature of the user. However, the adjusting mode is difficult to be suitable for temperature adjustment in an indoor multi-person environment, and the temperature requirement of each user cannot be accurately ensured. According to the indoor temperature control method and the indoor temperature control device, the indoor users can be guaranteed to be in the environment with the relatively comfortable temperature, local environment temperature adjustment can be conducted, and the temperature requirements of each user are further met.

The embodiment of the application provides an environmental temperature adjusting method, as shown in fig. 1, comprising the following steps:

and (3) data acquisition: basic parameters of the temperature control equipment 300 are obtained, and adjustment data of a user are obtained, wherein the adjustment data comprise position data, individual characteristic parameters and preset parameters;

and (3) data processing and calculating: calculating according to the regulation data of the users to obtain the expected temperature of the individual, and calculating according to the regulation data of all the users to obtain the optimal temperature;

and (3) adjusting the ambient temperature: adjusting the ambient temperature according to the optimal temperature;

local temperature regulation: and carrying out local temperature regulation and control on the area where the user is located according to all the individual expected temperatures, the position data and the basic parameters of the temperature control equipment 300.

According to the method and the device for controlling the indoor temperature, the environmental temperature requirements of the users are judged by collecting the individual characteristic parameters and the preset parameters of the users, the optimal temperature is obtained according to the adjustment data of the users, the indoor temperature is adjusted through the optimal temperature, and the users are guaranteed to be in relatively comfortable environmental temperatures. And the embodiment of the application also calculates and obtains the expected temperature of the individual according to the individual characteristic parameters and the preset parameters of the individual user, screens out the user needing to carry out local temperature adjustment, and carries out local temperature adjustment on the position of the user according to the position data. The local temperature regulation needs to perform relatively accurate operation control on the temperature control device 300, so in this embodiment of the present application, basic parameters of the temperature control device 300 need to be obtained, including the azimuth, placement, type or model of the temperature control device 300, and the temperature environment of the local area needs to be regulated. According to the embodiment of the application, the environmental temperature requirements of a plurality of indoor users are comprehensively considered, and the temperature of the local part is adjusted according to the temperature requirements of the individual users, so that the indoor comfort level of the users is further improved. When the user is in a room, the user can timely obtain comfortable environment temperature according to the change of the individual characteristic parameters.

As a specific implementation, in order to more accurately identify effective users, and make data processing more efficient and reasonable. As shown in fig. 2, an area required to be temperature-controlled is preset, after the position data of the user is obtained, effective data can be screened out through comparison of the position data, and then effective processing is performed on the adjustment data of the user. When the user is outside the temperature regulation area, the regulation data of the user cannot be processed and calculated; and when the user is in the temperature regulation area, collecting and calculating the regulation data of the user. The method can remove invalid data, ensure that the regulation data of the users in the temperature regulation area are all calculated, accurately and truly reflect the temperature requirements of the users in the temperature regulation area, and enable the users to be in a relatively proper temperature environment.

As a specific implementation manner, in the embodiments of the present application, the user is located by using at least one of WiFi positioning technology, radio frequency positioning technology, ultra wideband positioning technology, or bluetooth technology.

According to the embodiment of the application, the position data of the user are needed for judging the effective user and for fine adjustment of the temperature of the local area, so that the user is required to be positioned accurately. The WiFi positioning technology is relatively mature and applies more technologies, and WiFi positioning generally adopts a "neighbor method" to determine, that is, which hotspot or base station is closest to, that is, what position is considered to be, if a plurality of information sources exist nearby, positioning accuracy can be improved through cross positioning (triangulation positioning). As WiFi has become popular, no special equipment needs to be re-deployed for positioning. The technology has the advantages of being convenient to expand, capable of automatically updating data and low in cost, so that the scale is realized in the first place. The basic principle of the radio frequency positioning technology is that a group of fixed readers are used for reading characteristic information (such as identity ID, received signal strength and the like) of a target RFID tag, and the position of the tag can be determined by adopting a neighbor method, a multilateral positioning method, received signal strength and the like. The technology has short action distance, but can obtain centimeter-level positioning precision information in a few milliseconds, and has large transmission range, small marking volume and low manufacturing cost. Ultra wideband positioning technology is a new communication wireless technology which is new in recent years and has great difference with the traditional communication technology. It does not need to use a carrier wave in a conventional communication system, but transmits data by transmitting and receiving extremely narrow pulses having nanoseconds or less, thereby having a bandwidth of the order of 3.1-10.6 GHz. The ultra-wideband positioning technology has the advantages of high transmission rate, lower transmitting power, higher penetrating power, capability of obtaining accurate positioning results in indoor positioning based on the ultra-narrow pulse wireless technology, high penetrating power, low power consumption, good anti-interference effect, high safety, low system complexity, capability of providing accurate positioning precision and the like. The positioning of the bluetooth technology is based on a signal field intensity indication positioning principle, as shown in fig. 3, a bluetooth beacon 400 needs to be paved in an area, when the user wears the equipment 200 to enter the signal coverage range of the bluetooth beacon 400, the wearing device receives bluetooth signals, the distance between the wearing equipment 200 and the bluetooth beacon 400 is calculated according to different signal field intensity indications, and the position of the wearing equipment 200 is obtained through a plurality of bluetooth beacons 400. The bluetooth positioning has the advantage of simple implementation, and the positioning accuracy has close relation with the paving density and the transmitting power of the bluetooth beacon 400. And the power is saved very, and the purpose of saving the power can be achieved through deep sleep, connection-free, simple protocol and other modes. The method for acquiring the position data in the embodiment of the present application has no excessive requirements, and can acquire the position data of the user more accurately, and is not limited to the positioning technology listed above.

