A wearable heating user thermal comfort monitoring device

Wearable heating user thermal comfort monitoring devices integrate air temperature, skin temperature, and sleep quality measurement modules, solving the problem that heating systems cannot obtain user experience data in real time, and enabling personalized adjustments to heating quality and improved user thermal comfort.

CN117398070BActive Publication Date: 2026-06-30HAILAR THERMAL POWER PLANT OF HULUNBUIR ANTAI THERMAL POWER CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
HAILAR THERMAL POWER PLANT OF HULUNBUIR ANTAI THERMAL POWER CO LTD
Filing Date
2023-11-09
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing heating system cannot obtain users' heating experience in real time, which makes it impossible to effectively improve the quality of heating.

Method used

Design a wearable heating user thermal comfort monitoring device that integrates air temperature, skin temperature and sleep quality measurement modules. The device analyzes the user's input thermal sensation evaluation parameters and measurement data through a processor, and sends attention or prompt instructions to the heating management system to adjust the heating strategy.

Benefits of technology

It improves the ability to adjust heating quality in real time, ensuring users' thermal comfort, and enables personalized heating management by acquiring various parameters related to heating quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention provides a wearable heating user thermal comfort monitoring device, relating to the field of heating monitoring, comprising: a dial, an air temperature measurement module disposed on the outer side of the dial, and a skin temperature measurement module and a sleep quality measurement module disposed on the inner side of the dial; a processor disposed inside the dial, the processor being communicatively connected to the air temperature measurement module, the skin temperature measurement module, and the sleep quality measurement module, the processor being used to perform the following steps: acquiring the thermal sensation evaluation parameter RG input by the user; if RG is not within the preset thermal sensation evaluation parameter range, acquiring the current air temperature T_now measured by the air temperature measurement module and the user's sleep quality ZL measured by the sleep quality module; if T_now is not within the preset temperature range or ZL is less than a preset sleep efficiency threshold, sending a concern command to the heating management system; this invention can improve heating quality.
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Description

Technical Field

[0001] This invention relates to the field of heating monitoring, and in particular to a wearable device for monitoring the thermal comfort of heating users. Background Technology

[0002] As living standards continue to improve, people have increasingly higher requirements for heating quality. However, heating systems typically provide heating according to preset plans and temperatures, and cannot obtain real-time information about users' current heating experience. Furthermore, simply installing temperature measuring devices in users' rooms to measure indoor temperature does not provide data on users' sleep quality or their evaluation of the current heating. Therefore, obtaining several parameters related to heating quality to improve heating quality has become an urgent problem to be solved. Summary of the Invention

[0003] To address the aforementioned technical problems, this invention provides a wearable heating user thermal comfort monitoring device that acquires several parameters related to heating quality in order to improve heating quality.

[0004] According to a first aspect of this application, a wearable heating user thermal comfort monitoring device is provided, comprising: a dial, an air temperature measuring module disposed on the outer side of the dial, a skin temperature measuring module and a sleep quality measuring module disposed on the inner side of the dial; wherein, the air temperature measuring module is used to measure air temperature, the skin temperature measuring module is used to measure skin temperature, and the sleep quality measuring module is used to measure the user's sleep efficiency;

[0005] The dial houses a processor, which is communicatively connected to the air temperature measurement module, the skin temperature measurement module, and the sleep quality measurement module. The processor is used to execute the following steps:

[0006] S100, acquire the thermal sensation evaluation parameter RG input by the user;

[0007] S200, if RG is not within the preset thermal evaluation parameter range, then obtain the current air temperature T_now measured by the air temperature measurement module and the user's sleep quality ZL measured by the sleep quality module;

[0008] S300, if T_now is not within the preset temperature range or ZL is less than the preset sleep efficiency threshold, a preset attention instruction is sent to the heating management system; wherein, the attention instruction is used to enable the heating management system to add a preset attention tag to the user.

[0009] Optionally, after step S300, the processor is further configured to perform the following steps:

[0010] S400, if T_now is within a preset temperature range and ZL is greater than a preset sleep efficiency threshold, then obtain several body temperatures of the user measured by the skin temperature measurement module within the current sliding time window to obtain a user body temperature list A = (A1, A2, ..., A...). i A n ), i=1, 2,...,n; among them, A i The skin temperature measurement module measures the i-th user's body temperature within the current sliding time window, and n is the number of user body temperatures measured by the skin temperature measurement module within the current sliding time window.

