TWI584087B - Temperature measuring smartwatch - Google Patents

Description

Wisdom meter for measuring body temperature

The invention relates to a smart watch, in particular to a smart watch with temperature measuring function.

Please also refer to US Patent Publication No. US 2012/0221254 A1 (hereinafter referred to as US '254 case) and FIG. 1 , which discloses a physical activity data collection unit 10a which can be worn on a user's wrist. A temperature sensor 22a is provided. The temperature sensor 22a may measure the temperature inside the watch, or may be close to the wrist of the user to measure the temperature of the user; and the case discloses that the temperature sensor 22a may be an infrared or resistive temperature sensing element. However, the structure and arrangement position of the temperature sensor 22a are not specifically disclosed in the case, and the temperature sensor 22a cannot be ensured to fit the surface of the user to obtain a precise temperature.

Please also refer to U.S. Patent Nos. 8,436,810 B2 and 2, which disclose a watch whose surface is combined with a physiological monitoring device 30b, which is also worn on the wrist of a user, which is provided with a sensing at the Wrist strap/bracelet 50b. The sensor 10b can obtain a heart rate, a muscle contraction, a skin resistance, a skin temperature, a movement, and a breath (smell). Wait for the value. However, the case not only does not specifically disclose the type of the sensor 10b, let alone its structural configuration; in addition, the wrist wear and wear close to the user's body surface to obtain the temperature, the lack of the same as the US '254 case, in This will not be repeated.

Please also refer to US Patent Publication No. US 2002/0109600 A1 and Figure 3, A smart activity monitor 30c is disclosed, which is also worn on the user's wrist and has a temperature sensor built therein. However, the case also does not specifically disclose the type and structure of the sensor, and it also produces the same deficiency as the US'254 case.

Please also refer to China Utility Model Patent No. CN203250134U and Figure 4, A watch 2d is disclosed, and a miniature temperature sensor 3d is arranged in the case. However, the case also does not specifically disclose the type and configuration of the micro temperature sensor 3d, and it is impossible to know how the micro temperature sensor 3d measures the body surface temperature.

Please also refer to China Utility Model Patent No. CN203241718U and 5A, 5B The figure discloses a multi-function solar watch, a solar panel 40e is arranged on the outer side of the casing, and a temperature sensor 30e is arranged on the inner side of the casing, and the temperature is obtained near the surface of the user, and the missing is similar to the US'254 case. Give a brief description. In addition, the solar panel 40e is a device for storing thermal energy and converting thermal energy into electrical energy, and the dissipation of thermal energy is inevitable, although the two are respectively disposed on the front and back sides of the casing, the solar panel 40e and the temperature sensor 30e are simultaneously Combined in the same device, it is reasonable to infer that the heat energy dissipated by the solar panel 40e will make the temperature sensitive sensor 30e more susceptible to errors.

The object of the present invention is to provide a smart meter capable of measuring body temperature, which can make the working range of temperature measurement correspond to the surface of the smart watch, improve the probability and range of contact between the temperature sensitive coil and the user's body surface, improve efficiency and reduce error.

To this end, the present invention provides a smart meter capable of measuring body temperature: a housing, a temperature sensing coil, and a control unit. The housing is provided with a display portion. The temperature sensing coil surrounds the display portion at least one turn and is exposed. The control unit is housed in the housing and electrically connected To the display portion of the housing. The control unit is provided with at least one temperature sensor and a micro processing module; the temperature sensor is electrically connected to the micro processing module; the micro processing module has an oscillator for timing. The temperature sensing coil contacts the temperature sensor for heat conduction. Thereby, the temperature sensor generates a heat signal through heat conduction, and the heat signal is processed by the micro processing module to display a detected temperature on the display portion.

Preferably, the display portion has a predetermined configuration and defines a one-half portion along the predetermined configuration, and the temperature sensing coil is disposed on the peripheral portion.

Preferably, the temperature sensing coil defines a top side; the top side of the temperature sensing coil has a height difference and is slightly higher than the surface of the display portion.

Preferably, the temperature sensing coil extends into the interior of the housing to be in contact with the temperature sensor.

Preferably, the control unit includes a warning component electrically connected to the microprocessor module.

Preferably, the control unit includes a wireless transmission component electrically connected to the microprocessor module, and can upload the detected temperature value to the cloud.

Preferably, the smart watch further comprises: a wearable structure coupled to the housing.

Thereby, the temperature sensing coil surrounds the setting of the display portion, so that the working range of the temperature sensing coil is equivalent to the surface of the smart watch, and the probability and range of the temperature sensing coil contacting the surface of the user are improved, and the efficiency and the error are reduced. . First, the temperature sensing coil is in stable contact with the body surface of the user, and the heat balance is more efficiently and accurately achieved; secondly, the limitation of the contact area due to the local unevenness of the body surface temperature or the surface design is avoided, and Mistaken.