As a specific embodiment, the individual characteristic parameter comprises at least one of body temperature, heart rate, blood pressure, or activity status. In order to further reflect the physiological state of the user, the embodiment of the application acquires the physiological parameters such as the body temperature, the heart rate, the blood pressure and the like of the individual user, is used for judging the temperature requirement of the user, and further analyzes the user requirement according to the activity state of the user. The measurement and acquisition of physiological parameters such as body temperature, heart rate, blood pressure and the like are disclosed in the prior art, and the activity state can be judged according to an accelerometer, a gyroscope and the like and comprehensively judged according to the physiological parameters. Physiological parameters such as body temperature, heart rate and blood pressure of the user can well show the physiological condition of the user, and the physiological state of the user is shown. Meanwhile, the temperature requirements of the users in different active states are different, and the temperature control equipment 300 can be timely adjusted according to the different active states, so that the adjustment temperature is guaranteed to be suitable for the users to the maximum extent. In the embodiment of the application, the individual characteristic parameters are periodically updated, and the temperature control equipment 300 is timely adjusted after the individual characteristic parameters are obtained, so that the temperature control equipment 300 is timely adjusted after the individual characteristic parameters of the individual user are changed, and the user is always in a comfortable environment temperature. The individual characteristic parameters of the users in the temperature adjustment area are synthesized to carry out processing calculation, and the obtained optimal temperature can furthest reflect the overall environmental temperature requirement of the users in the temperature adjustment area, so that the comfort level of the users is guaranteed.

As a specific embodiment, in order to better perform processing calculation on individual characteristic parameters, preset parameters need to be acquired for each user. The preset parameters in the embodiment of the application are used for comparing the individual characteristic parameters, the individual characteristic parameters of each user are different, and even the individual characteristic parameters of some users are greatly different, so that the preset parameters are required to be adjusted for different users. When the device is used for the first time, a user can finely adjust preset parameters according to default setting and custom of the user, and the comfortable temperature is set according to self temperature requirements. In the later use process, the user adjusts the comfort temperature according to the self requirement, and the preset parameters are further optimized according to the historical individual characteristic parameters of the user. And in the process of optimizing the preset parameters, the physiological condition and the activity condition of the user are further effectively associated. The preset parameters are relative to the individual characteristic parameters, so that the preset parameters also comprise physiological parameters such as body temperature, heart rate, blood pressure and the like and corresponding activity states, different preset physiological parameters exist under different activity conditions, and the temperature requirement of a user is judged more accurately. In the optimization process of the preset parameters, a user can intervene in the optimization of the preset parameters only by adjusting the comfort temperature, and the optimization result of the preset parameters is ensured to be close to the comfort state of the user.

In the process of local temperature regulation, the expected temperature of an individual is compared with the optimal temperature, the priority is set according to the difference value, and the local temperature regulation is preferably carried out on the area where the user with larger difference value is located. In the embodiment of the application, the temperature of the local area needs to be finely adjusted according to the needs of individual users, so that the temperature needs of the users are met as much as possible, and the users with the largest difference between the required temperature and the optimal temperature are subjected to local temperature control preferentially. According to the embodiment of the application, the temperature requirement of the user is judged according to the preset parameters and the individual characteristic parameters, and the purpose that the user is at the comfortable temperature in the temperature regulation area range is achieved, so that the local temperature control is needed to be carried out on the area where the user with larger temperature requirement deviation is located preferentially, and the user is guaranteed to be at the comfortable temperature overall. When the temperature requirements of individual users are met, the local temperature control objects are changed due to the fact that the individual characteristic parameters are acquired periodically, and finally all users are at comfortable temperature. The priority of the local temperature regulation is not fixed, and the local temperature regulation can be regulated according to the change of the temperature requirement of a user. Meanwhile, under the condition that the local temperature regulation is allowed by external conditions, the local temperature regulation can be carried out on all users at the same time, so that the environmental temperature requirements of all users are ensured.