[0011] S410, Based on A, obtain the user's average body temperature TP = 1 / n × ∑ n i=1 A i ;

[0012] S420, if TP > WQ, then obtain the body temperature curve QX corresponding to A; where WQ is the preset body temperature threshold.

[0013] S430, obtain the similarity η between QX and TU; where TU is a known standard body temperature curve;

[0014] S440, if η < QT, then do not send a concern command to the heating management system; otherwise, send a preset prompt command to the heating management system.

[0015] Optionally, a user input module is also provided on the outer side of the dial, which is used for users to input thermal sensation evaluation parameters.

[0016] Optionally, the dial may also be equipped with a Bluetooth transmission module, which is used to send data to the heating management system.

[0017] Optionally, the dial may also include a data storage and display module for storing and displaying measured data.

[0018] Optionally, the preset temperature range is 18-24℃.

[0019] Optionally, the preset sleep efficiency threshold is 85%.

[0020] Optionally, it also includes: a watch strap, wherein the watch face is positioned at a preset position on the watch strap.

[0021] The present invention has at least the following beneficial effects:

[0022] The wearable heating user thermal comfort monitoring device of the present invention has an air temperature measurement module on the outer side of the dial, and a skin temperature measurement module and a sleep quality measurement module on the inner side of the dial; it acquires the thermal sensation evaluation parameter RG input by the user; if RG is not within the preset thermal sensation evaluation parameter range, it indicates that the user's current thermal sensation is poor; if T_now is not within the preset temperature range or ZL is less than the preset sleep efficiency threshold, it indicates that the current heating quality is poor, and a attention command is sent to the heating management system, which will then make corresponding heating adjustments for the user, thereby improving the heating quality. Attached Figure Description

[0023] To more clearly illustrate the technical solutions in the embodiments of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0024] Figure 1 This is an external view of the dial of a wearable heating user thermal comfort monitoring device provided in an embodiment of the present invention;

[0025] Figure 2 This is an inner view of the dial of a wearable heating user thermal comfort monitoring device provided in an embodiment of the present invention;

[0026] Figure 3 A flowchart illustrating the steps executed by the processor according to an embodiment of the present invention. Detailed Implementation

[0027] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0028] It should be noted that various aspects of embodiments within the scope of the appended claims are described below. It will be apparent that the aspects described herein can be embodied in a wide variety of forms, and any particular structure and / or function described herein is merely illustrative. Based on this disclosure, those skilled in the art will understand that one aspect described herein can be implemented independently of any other aspect, and two or more of these aspects can be combined in various ways. For example, any number of aspects set forth herein can be used to implement the device and / or practice the method. Additionally, this device and / or method can be implemented using structures and / or functionalities other than one or more of the aspects set forth herein.

[0029] The following section will introduce a wearable device for monitoring the thermal comfort of heating users.

[0030] See Figure 1 and Figure 2 The wearable heating user thermal comfort monitoring device includes: a dial, an air temperature measurement module on the outer side of the dial, a skin temperature measurement module and a sleep quality measurement module on the inner side of the dial; wherein, the air temperature measurement module is used to measure air temperature, the skin temperature measurement module is used to measure skin temperature, and the sleep quality measurement module is used to measure the user's sleep efficiency.

[0031] The dial houses a processor, which is communicatively connected to the air temperature measurement module, skin temperature measurement module, and sleep quality measurement module. (See also...) Figure 3 The processor is used to perform the following steps:

[0032] S100, obtain the thermal sensation evaluation parameter RG input by the user.

[0033] In this embodiment, a user input module 2 is also provided on the outside of the dial. The user can select the current thermal sensation evaluation by touch screen. The selectable scales are very cold (-3), cold (-2), a little cold (-1), neither cold nor hot (0), a little hot (+1), hot (+2), and very hot (+3). When the user selects the corresponding thermal sensation, it can be converted into thermal sensation evaluation parameter RG.

[0034] S200, if RG is not within the preset thermal evaluation parameter range, then obtain the current air temperature T_now measured by the air temperature measurement module and the user's sleep quality ZL measured by the sleep quality module.

