CN212036327U - Wrist strap equipment with body temperature monitoring function - Google Patents

Abstract

The utility model discloses a wrist strap device with body temperature monitoring function, which comprises a meter head and a wrist strap, wherein a body temperature monitoring module is arranged on the wrist strap, and the body temperature monitoring module comprises a heat conduction column, a temperature sensor, a microcontroller and a communication module; the heat conduction column faces to the inner side face of the wrist strap, and is attached to the skin of a human body when the wrist strap is worn on the human body to conduct heat; the temperature sensor is connected with the heat conduction column, senses the temperature of a human body according to the heat conducted by the heat conduction column and generates a corresponding body temperature detection signal; the microcontroller receives the body temperature detection signal output by the temperature sensor and generates body temperature data; and the communication module receives the body temperature data output by the microcontroller and sends the body temperature data to the intelligent terminal. The utility model discloses an add body temperature detection module on the wrist strap of the daily wrist strap equipment of wearing of user, not only solved the portability problem, realized the function of body temperature continuous monitoring, when using moreover, body temperature detection module's existence is felt very weakly, and user experience feels splendid.

Description

Wrist strap equipment with body temperature monitoring function

Technical Field

The utility model belongs to the technical field of wearable equipment, specifically speaking relates to an integrated wrist strap equipment that has body temperature monitoring function.

Background

Currently, body temperature measurement adopts two modes of contact measurement (such as a traditional mercury thermometer) and non-contact measurement (such as a forehead thermometer and the like). The two traditional body temperature measuring modes have the problems of inconvenient carrying, incapability of realizing continuous body temperature monitoring and the like. In addition, the mercury thermometer is easy to break, and has certain potential safety hazard to human body after being broken.

Therefore, a special flexible body temperature patch is provided, for example, the invention patent application with publication number CN109839199A, namely a passive wireless flexible hollow body temperature monitoring patch, can be directly attached to the skin of a human body when in use, thereby realizing the continuous monitoring function of the body temperature, and has safe use and convenient carrying.

However, the body temperature patch is very strong in wearing and use, and the user experience is poor.

Disclosure of Invention

An object of the utility model is to provide a wrist strap equipment with body temperature monitor function through add body temperature detection module on the wrist strap of the wrist strap equipment of wearing daily at the user, has not only solved the portability problem, has realized the function of body temperature continuous monitoring, and when using, body temperature detection module's existence sense is very weak moreover, and user experience sense is splendid.

In order to solve the technical problem, the utility model discloses a following technical scheme realizes:

a wrist strap device with a body temperature monitoring function comprises a meter head and a wrist strap, wherein a body temperature monitoring module is arranged on the wrist strap and comprises a heat conduction column, a temperature sensor, a microcontroller and a communication module; the heat conduction column faces to the inner side face of the wrist strap, and is attached to the skin of a human body when the wrist strap is worn on the human body to conduct heat; the temperature sensor is connected with the heat conduction column, senses the temperature of a human body according to heat conducted by the heat conduction column and generates a corresponding body temperature detection signal; the microcontroller receives a body temperature detection signal output by the temperature sensor and generates body temperature data; and the communication module receives the body temperature data output by the microcontroller and sends the body temperature data to the intelligent terminal.

In some embodiments of the present application, if the wristband device is a smart watch, a head of the smart watch may be used as the smart terminal; body temperature data that communication module sent show to the gauge outfit of intelligent wrist-watch, the user can utilize the intelligent wrist-watch of daily wearing to realize the continuous monitoring of self body temperature.

In some embodiments of the application, if the wristband device is a mechanical watch, a quartz watch or an electronic watch, a smart phone can be used as the intelligent terminal for receiving the body temperature data sent by the communication module and displaying the body temperature data, and a user can monitor the continuous change of the body temperature by looking up the smart phone.

In some embodiments of the present application, the communication module preferably employs a short-range wireless communication module, such as a bluetooth module or an NFC module.

In some embodiments of the application, the body temperature monitoring module further comprises a box body, wherein the box body is detachably installed on the wrist strap, the temperature sensor, the microcontroller and the communication module are packaged in the box body, a through hole is formed in the bottom surface of the box body, and the heat conducting column is exposed out of the box body through the through hole. Through will body temperature monitoring module designs into independent individual, when the wrist strap damages or for changing the fashion wrist strap, can only change the wrist strap, does not change body temperature monitoring module, can avoid the wasting of resources from this, alleviates user's economic burden.

