TWM502446U - Multi-functional care apparatus - Google Patents

Abstract

A multifunctional care apparatus being able to be calibrated, including a sensing element disposed in a wear cloth, having a manufacturing parameter, and for generating a physiological data; a processing device electrically connected to the sensing element; and a calibration unit electrically connected to the processing device, and for calibrating the physiological data based on the manufacturing parameter.

Description

Correctable multifunctional care device

This case relates to a care device, especially a versatile care device that can be corrected.

At present, in the medical care, several sensory data mainly monitored are temperature, humidity, heart rate, blood pressure, blood oxygen, body weight, body fat, vibration, and the like. Among them, temperature, that is, body temperature is one of the most commonly used and widely used sensing data. When measuring body temperature, if the patient is difficult to move, it can be adhered to the patient's body with the existing common electronic wired thermometer. However, if the object to be monitored is a patient with good physical condition, or is completely healthy, it belongs to The above-mentioned methods are quite inconvenient for people in high-risk groups. Therefore, the new creators have proposed using a wearable temperature sensor to monitor the body temperature of the monitored object in several previous cases.

Please see Taiwan's new patent M391094, in which the second picture reveals that a temperature sensor is placed in the armpit of a garment, and the measurement value is transmitted to the RFID temperature sensing IC tag through the joint, so that it can be wirelessly The way to pass the measurement results to the outside. Through the design of the joint The RFID temperature sensing IC tag can be removed from the clothes and only the clothes can be cleaned separately. The disadvantage of this case is that although the RFID temperature sensing IC tag and the temperature sensor are separable, in fact, because the temperature sensor actually has some manufacturing variations, in the conventional It is practiced that each temperature sensor at the time of production completion must be paired with an RFID temperature sensing IC tag for correction, and then only the same RFID temperature sensing IC tag can be used for reading, so each temperature sense The detector must be paired with an RFID temperature sensing IC tag. It is not possible for an RFID temperature sensing IC tag to correspond to a temperature sensor on multiple pieces of clothing. As a result, the cost of using the case is greatly increased.

Please refer to Taiwan's new patent M410219. The second picture also reveals the underarm detector, which has a temperature sensor and an RFID temperature sensing IC tag, and can be placed in a pocket under the armpit of the garment. It can be easily removed. The disadvantage of this case is that the underarm detector has a large volume, which is easy to cause the user to rub under the armpit, has an uncomfortable feeling, and hinders the movement of the arm. In addition, the ventilation effect of the underarm portion of the garment is poor.

Please refer to Taiwan's new patent M455368. The second picture also reveals that a temperature sensor is installed in the armpit of the clothes, and the temperature sensor can be closely attached to the human body through a flexible adjusting member, and then through the combination. The portion and the combined portion are designed to electrically connect the electronic device to the temperature sensor in a detachable manner. The problem with this case is that although the electronic device and the temperature sensor are detachable, the temperature is actually due to the temperature. The sensor actually has a slight variation in manufacturing. Therefore, in the conventional practice, each temperature sensor must be paired with an electronic device for correction when the production is completed, and then only the same electron can be used. The device provides reading, and it is impossible to correspond to the temperature sensor on a plurality of clothes with one electronic device, which causes the use cost of the case to be greatly increased.

For this reason, the applicant has created the "correctable multifunctional care device" in the light of the lack of prior art to improve the lack of the above-mentioned conventional means.

The purpose of the novel is to reduce the use cost of the conventional technology, and further improve the convenience of the application, and add a correction device to the signal processing end, so that one signal processing end can correspond to a plurality of sensing elements, that is, The user can prepare multiple wearable bodies (such as clothes), but only a small amount of signal processing is required.

In order to achieve the above object, the present invention provides a multifunctional care device comprising a wearer having a first sensing element, the first sensing element generating a first sensing value; and a processing device detachably Electrically connected to the first sensing component, the first sensing value is read, and the processing device includes a correcting device for correcting the first sensing value, wherein the processing device corrects the first sensing value The value is converted to a wired/wireless signal and the wired/wireless signal is transmitted, and when the wired/wireless signal is transmitted wirelessly, is selected from a sound wave, or a Bluetooth signal, or a radio frequency signal.