1‧‧‧shell

11‧‧‧ Display Department

111‧‧‧Wei

112‧‧‧ top surface

2‧‧‧Wearing structure

3‧‧‧temperature coil

31‧‧‧ top side

4‧‧‧Control unit

41‧‧‧ Temperature sensor

42‧‧‧Micro Processing Module

421‧‧‧Microprocessor

422‧‧‧ oscillator

423‧‧‧Signal Processing Unit

424‧‧‧Human Machine Interface Program

425‧‧‧ Temperature measurement program

43‧‧‧Wireless transmission components

44‧‧‧Warning components

9‧‧‧Users

91‧‧‧ wrist

92‧‧‧Forehead

S _H ‧‧‧thermal signal

S _D ‧‧‧ digital signal

S200‧‧‧ main program

S204~S210‧‧‧Steps

1 is a schematic structural view of a first conventional technique; FIG. 2 is a schematic perspective view of a second conventional technique; FIG. 3 is a simplified schematic diagram of a third conventional technique; and FIG. 4 is a fourth drawing FIG. 5A is a schematic view of the structure of the fifth conventional technique; FIG. 5B is a rear view of the fifth embodiment; FIG. 6 is a perspective view of the smart meter capable of measuring the body temperature of the present invention; 7 is a structural block diagram of the smart meter capable of measuring body temperature; FIG. 8 is a schematic diagram of the use of the smart meter capable of measuring body temperature; and FIG. 9 is a side view of the smart meter capable of measuring body temperature of the present invention. Schematic diagram; Figure 10 is a temperature measurement flowchart of the wisdom meter of the present invention.

Referring to FIGS. 6-8, the embodiment of the present invention provides a smart meter capable of measuring body temperature, comprising a housing 1 and a wearing structure 2, a temperature sensing coil 3 and a control unit 4 combined with each other. The housing 1 and the wearing structure 2 can be integrally formed or detachably connected, and the connection manner is not limited; generally, the housing 1 is used to contact the user's wrist 91, and the wearing structure 2 will The housing 1 is held at the user's wrist 91 and can be detached with the user. The housing 1 has a display portion 11 , and the control unit 4 is accommodated in the housing 1 , and the control unit 4 is normally adjacent to the display portion 11 and electrically connected to the display portion 11 . The display portion 11 has a predetermined configuration and is defined as a one-part portion 111 along the predetermined configuration. The control unit 4 is provided with at least one temperature sensor 41, a micro processing module 42, a wireless transmission component 43, and a warning component 44. The temperature sensor 41 and the wireless transmission The input component 43 is electrically connected to the micro processing module 42. The micro processing module 42 is also electrically connected to the display portion 11 of the housing 1. The temperature sensor 41 is a contact type temperature sensing, which obtains a thermal signal such as voltage, resistance, or magnetic permeability according to different designs. The microprocessor module 42 includes at least a microprocessor 421, an oscillator 422, a signal processing unit 423, a human interface program 424, and a temperature measurement program 425. The oscillator 422 and the signal processing unit 423 are electrically connected to the microprocessor 421, and the human interface program 424 and the temperature measuring program 425 are pre-written to the microprocessor 421. The oscillator 422 oscillates to generate a clock signal, which can be a quartz oscillator, a CMOS oscillator, or a piezoelectric microelectromechanical system (pMEMS) oscillator, etc., and aims to provide a frequency and time pulse reference to make the smart meter accurate. Timing. The signal processing unit 423 receives the thermal signal outputted by the temperature sensor 41, that is, the detected physical property, such as pressure, resistance, magnetic permeability or the like, and converts it into a digital signal, and the microprocessor 421 calculates the temperature difference therefrom. And then derive a temperature value. The human interface program 424 can contact the microprocessor 421 and the display unit 11 to convert the user's operation on the display unit 11 into an instruction executable by the microprocessor 421. The temperature measurement program 425 includes a plurality of programs and steps for the user to detect the temperature. The wireless transmission component 43 includes wireless transmission technologies conforming to the IEEE 802 specification, such as Bluetooth, WIFI, and the like. The alerting element 44 can be a buzzer or a vibrator for prompting the user.