In some embodiments of this application, offer on the wrist strap and be used for the installation the pilot hole of box body, the box body installs the back that targets in place in the pilot hole, the bottom surface of box body with the medial surface parallel and level of wrist strap, the heat conduction post is preferred protrusion in the bottom surface of box body to improve the compactness of heat conduction post and human skin contact, and then improve the degree of accuracy that the body temperature detected.

In some embodiments of the present application, in order to further improve the accuracy of body temperature detection, the present invention preferably introduces ambient temperature to compensate for the detected body temperature of the user. In order to realize accurate collection of the environmental temperature, the utility model is provided with a window on the top surface of the box body, and the window is positioned on the same side with the outer side surface of the wrist strap when the box body is arranged in the assembly hole; the box body is internally provided with an environment temperature sampling circuit which senses the external environment temperature through the window and generates a corresponding environment temperature detection signal; and the microcontroller receives the loop temperature detection signal and is used for compensating the generated body temperature data.

In some embodiments of the application, a battery and a voltage stabilizing module are further packaged in the box body, and the voltage stabilizing module supplies power to an electric load in the body temperature monitoring module after voltage stabilizing processing is performed on a power supply output by the battery, so that the body temperature monitoring module is completely independent and convenient to use.

In some embodiments of the present application, a thermistor and a voltage dividing resistor are disposed in the loop temperature sampling circuit, the thermistor and the voltage dividing resistor are connected in series and then connected between the voltage stabilizing module and a system ground, and an intermediate node of the thermistor and the voltage dividing resistor is connected to the microcontroller. The microcontroller can convert the resistance value change of the thermistor according to the voltage change of the middle node, and then calculate the ambient temperature according to the resistance value of the thermistor, so that the real-time sampling of the ambient temperature of the watch is realized.

In some embodiments of the present application, the window is preferably formed by embedding a transparent heat conducting plate on the box body, and the thermistor and the window are preferably right opposite and adjacent to each other in the arrangement position, so as to ensure the sensitivity of the thermistor to the ambient temperature sensing.

Compared with the prior art, the utility model discloses an advantage is with positive effect:

the utility model discloses an in embedding the wrist strap of wrist strap equipment with body temperature monitoring module for the user can realize continuous monitoring to the body temperature change of its self simultaneously in the daily period of wearing wrist strap equipment, and the module exists to feel extremely weak, and user experience feels splendid, and applicable in the body temperature monitoring during old person and children fever, in time discover unusually, cure as early as possible.

Furthermore, the utility model discloses an in the wrist strap with body temperature monitoring module embedding wrist strap equipment, through the wrist strap that changes and have body temperature measurement function, can be with traditional wrist strap equipment intellectuality. And, through designing into independent individual with body temperature monitoring module, when the wrist strap damages or for changing more fashionable wrist strap, can only change the wrist strap, do not change body temperature monitoring module, can alleviate user's economic burden from this, avoid the wasting of resources.

Other features and advantages of the present invention will become more apparent from the following detailed description of embodiments of the invention, which is to be read in connection with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of a wrist band device with a body temperature monitoring function according to the present invention;

FIG. 2 is a schematic view of the wristband apparatus of FIG. 1 in a state where the wristband is separated from the body temperature monitoring module;

FIG. 3 is a schematic bottom view of an embodiment of a body temperature monitoring module;

FIG. 4 is a schematic side view of an embodiment of a body temperature monitoring module;

figure 5 is a schematic block circuit diagram of one embodiment of a body temperature monitoring module.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

It should be noted that in the description of the present invention, the terms "inside", "outside", "top", "bottom", etc. indicating directions or positional relationships are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, the wrist band device of this embodiment is designed with a body temperature monitoring module 1 specially for making the conventional wrist band device have a continuous body temperature monitoring function without changing the inherent structure of the watch head 2, thereby realizing the intellectualization of the conventional wrist band device, and being assembled on the wrist band 3 of the wrist band device, so that the user can complete the real-time detection of the body temperature of the user during daily wearing of the wrist band device, and the problems of portability, safety and sense of existence are solved.