In order to achieve the above object, the present invention further discloses a sensing method for a care device, the multifunctional care device comprising a garment provided with a first sensing element, and electrically connected to the first part in a removable manner a processing device for a sensing component, the processing device comprising a calibration device, the sensing method comprising the processing device reading an original sensed value of the first sensing component; the correcting device correcting the original sensed value To generate a sensing correction value; the processing device receives the corrected sensing value, and converts the corrected sensing value into a wired/wireless signal; and transmits the wired/wireless signal.

In order to achieve the above object, the present invention also discloses a method for correcting a multifunctional care device, comprising the steps of: setting a first sensing element on a garment and generating an original sensing data; converting the original sensing data Forming a wired/wireless signal and transmitting the wired/wireless signal; receiving the wired/wireless signal and restoring the signal to the original sensed data; and correcting the raw sensed data to generate a corrected data.

In order to achieve the above object, the present invention further discloses a sensing method for a care device, the care device comprising a wearable body having a sensing component, and a detachably electrically connected to the first sensing component A wired/wireless information processing device, the method comprising the steps of: the first sensing element generating an original sensed value; the wired/wireless information processing device reading and correcting the original sensed value.

1‧‧‧ Wearables

1’‧‧‧Users

10‧‧‧Sensor components

11‧‧‧Wire

11’‧‧‧First Disassembly Department

12‧‧‧ tightening

2a‧‧‧First wireless information processing device

2b‧‧‧2nd wireless information processing device

20‧‧‧Processing device

201‧‧‧ memory

202‧‧‧ accommodating space

21‧‧‧ Receiving device

21’‧‧‧Second Disassembly Department

211‧‧‧Application

22‧‧‧ calibration device

23‧‧‧Display unit

24‧‧‧Sound generator

3‧‧‧Information integration device

4‧‧‧Monitors

5‧‧‧Bedding

1 is a schematic view of an embodiment of the present invention; FIG. 2 is a schematic view of another embodiment of the present invention; FIG. 3 is a schematic view of an embodiment of the processing device of the present invention; FIG. 4 is a schematic view of the application of the present invention; , is a schematic diagram of the application of the new model; and FIG. 6 is a schematic diagram of the application of the novel.

The following describes the embodiments of the "correctable multifunctional nursing device" of the present invention, please refer to the accompanying drawings, but the actual configuration and the method adopted do not have to completely conform to the described content, and those skilled in the art should be familiar with Various changes and modifications can be made without departing from the actual spirit and scope of the case.

Please refer to FIG. 1 , which is a schematic diagram of an embodiment of the present invention. It is disclosed that a sensing component 10 is electrically connected to a processing device 20, and the processing device 20 is connected to a receiving device 21 in a wired/wireless manner. The electrical connection between the sensing element 10 and the processing device 20 is in a detachable manner, typically allowing the processing device 20 to be detachable. The processing device 20 and the receiving device 21 may be collectively referred to as a first wireless information processing device 2a. In addition, a correction device 22 is further disposed in the processing device 20. When the sensing component 10 is a thermistor, when the integrated temperature is sensed, the resistance has a corresponding resistance value, that is, a first sensing value. After the sensing value is measured by the processing device 20, the correcting device 22 corrects the sensed value. Taking temperature as an example, when the sensing element 10 is in the same environment as the processing device 20 (for example, room temperature), the second sensing component (not shown) built in the calibration device 22 generates a second sensing value, and the calibration device 22 will first sense the value. Comparing with the second sensed value to determine the degree of correction of the first sensed value. Thereafter, the processing device 20 transmits the data of the first sensing value correction degree to the receiving device 21 in a wireless or wired manner, and the receiving device 21 stores the degree of correction of the first sensing value as A modified reference for the sensed data measured by the sensing element 10 is then made. Since the general sensing element inevitably has variations in the manufacturing process, a more accurate sensing value can be obtained by appropriately correcting the sensing data through the above-described correction at the time of use. Furthermore, the processing device 20 of FIG. 1 further includes a display unit 23 for displaying the corrected sensing data. In addition, the processing device 20 may further include an acoustic wave generator 24 that transmits the corrected sensing data in an acoustic manner.