As a specific implementation manner, the embodiment of the present application performs temperature regulation and control on the indoor environment by using at least one temperature control device 300 of an air conditioner, an air cooler or a warmer. Along with the development of technology, the indoor temperature control device 300 is more and more diversified, and in this embodiment of the present application, an air conditioner, an air cooler and a warmer are used for temperature control. The air conditioner is the most widely used indoor temperature control equipment 300, and the indoor and outdoor heat is exchanged through components such as a compressor, a condenser pipe and the like, so that the aim of controlling the temperature is fulfilled. The air conditioner can cool and heat, so that the temperature can be reduced and the temperature can be raised when the indoor temperature is regulated, and the air conditioner is greatly helpful to the application of the embodiment. And the remote control technology of the current air conditioner is very mature, is favorable for remote control, and can accurately control the temperature. The air cooler is a household appliance with long history and is even earlier than the traditional air conditioner. The air cooler takes water as a medium, mainly cools through evaporation of too much water, and integrates cooling, ventilation, dust prevention, deodorization and humidification. And compared with other temperature control equipment 300, the air conditioner has two great advantages, namely energy conservation and environmental protection, the main components are only an evaporation type curtain and a fan, the energy consumption is extremely low, and no pollutant is discharged. The warmer is a heating device, which is divided into various types according to different heating mediums and heating principles, and mainly heats the room by forming a heat source. In the embodiment of the present application, the requirement for the temperature control device 300 for adjusting the indoor temperature is low, but since the temperature control needs to be performed on a local area, the temperature control device 300 needs to be able to be remotely controlled and needs to have a certain directivity when controlling the temperature. The indoor temperature regulation and control by using the air conditioner is the most suitable mode at present, but the temperature control device 300 used in the embodiment of the present application is not limited to the air conditioner, the air cooler and the warmer, and other temperature control devices 300 capable of directional temperature control and accurate remote control can be used in the embodiment of the present application.

As a specific implementation manner, the embodiment of the application can locally regulate the temperature by at least one of changing the wind direction, controlling the wind speed or controlling the temperature of the air outlet. According to the embodiment of the application, local temperature adjustment is needed to be carried out indoors, and different modes can be adopted to carry out the local temperature adjustment according to different conditions. For example, when there is only one temperature control device 300 in the summer, the temperature control device 300 cannot be adjusted in the set temperature to ensure the temperature requirement of the whole user, but parameters such as wind direction and wind speed of the temperature control device 300 can be changed according to the requirements of different users, so as to blow cold air to the users who want to cool down as much as possible, and blow cold air to the users who want to warm up as little as possible. The same operation mode can be adopted in winter, so that hot air or heat radiation can be directed to users desiring to raise temperature as much as possible, and less users feeling heat as much as possible. If a plurality of temperature control devices 300 are arranged in the room, the local temperature adjustment is performed in a more effective way, so that not only is the temperature control guide of the temperature control devices 300 changed, but also the plurality of temperature control devices 300 can be provided with different adjustment temperatures, and the effect of the local temperature adjustment is more obvious and effective. Of course, the premise of local temperature regulation is also to accurately position the user and reasonably control the temperature control device 300, so as to achieve the technical effect of meeting the different temperature requirements of the user. For this purpose, the performance parameters and azimuth data of the temperature control device 300 need to be preset, for example, the azimuth parameters, the power parameters, the elevation angle of the upper and lower pendulum wind, the left and right wind sweeping angles, the upper and lower limits of the temperature, etc. of the air conditioner are set, so that the temperature control device 300 can perform temperature adjustment on the local area better and more accurately.