The present embodiment specifically describes a wristwatch as an example of the wristband device. The watch may be a smart watch (or a smart bracelet), or may also be a non-smart watch (such as a mechanical watch, a quartz watch, and an electronic watch), and other electronic or non-electronic products worn on the wrist of a human body.

The body temperature monitoring module 1 of the present embodiment mainly includes a heat conducting pillar 11, a temperature sensor, a microcontroller MCU, a communication module, and the like, as shown in fig. 5. Wherein, heat conduction post 11 is used for contacting with human skin, and human heat of conduction to temperature sensor utilizes temperature sensor perception human temperature, and generate corresponding body temperature detected signal and send microcontroller MCU. The micro-controller MCU can generate body temperature data according to the received body temperature detection signal, the body temperature data are sent to an intelligent terminal such as a watch head 2 (the watch head 2 is the watch head of the intelligent watch) or a mobile phone (the watch head 2 is the watch head of a non-intelligent watch such as a mechanical watch, a quartz watch and an electronic watch) through a communication module, the body temperature data of a watch wearer at different moments are displayed and stored through the intelligent terminal, and the continuous monitoring function of the body temperature of the watch wearer is realized.

In order to make the body temperature monitoring module 1 completely independent, it can be conveniently installed on different wrist bands 3 of watches, and then make traditional wrist-watch only need to change the wrist band that has the body temperature detection function, can provide the additional function of body temperature continuous monitoring for the wrist-watch user, and this embodiment disposes solitary box body 10 for the body temperature monitoring module 1, as shown in fig. 2, makes the body temperature monitoring module 1 become an independent individual. A mounting hole 31 matched with the wrist strap 3 of the watch is formed according to the size of the box body 10, and the box body 10 is mounted in the mounting hole 31, so that the body temperature monitoring module 1 and the wrist strap 3 of the watch are integrated, and the existence sense of the body temperature monitoring module 1 is reduced. When the wrist strap 3 needs to be replaced, the body temperature monitoring module 1 is taken down from the original wrist strap 3 and then is installed in the assembling hole 31 of the replaced wrist strap 3.

As a preferred embodiment, the case 10 may be made of a slightly elastic material, and the case 10 and the mounting hole 31 may be assembled together in an interference fit manner, so as to facilitate the mounting and dismounting operations of the body temperature monitoring module 1 on the wrist band 3.

In this embodiment, the temperature sensor, the microcontroller MCU and the communication module may be packaged in the box body 10, and a through hole is formed in the bottom surface 13 of the box body 10, as shown in fig. 3, so that the heat-conducting post 11 may be exposed out of the box body 10 through the through hole.

After the body temperature monitoring module 1 is mounted on the wrist band 3, the bottom surface 13 of the case 10 is located on the same side as the inner side surface of the wrist band 3. As a preferred embodiment, after the box body 10 is arranged on the wrist strap 3 in place, the bottom surface 13 of the box body 10 is just flush with the inner side surface of the wrist strap 3, so that the existence sense of the body temperature monitoring module 1 during the wearing period of the watch can be further reduced, and the user experience is improved.

In order to ensure that the heat conduction post 11 can always keep sufficient and close contact with the skin of the human body during the wearing of the watch, the present embodiment preferably designs the heat conduction post 11 to be convex, that is, designs the heat conduction post 11 to protrude from the bottom surface 13 of the case 10, as shown in fig. 4.

In this embodiment, the heat conducting pillar 11 is preferably made of a metal material with a high heat transfer rate, such as a copper pillar, so as to improve the heat transfer efficiency.

When the heat conduction column 11 is connected to the temperature sensor, the heat conduction column 11 can be welded with a temperature sensing probe of the temperature sensor, the temperature sensor senses the temperature of a human body by utilizing the heat conducted by the heat conduction column 11, generates a corresponding body temperature detection signal and sends the corresponding body temperature detection signal to the microcontroller MCU so as to analyze and generate body temperature data.

Of course, the temperature sensor can also directly select a temperature sensing chip, and body temperature data is directly generated by utilizing heat conducted by the heat conducting column 11 and is sent to the microcontroller MCU, so that the software design of the microcontroller MCU is simplified.