Please refer to FIG. 2 , which is a schematic view of another embodiment of the present invention. It is disclosed that a sensing component 10 is electrically connected to a processing device 20, and the processing device 20 is electrically connected to a receiving device 21 in a wired/wireless manner. The electrical connection between the sensing element 10 and the processing device 20 is in a detachable manner, typically allowing the processing device 20 to be detachable. Further, the processing device 20 and the receiving device 21 are collectively referred to as a second wireless information processing device 2b. The processing device 20 includes a memory 201 with an identification code and a sensing characteristic relationship of the sensing component 10. If the sensing component 10 is a thermistor, when the integrated temperature is sensed, the resistance has a corresponding resistance value, that is, the sensing value. According to this embodiment, the processing device 20 must initially be used in conjunction with the sensing component 10, and the identification code of the sensing component 10 is processed by the processing device 20. Or the sensing characteristic relationship is provided to the receiving device 21 through wired/wireless transmission, and the application 211 carried in the receiving device 21 can then correct the sensing value according to the identification code or the sensing characteristic relationship, and the receiving device 21 will correct the signal again. The subsequent sensed values are displayed or stored. Alternatively, the application 211 can obtain the correction data or the sensing characteristic relationship recorded in the manufacturing process of the sensing component 10 through cloud communication according to the identification code of the sensing component 10, and correct the sensing value.

The receiving device 21 described in Figures 1 and 2 is typically a mobile communication device such as a cell phone or tablet. In the embodiment of FIG. 1, as long as the mobile phone has a Bluetooth or radio frequency tag reading and writing function, the application software of the present invention can be installed to perform sensing data processing. In the embodiment of Fig. 2, the application software also has the function of correcting the program. It is worth mentioning that the processing device 20 in the embodiment of FIG. 2 can have a low-cost device that provides the most basic identification and data transfer functions using inexpensive passive RFID tags, as long as the receiving device 21 can read the The identification code or the sensing characteristic relationship of the sensing component 10 may be related, and then the data may be stored in the receiving device 21 for use at any time. If the receiving device 21 has obtained the sensing characteristic relationship related data of the sensing component 10, the processing device 20 in the embodiment of FIG. 1 may be used, and the sensing characteristic relationship of the sensing component 10 is directly utilized. The sensed data is corrected or corrected. At this time, the processing device 20 in the embodiment of FIG. 1 may have an active RFID tag that allows the receiving device 21 to refer to the intensity of the RF signal it transmits to determine the distance between the two while providing multifunctional care.

Please refer to FIG. 3, which is an embodiment of the processing device of the present invention. intention. Since there are many ways of wired/wireless connection between the processing device 20 and the receiving device 21, the present invention is electrically connected to the sensing element 10 in order to allow different types of processing devices 20 to be detached and replaced based on the needs of use. A receiving unit 202 is disposed in the position, and the processing device 20 in the embodiment of FIG. 1 or the processing device 20 in the embodiment of FIG. 2 is detachably disposed therein.

Please refer to FIG. 4 , which is a schematic diagram of the application of the present invention. It is disclosed that the wearing item 1 is a short-sleeved T-shirt, which is generally best for personal clothes, and has a receiving space 202. The sensing element 10 is in close contact with the armpit of the user 1' through a bundle of tights 12. The processing device 20 applied in FIG. 4 is electrically and detachably connected to the first detachable portion 11 ′ of the sensing element 10 through a second detachable portion 21 ′, but the first and second detachable portions are The positions of (11', 21') overlap, so that they are also overlapped in FIG. 4, and both can be achieved by a fastening cloth (devil felt), a snap group, and the like. The sensing element 10 is electrically connected to the first detachable portion 11' via a wire 11.

Please refer to FIG. 4, and please refer to FIG. 1 and FIG. 2, wherein the processing device 20 of FIG. 4 may be the one shown in the first wireless information processing device 2a shown in FIG. 1, or the first shown in FIG. The two types of wireless information processing device 2b, in other words, the processing device 20 (shown in FIG. 1) having the correction device 22 or the processing device 20 without the correction device 22 (as shown in FIG. 2) Both can be applied to the application examples disclosed in FIG. It can be seen that through the design of the first and second disassembling parts (11', 21'), the user can prepare a plurality of wearing articles 1 and only need one or a few processing devices 20, thus saving the processing device. The number of 20, which is reduced by the use of this.