[0035] In this embodiment, if RG is not within the preset thermal evaluation parameter range, it indicates that the user's current thermal sensation is poor, for example, the user feels too hot or too cold; at this time, the current air temperature T_now measured by the air temperature measurement module and the user's sleep quality ZL measured by the sleep quality module are obtained.

[0036] In this embodiment, a sleep quality measurement module is also provided on the dial. This sleep quality measurement module is an integrated module of body movement sensor and heart rate sensor, located inside the dial. Through the built-in algorithm, it evaluates sleep quality (sleep efficiency, sleep latency, deep sleep duration, etc.) based on body movement and heart rate data, and can output the sleep quality ZL.

[0037] S300, if T_now is not within the preset temperature range or ZL is less than the preset sleep efficiency threshold, a preset attention instruction is sent to the heating management system; wherein, the attention instruction is used to enable the heating management system to add a preset attention tag to the user.

[0038] In this embodiment, if T_now is not within the preset temperature range or ZL is less than the preset sleep efficiency threshold, it indicates that the current heating quality is indeed poor, and it is necessary to continuously monitor the heating terminal corresponding to the user or take corresponding adjustment strategies to improve the heating quality.

[0039] Furthermore, after step S300, the processor is also configured to perform the following steps:

[0040] S400, if T_now is within a preset temperature range and ZL is greater than a preset sleep efficiency threshold, then obtain several body temperatures of the user measured by the skin temperature measurement module within the current sliding time window to obtain a user body temperature list A = (A1, A2, ..., A...). i A n ), i=1, 2,...,n; among them, A i The skin temperature measurement module measures the i-th user's body temperature within the current sliding time window, and n is the number of user body temperatures measured by the skin temperature measurement module within the current sliding time window.

[0041] In this embodiment, the length of the sliding time window can be 24 hours. By obtaining several body temperatures of the user within the current sliding time window, A can be obtained.

[0042] S410, Based on A, obtain the user's average body temperature TP = 1 / n × ∑ n i=1 A i .

[0043] S420, if TP > WQ, then obtain the body temperature curve QX corresponding to A; where WQ is the preset body temperature threshold.

[0044] If a user's average temperature is greater than a preset body temperature threshold, it means that the user's body temperature is abnormal within the current sliding time window. Therefore, the user's thermal perception of the air temperature is also inaccurate. At this time, the body temperature curve QX is determined according to A. It should be noted that those skilled in the art can use existing curve generation methods to determine the body temperature curve QX according to actual needs, which will not be elaborated here.

[0045] S430, obtain the similarity η between QX and TU; where TU is a known standard body temperature curve.

[0046] In this embodiment, a human body with normal body temperature corresponds to a standard body temperature curve, and a known standard body temperature curve can be obtained. It should be noted that those skilled in the art can use existing similarity determination methods to obtain the similarity η between QX and TU according to actual needs, which will not be elaborated here.

[0047] S440, if η < QT, then do not send a concern command to the heating management system; otherwise, send a preset prompt command to the heating management system.

[0048] In this embodiment, if η is less than QT, it indicates that the user's body temperature curve is not a standard body temperature curve, and the user's thermal perception is inaccurate. Therefore, no attention command is sent to the heating management system at this time. However, if η ≥ QT, it indicates that the body temperature is normal at this time, and the thermal perception evaluation parameters input by the user may be inaccurate. Therefore, a prompt command is sent to the heating management system at this time. This prompt command is used to generate a preset prompt text to remind the management personnel that the thermal perception evaluation parameters input by the user may be incorrect, so that the management personnel can take corresponding actions based on the prompt.

[0049] Furthermore, a user input module is provided on the outer side of the dial, which is used for users to input thermal sensation evaluation parameters.

[0050] Furthermore, the dial is also equipped with a Bluetooth transmission module, which is used to send data to the heating management system.

[0051] As another implementation, the dial can also be equipped with other wireless network transmission modules for sending data to the heating management system.

[0052] Furthermore, the dial is also equipped with a data storage and display module, which is used to store and display various measured data.

[0053] Furthermore, the preset temperature range is 18-24℃.

[0054] Furthermore, the preset sleep efficiency threshold is 85%.

[0055] Furthermore, the comfort testing device also includes a watch strap, with the watch face positioned at a preset location on the watch strap.