As a preferred embodiment, the detected body temperature data can be temperature compensated by using the external environment temperature of the watch, so as to further improve the accuracy of body temperature detection. For the purpose of realizing the design, in this embodiment, an ambient temperature sampling circuit is disposed in the box body 10 of the body temperature monitoring module 1, as shown in fig. 5, and a window 12 is disposed on the top surface 14 of the box body 10, as shown in fig. 2, so that the ambient temperature sampling circuit can collect the ambient temperature through the window 12, generate a corresponding ambient temperature detection signal, and send the signal to the microcontroller MCU.

A temperature compensation model can be established in the microcontroller MCU, and the detected body temperature is compensated by utilizing the ring temperature and temperature compensation model so as to generate more accurate body temperature data. The temperature compensation model can be realized by adopting the technical scheme disclosed in the chinese invention patent application with the publication number CN107576421A, and this embodiment will not be described in detail.

In this embodiment, the window 12 may be formed by opening the top surface 13 of the case 10 and enclosing a transparent heat conducting plate at the opening. The top surface 13 of the box body 10 is located on the same side as the outer side surface of the wrist strap 3 after the body temperature monitoring module 1 is mounted on the wrist strap 3 of the watch. In this way, after the watch is worn, the fenestration 12 can be completely exposed to the outside, which in turn facilitates accurate acquisition of the ambient temperature.

As a preferred circuit design of the loop temperature sampling circuit, as shown in fig. 5, a thermistor Rc and a voltage dividing resistor R1 may be provided in the loop temperature sampling circuit. The thermistor Rc and the divider resistor R1 are connected in series and then connected between a power supply VCC3 and a system ground GND, and an intermediate node A between the thermistor Rc and the divider resistor R1 is connected to the microcontroller MCU.

The thermistor Rc preferably adopts a negative temperature system thermistor NTC, and is packaged in the box body 10 and is opposite to and closely adjacent to the arrangement position of the window 12, so as to ensure the sensitivity of the thermistor Rc to the ambient temperature sensing. Since the resistance value of the thermistor Rc may vary with changes in the ambient temperature, the divided voltage value of the intermediate node a may be different when the resistance values of the thermistor Rc are different. The voltage at the middle node A is used as a loop temperature detection signal to be provided for the microcontroller MCU, the microcontroller MCU can calculate the resistance value of the thermistor Rc according to the voltage at the middle node A, the voltage of the power supply VCC3 and the resistance value of the divider resistor R1, and then the environment temperature is calculated according to a temperature calculation formula of the thermistor Rc so as to be used for carrying out temperature compensation on detected body temperature data.

The power VCC3 can be generated by a battery (e.g., button battery, etc.) and a voltage regulator module LDO built in the case 10 of the body temperature monitoring module 1, as shown in fig. 5. The LDO is used for DC-DC conversion, is connected with a battery, and can convert the voltage output by the battery into different working power supplies required by each electric load in the body temperature monitoring module 1, such as a working power supply VCC1 required by a microcontroller MCU (microprogrammed control Unit), a power supply VCC3 required by a ring temperature sampling circuit and the like, so as to meet the electric demand of each electric load in the body temperature monitoring module 1.

In this embodiment, a crystal oscillator may be further built in the box 10 of the body temperature monitoring module 1, as shown in fig. 5, the dc power VCC2 receiving the output of the LDO is used to provide a reference clock for the stable operation of the MCU.

And the MCU sends the generated body temperature data to the communication module and transmits the body temperature data to the intelligent terminal by using the communication module.

In this embodiment, the communication module preferably adopts a near field wireless communication module, such as an NFC module or a bluetooth module BLE, to transmit experience data in a wireless communication manner, so that the design requirement of the independence of the body temperature monitoring module 1 can be further satisfied.

Consider that bluetooth module BLE is equipped with in present smart watch and the smart mobile phone all to mark, but not all have the configuration in the intelligent terminal to the NFC module. In consideration of the universality of the body temperature monitoring module 1, the bluetooth module BLE is preferably built in the body temperature monitoring module 1, and as shown in fig. 5, the body temperature data generated by the microcontroller MCU is transmitted to an external intelligent terminal by means of bluetooth communication.