Please refer to FIG. 5 , which is a schematic diagram of the application of the present invention. A novel sensing element 10 is disposed at the armpit of the wearer 1 of the user 1' and is detachably coupled to the processing device 20. The monitor 4 is armed with a receiving device 21 for reading and receiving signals from the processing device 20. In addition to the existing physiological data monitoring, there is also a function shown in Figure 5, which is distance detection. When the processing device 20 is configured with an active component such as an active RFID tag, a Bluetooth component, an infrared emitter, or an ultrasonic transmitter, the receiving device 21 can continuously monitor the signal strengths emitted by the active components, thereby determining the processing device 20 The distance between the processing device 20 and the receiving device 21 is determined by the distance from the receiving device 21 or by the processing device 20 based on the signal strength transmitted from the receiving device 21. Referring again to FIG. 1, the processing device 20 can be configured with a display unit 23 or a sound wave generator 24. When the processing device 20 determines that the distance between the two exceeds a threshold, the display unit 23 or the sound generator 24 on the processing device 20 can Alerts, such as a flash or sound, to alert the caregiver. According to another embodiment, an alert can be issued by the receiving device 21 to alert the caregiver.

Please refer to FIG. 6 , which is a schematic diagram of the application of the present invention. What is disclosed is the application state when the user 1' is lying on the bed. The sensing element 10 of the present invention is provided at the armpit of the wearing article 1 and is electrically connected to the processing device 20 via the wire 11, while the receiving device 21 is separated from the processing device 20 and exchanged with the processing device 20 in a wireless manner. ,Send message. The receiving device 21 of FIG. 6 is not limited to a mobile communication device such as a mobile phone or a tablet computer, and may be a simple radio frequency reader or a Bluetooth device. Therefore, the receiving device 21 is made lighter and can be placed in the bedding 5. Of course, as the application example of FIG. 5, a monitor 4 can be used as the receiving device 21 by a mobile communication device having Bluetooth communication, radio frequency signal transmission, NFC function or other wireless. Thereafter, the receiving device 21 can also retransmit the sensed value of the sensing component 10 to an information integration device 3, typically a device such as a computer or database. The communication between the receiving device 21 and the information integration device 3 can be performed via WIFI, a mobile communication network, or in a wired manner.

Since the processing device 20 is disposed on the wearer 1 of the user 1', and the receiving device 21 is disposed in the bedding 5, when the distance between the two changes significantly (for example, the quilt is dropped or kicked off), The information integration device 3 can use the network to send a warning message to inform the caregiver to visit and process. At the same time, if the temperature monitoring data of the user 1' is abnormal, the information integration device 3 can also use the network to send a warning message to inform the caregiver to visit and process. Therefore, the novel care device has multifunctional nursing ability.

Please refer to FIG. 4 and FIG. 1 , and the sensing method used in the present invention is described later. A sensing method for a care device used in the present invention, the device includes a wearer 1 having a first sensing element 10, and is removably electrically connected to the first sensing element 10 a processing device 20, the processing device 20 includes a calibration device 22, and the sensing method includes the processing device 20 reading an original sensed value of the first sensing component 10; the correcting device 22 corrects the original sense Measured to generate a corrected sensed value; the processing device 20 receives the corrected sensed value and corrects the correction The post-sensing value is converted into a wired/wireless signal; and the signal is transmitted. Further, if the signal is transmitted as a wireless signal, the radio frequency signal, the Bluetooth signal, the audio signal or the infrared signal is mainly used.