The temperature sensing coil 3 surrounds the display portion 11 and is arranged around at least one turn On the week of the 111. Referring to FIG. 9, the temperature sensing coil 3 is defined with a top side 31; the top side 31 is not lower than the top surface 112 of the display portion 11 and is exposed to sense an external temperature; the top of the temperature sensing coil 3 The side 31 has a height difference and is slightly higher than the top surface 112 of the display portion 11 so as to be in contact with the object to be tested (ie, use The body surface of the person) is in contact. It should be noted that the top side 31 of the temperature sensing coil 3 may also be flush with the top surface 112 of the display portion 11 (not shown). The temperature sensing coil 3 is in contact with the temperature sensor 41, and the temperature sensor 41 can be touched by the end or bottom side of the temperature sensing coil 3 or other design contacts. In this embodiment, the end of the temperature sensing coil 3 extends into the interior of the housing 1 and is in contact with the temperature sensor 41. The connection between the temperature sensing coil 3 and the temperature sensor 41 is intended to be in contact with conduction, and is not It is limited by this embodiment. Since the temperature sensing coil 3 is disposed along the peripheral portion 111 of the display area, the working range thereof is equivalent to the surface of the smart watch, and when it is in contact with the object to be tested, it is not subject to the limitation and influence of the local temperature, and is more comprehensive and quick to be tested. The body achieves a thermal balance.

Referring to FIG. 10, it is a temperature measurement flowchart of the smart meter of the present invention, and the temperature measurement program 425 includes a main program S200. First, the temperature sensor 41 receives conduction of thermal energy that has been nearly stabilized by the temperature sensing coil 3, and generates a thermal signal S _H (step S204). The temperature sensor 41 the heat is transmitted to the signal S _H microprocessor module 42 (step S206). The signal processing unit 423 is further converted into a digital signal S _D (step S208). Finally, the microprocessor 421 generates a detected temperature value based on the digital signal S _D (step S210). Then the main program S200 is completed. Therefore, the temperature measurement program 425 can execute at least the main program S200. At this time, the microprocessor module 42 transmits the acquired detection temperature value to the display unit 11 for display of the result. Therefore, when the smart watch is used in the normal state, it can provide the basic timekeeping function. When the temperature is to be measured by the smart meter, such as the frontal temperature, referring to Fig. 8, the user 9 can activate the temperature measuring program 425, which will be worn on The smart watch of the wrist 91 is in contact with the forehead 92 (subject to be tested) for a predetermined time, that is, it can be known by the display unit 11.

In addition, after the micro processing module 42 generates the detected temperature value, it can be further transmitted. The detected temperature value is to the wireless transmission component 43, see FIG. 7 and through the wireless transmission component 43 Upload the detected temperature value to the cloud 8 for temperature recording, remote monitoring, data analysis and prediction.

In summary, since the working range of the temperature sensing coil 3 is equivalent to the surface of the smart watch, this means that the probability and range of contact between the temperature sensing coil 3 and the forehead 92 can be expanded, and the stability and accuracy of the heat balance can be effectively achieved. Reduce measurement errors and avoid the limitations of contact area due to user type or surface design.

In addition, the present invention and its specific embodiments are not limited to the above description, and the concept may be replaced or changed by the concept and scope of the patent application.

11‧‧‧ Display Department

3‧‧‧temperature coil

4‧‧‧Control unit

11‧‧‧ Temperature sensor

42‧‧‧Micro Processing Module

421‧‧‧Microprocessor

422‧‧‧ oscillator

423‧‧‧Signal Processing Unit

424‧‧‧Human Machine Interface Program

425‧‧‧ Temperature measurement program

43‧‧‧Wireless transmission components

44‧‧‧Warning components

8‧‧‧Cloud

Claims (7)

A smart meter capable of measuring body temperature includes: a housing having a display portion; a temperature sensing coil surrounding the display portion at least one turn and exposed; and a control unit housing the The display unit is electrically connected to the display portion of the housing; the control unit is provided with at least one temperature sensor and a micro processing module; the temperature sensor is electrically connected to the micro processing module; An oscillating device for timing; wherein the temperature sensing coil contacts the temperature sensor for heat conduction; thereby, the temperature sensor generates a heat signal through heat conduction, and the heat signal is processed by the micro processing module to make a The detected temperature value is displayed on the display portion; wherein the display portion has a predetermined configuration, and a peripheral portion is defined along the predetermined configuration, and the temperature sensing coil is disposed on the peripheral portion. For example, the item 1 can measure the temperature of the body temperature, wherein the temperature sensing coil defines a top side; the top side of the temperature sensing coil has a height difference, and is slightly higher than the surface of the display part. The request item 2 is a smart meter capable of measuring body temperature, wherein the temperature sensing coil extends into the interior of the housing to be in contact with the temperature sensor. For example, the item 2 can measure the body temperature of the smart meter, wherein the control unit includes a warning component electrically connected to the micro processing module. For example, the request item 2 can measure the body temperature of the smart meter, wherein the control unit comprises a wireless transmission component electrically connected to the micro processing module. For example, the item 5 can measure the body temperature, wherein the wireless transmission component can upload the detected temperature value to the cloud. The smart meter of claim 2 for measuring body temperature further includes: a wearable structure coupled to the housing.