As an optimal embodiment, if the body temperature monitoring module 1 of this embodiment is installed on the wrist strap 3 of smart watch, then preferably set up bluetooth module BLE defaults and smart watch's gauge outfit 2 bluetooth communication, sends the body temperature data that detect to gauge outfit 2 and shows and save, and the user can be through the smart watch that it wore to the continuous monitoring of self body temperature.

If the body temperature monitoring module 1 of this embodiment is installed on the wrist strap 3 of non-intelligent wrist-watch (for example, mechanical watch, quartz watch, electronic watch etc.), then preferred setting bluetooth module BLE carries out bluetooth communication with wrist-watch wearer's smart mobile phone, and body temperature data that will detect send to the smart mobile phone and show and save, the user can learn its self body temperature change through looking over the cell-phone, realizes the continuous monitoring of body temperature.

In order to simplify the circuit structure and realize the miniaturized design of the body temperature monitoring module 1, the microcontroller MCU and the Bluetooth module BLE are preferably replaced by a Bluetooth chip IC integrated with data processing capability, and the circuit design of the body temperature monitoring module 1 is carried out, so that the occupied area of a PCB is simplified, and the volume of the body temperature monitoring module 1 is reduced as much as possible.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a wrist strap equipment with body temperature monitor function, includes gauge outfit and wrist strap, its characterized in that be provided with body temperature monitoring module on the wrist strap, body temperature monitoring module includes:

the heat conduction column faces to the inner side face of the wrist strap, is attached to the skin of a human body when the wrist strap is worn on the human body, and conducts heat;

the temperature sensor is connected with the heat conduction column, senses the temperature of a human body according to heat conducted by the heat conduction column and generates a corresponding body temperature detection signal;

the microcontroller receives the body temperature detection signal output by the temperature sensor and generates body temperature data;

and the communication module receives the body temperature data output by the microcontroller and sends the body temperature data to the intelligent terminal.

2. The wristband device with body temperature monitoring function according to claim 1,

the wrist strap equipment is an intelligent watch, and the intelligent terminal is a watch head of the intelligent watch;

the body temperature data sent by the communication module is displayed on the meter head of the intelligent watch.

3. The wristband device with body temperature monitoring function according to claim 1,

the wrist strap equipment is a mechanical watch, a quartz watch or an electronic watch;

the intelligent terminal is an intelligent mobile phone and receives and displays the body temperature data sent by the communication module.

4. The wristband device with body temperature monitoring function according to claim 1, wherein the communication module is a short-range wireless communication module.

5. The wristband device with body temperature monitoring function according to any one of claims 1 to 4, wherein the body temperature monitoring module further includes:

the temperature sensor, the microcontroller and the communication module are packaged in the box body, a through hole is formed in the bottom surface of the box body, and the heat conduction column is exposed out of the box body through the through hole.

6. The wristband device with the body temperature monitoring function according to claim 5, wherein a mounting hole for mounting the case is formed in the wristband, after the case is mounted in place in the mounting hole, the bottom surface of the case is flush with the inner side surface of the wristband, and the heat conduction column protrudes out of the bottom surface of the case.

7. The wristband device with body temperature monitoring function according to claim 5,

the top surface of the box body is provided with a window, and the window is positioned on the same side with the outer side surface of the wrist strap when the box body is arranged in the assembly hole;

the box body is internally provided with an environment temperature sampling circuit which senses the external environment temperature through the window and generates a corresponding environment temperature detection signal;

and the microcontroller receives the loop temperature detection signal and is used for compensating the generated body temperature data.

8. The wristband equipment with the body temperature monitoring function according to claim 7, wherein a battery and a voltage stabilizing module are further packaged in the box body, and the voltage stabilizing module is used for stabilizing the voltage of the power output by the battery and supplying power to an electric load in the body temperature monitoring module.

9. The wristband equipment with the body temperature monitoring function according to claim 8, wherein a thermistor and a divider resistor are arranged in the loop temperature sampling circuit, the thermistor and the divider resistor are connected in series and then connected between the voltage stabilizing module and a system ground, and an intermediate node of the thermistor and the divider resistor is connected with the microcontroller.

10. The wristband apparatus with a body temperature monitoring function according to claim 9, wherein the window is formed by a transparent heat conducting plate fitted in the case body, and the thermistor is directly opposed to and in close proximity to the window at the laying position.

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