The embodiment of the application also provides an environment temperature adjusting system 100, which is used for adjusting indoor temperature and performing local temperature fine adjustment. As shown in fig. 4, the environmental temperature regulation system 100 includes an input module 11, a receiving module 12, a data processing module 13, a control module 14, and a transmitting module 15. The input module 11 is used for inputting basic parameters of the temperature control device 300, ensuring effective connection between the environmental temperature regulation system 100 and the temperature control device 300, and accurately controlling the temperature control device 300. The basic parameters of the temperature control device 300 include the azimuth, placement, type and model of the temperature control device 300, so as to ensure that the control signal sent by the sending module 15 can be transmitted to the temperature control device 300, and control the temperature control device 300 to perform accurate temperature adjustment. The receiving module 12 is configured to receive adjustment data of the wearing device 200, where the adjustment data includes position data, individual characteristic parameters, and preset parameters. The individual characteristic parameters and the preset parameters are mainly used for judging the temperature requirement of the user, and the indoor temperature can be reasonably regulated and controlled after the user data are integrated. The position data is used for determining the position of the user, screening the adjustment data of the user, and determining the position of the area needing to be subjected to the temperature regulation when the local temperature regulation is performed. The data processing module 13 is connected with the input module 11, receives the basic parameters of the temperature control device 300 transmitted by the input module 11, is connected with the receiving module 12, receives the adjustment data transmitted by the receiving module 12, performs centralized calculation on the adjustment data and the basic parameters of the temperature control device 300, and outputs a data calculation result. The data processing module 13 is responsible for data processing calculation, calculates a proper temperature control scheme to control the temperature control equipment 300, and ensures that the user is at a comfortable temperature. The control module 14 is connected with the data processing module 13, receives the data calculation result output by the data processing module 13, and generates a control signal. The control module 14 converts the data calculation result output by the data processing module 13 into a control signal for controlling the temperature control device 300 to perform effective and reasonable temperature adjustment on the room. The transmitting module 15 is connected with the control module 14, and transmits the control signal generated by the control module 14 to the temperature control device 300 to adjust the environmental temperature, so that the temperature control device 300 can perform effective operation. Furthermore, as shown in fig. 5, the wearing device 200 can send feedback through the sending module 15 of the environmental temperature regulation system 100 to perform continuous optimization adjustment on the preset parameters. The modules are connected by at least one of electrical connection or communication connection.

As a specific implementation manner, the input module 11 in the environmental temperature adjustment system 100 in the embodiment of the present application is further configured to input a temperature adjustment area, where the temperature adjustment area can better screen out an effective user. The data processing module 13 processes the adjustment data of the wearing device 200 in the calculated temperature adjustment area based on the position data, ignoring the adjustment data of the wearing device 200 outside the temperature adjustment area. The regulation data processed by the data processing module 13 are ensured to be effective data, and the interference of the regulation data of the outdoor user is eliminated.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. An environmental temperature regulation method, characterized by comprising the following steps:

and (3) data acquisition: basic parameters of temperature control equipment are obtained, and adjustment data of a user are obtained, wherein the adjustment data comprise position data, individual characteristic parameters and preset parameters;

and (3) data processing and calculating: calculating according to the adjustment data of the users to obtain the expected temperature of the individuals, and calculating according to the adjustment data of all the users to obtain the optimal temperature;

and (3) adjusting the ambient temperature: adjusting the ambient temperature according to the optimal temperature;

local temperature regulation: and carrying out local temperature regulation and control on the area where the user is located according to the individual expected temperature, the position data and the basic parameters of the temperature control equipment.

2. The ambient temperature regulation method of claim 1, further comprising:

region definition: setting a temperature regulation area;

in the data processing calculation step, the adjustment data is the adjustment data of the user in the temperature adjustment area.

3. The ambient temperature regulation method of claim 1, wherein:

the position data is obtained by at least one of a WiFi positioning technology, a radio frequency positioning technology, an ultra-wideband positioning technology or a Bluetooth technology.

4. The ambient temperature regulation method of claim 1, wherein:

the individual characteristic parameter includes at least one of body temperature, heart rate, blood pressure, or an activity state.

5. The ambient temperature regulation method of claim 1, wherein:

the preset parameters comprise comfort temperature of the user, and the preset parameters are adjusted according to the history of the user and the individual characteristic parameters.

6. The ambient temperature regulation method of claim 1, wherein:

in the local temperature adjustment step, the local temperature adjustment is preferentially performed on the position of the user where the difference between the expected temperature of the individual and the optimal temperature is large.

7. The ambient temperature regulation method of claim 1, wherein:

the temperature control equipment comprises at least one of an air conditioner, an air cooler or a warmer.

8. The ambient temperature regulation method of claim 1, wherein:

the local temperature regulation and control is realized by at least one mode including wind direction control, wind speed control or air outlet temperature control.

9. An ambient temperature regulation system, comprising:

the input module is used for inputting basic parameters of the temperature control equipment;

the receiving module is used for receiving the adjustment data of the wearing equipment, wherein the adjustment data comprises position data, individual characteristic parameters and preset parameters;

the data processing module is connected with the input module, receives the basic parameters, is connected with the receiving module, receives the adjustment data, and obtains a data calculation result according to the basic parameters and the adjustment data;

the control module is connected with the data processing module, receives the data calculation result and generates a control signal;

the sending module is connected with the control module and is used for sending the control signal to the temperature control equipment to adjust the ambient temperature;

the environmental temperature regulation comprises optimal temperature regulation and local temperature regulation.

10. An ambient temperature conditioning system according to claim 9, wherein:

the input module is also used for inputting a temperature regulation area;

and the data processing module processes and calculates the adjustment data of the wearing equipment in the temperature adjustment area.

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