[0056] A wearable heating user thermal comfort monitoring device has an air temperature measurement module on the outside of the dial, and a skin temperature measurement module and a sleep quality measurement module on the inside of the dial. It acquires the user's input thermal sensation evaluation parameter RG. If RG is not within the preset thermal sensation evaluation parameter range, it indicates that the user's current thermal sensation is poor. If T_now is not within the preset temperature range or ZL is less than the preset sleep efficiency threshold, it indicates that the current heating quality is poor. In this case, a attention command is sent to the heating management system, which then makes corresponding heating adjustments for the user to improve heating quality.

[0057] Furthermore, by determining whether the user's body temperature is normal based on historical body temperature data, the accuracy of the user's input subjective evaluation parameters can be verified, thereby further improving the heating quality.

[0058] Furthermore, although the steps of the method in this disclosure are described in a specific order in the accompanying drawings, this does not require or imply that the steps must be performed in that specific order, or that all the steps shown must be performed to achieve the desired result. Additional or alternative steps may be omitted, multiple steps may be combined into one step, and / or a step may be broken down into multiple steps.

[0059] Embodiments of the present invention also provide a computer program product including program code, which, when the program product is run on an electronic device, causes the electronic device to perform the steps of the methods described above in various exemplary embodiments of the present invention.

[0060] While specific embodiments of the invention have been described in detail by way of example, those skilled in the art should understand that the above examples are for illustrative purposes only and are not intended to limit the scope of the invention. Those skilled in the art should also understand that various modifications can be made to the embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims

1. A wearable heating user thermal comfort monitoring device, characterized in that, include: The dial has an air temperature measurement module on its outer side and a skin temperature measurement module and a sleep quality measurement module on its inner side. The air temperature measurement module measures air temperature, the skin temperature measurement module measures skin temperature, and the sleep quality measurement module measures the user's sleep efficiency. The dial houses a processor, which is communicatively connected to the air temperature measurement module, the skin temperature measurement module, and the sleep quality measurement module. The processor is used to execute the following steps: S100, acquire the thermal sensation evaluation parameter RG input by the user; S200, if RG is not within the preset thermal evaluation parameter range, then obtain the current air temperature T_now measured by the air temperature measurement module and the user's sleep quality ZL measured by the sleep quality module; S300, if T_now is not within the preset temperature range or ZL is less than the preset sleep efficiency threshold, a preset attention instruction is sent to the heating management system; wherein, the attention instruction is used to enable the heating management system to add a preset attention tag to the user; After step S300, the processor is further configured to perform the following steps: S400, if T_now is within a preset temperature range and ZL is greater than a preset sleep efficiency threshold, then obtain several body temperatures of the user measured by the skin temperature measurement module within the current sliding time window to obtain a user body temperature list A = (A1, A2, ..., A...). i A n ), i=1, 2,...,n; among them, A i The skin temperature measurement module measures the i-th user's body temperature within the current sliding time window, and n is the number of user body temperatures measured by the skin temperature measurement module within the current sliding time window. S410, Based on A, obtain the user's average body temperature TP = 1 / n × ∑ n i=1 A i ; S420, if TP > WQ, then obtain the body temperature curve QX corresponding to A; where WQ is the preset body temperature threshold. S430, obtain the similarity η between QX and TU; where TU is a known standard body temperature curve; S440, if η < QT, then do not send a concern command to the heating management system; otherwise, send a preset prompt command to the heating management system.

2. The wearable heating user thermal comfort monitoring device according to claim 1, characterized in that, A user input module is also provided on the outside of the dial, which is used for users to input thermal sensation evaluation parameters.

3. The wearable heating user thermal comfort monitoring device according to claim 1, characterized in that, The dial is also equipped with a Bluetooth transmission module, which is used to send data to the heating management system.

4. The wearable heating user thermal comfort monitoring device according to claim 1, characterized in that, The dial also has a data storage and display module inside, which is used to store and display various measured data.

5. The wearable heating user thermal comfort monitoring device according to claim 1, characterized in that, The preset temperature range is 18-24℃.

6. The wearable heating user thermal comfort monitoring device according to claim 1, characterized in that, The preset sleep efficiency threshold is 85%.

7. The wearable heating user thermal comfort monitoring device according to claim 1, characterized in that, Also includes: The watch strap has the watch face positioned at a preset location on it.