Please refer to FIG. 4 and FIG. 2, and the sensing method used in the present invention is described later. A sensing method for a care device used in the present invention, the device includes a wearer 1 having a first sensing element 10, and is removably electrically connected to the first sensing element 10 A processing device 20, the processing device 20, and the processing device 20 is electrically connected to a receiving device 21 in a wired/wireless manner. The processing device 20 includes a memory 201 in which an identification code or a sensing characteristic relationship of the sensing element 10 is stored. The step of the sensing method includes the processing device 20 reading an original sensing value of the first sensing component 10; the processing device 20 finding the sensing component 10 according to the identification code or the sensing characteristic relationship in the memory 201 a specific identification code or sensing characteristic relationship, converting the specific identification code or sensing characteristic relationship into a wired/wireless signal; receiving the wired/wireless signal by a receiving device 21; and carrying the wired/wireless signal; The application 211 can then correct the sensing value according to the identification code or the sensing characteristic relationship, and the receiving device 21 displays or stores the corrected sensing value. Alternatively, the application 211 can obtain the correction data or the sensing characteristic relationship recorded in the manufacturing process of the sensing component 10 through cloud communication according to the identification code of the sensing component 10, and correct the sensing value. Further, if the transmitted signal is in a wireless manner, the RF signal, the Bluetooth signal, the infrared signal, or the sound signal described above is mainly used.

Cooperating with the embodiment of Fig. 1 and Fig. 4 or Fig. 2 and Fig. 4 In the step of correcting, the processing device 20 further carries a component identification code for identifying the first sensing component 10 to determine the degree of correction of the sensing value during the calibration. In addition, the first sensing component 10 may further have a sensing characteristic relationship to determine the degree to which different sensing values should be corrected during the calibration. That is, the first sensing element 10 can be corrected more accurately by sensing the characteristic relationship and the component identification code. In addition, the sensing characteristic relationship and the component identification code can be integrated into a manufacturing parameter to facilitate the operation of the calibration program of the application 211.

In addition, there are other correction methods as follows. As with the collocation application of FIG. 1 and FIG. 4, the calibration device 22 in the processing device 20 further has a second sensing component (not shown) and generates a second sensing value, and the calibration device 22 The first sensing value is compared with the second sensing value to determine the degree of correction of the first sensing value, and then the corrected sensing value is transmitted to the outside. In the collocation application of FIG. 2 and FIG. 4, the receiving device 21 further has a second sensing component (not shown) and generates a second sensing value, and the application 211 will be self-wired. The restored first sensed value is compared with the second sensed value to determine a degree of correction for the first sensed value.

Referring again to the embodiment shown in FIGS. 1 and 6, when the correcting device 22 in the processing device 20 has a second sensing element (not shown) and generates a second sensing value, the processing device 20 can be continued. Reading the first sensing value and the second sensing value, detecting a difference between the two, and determining a state according to the difference. According to an embodiment of the present invention, when the difference value between the first sensing value and the second sensing value is kept within a range, it may be determined that the sleeper is in a normal state; if the first feeling is If the difference between the measured value and the second sensed value exceeds the range, it may be considered that the sleeper's condition is in a warning state, and the cause may be abnormal body temperature, detachment of the bedding, or abnormality of the sensing device. When the alert state described above occurs, the processing device 20 can send a warning signal to notify the caregiver to learn the cause.

Furthermore, the present invention further includes a database (not shown) storing the characteristic data of the sensing component 10 as a basis for correcting the physiological data, wherein the database is the memory 201 provided in the processing device 20. Or in the application 211; or a cloud database (not shown), exchange data with the receiving device 21 or the application 211 through a network, and the network is selected from a wired network, a WIFI or a mobile network. .

In summary, the "correctable multifunctional nursing device" of the present invention is such that the processing device or the receiving device has a function of correcting the sensing value from the sensing element, such as in the processing device or the receiving device, or the processing device. The internal tag is provided with a component identification code storing the sensing component, a sensing characteristic relationship, or a correcting component storing the manufacturing parameters that have been integrated, when the processing device captures the sensing component When the generated sensing value is generated, the application can compare the sensing value with the component identification code, the sensing characteristic relationship, or the manufacturing parameter stored in the internal sensing value, and compare the sensing value with the sensed value. The measured value is corrected, that is, through a certain conversion, the physiological data actually expressed by the sensed value, such as the body temperature, is closer to the actual user's body temperature. In short, since the correction device is disposed in the processing device or the receiving device, the sensing elements disposed in a wearing object need not be corrected one by one, and need not be processed. Set for pairing. When the processing device of the present invention is connected to different sensing elements, it can still be corrected by its own correcting device, and the accuracy of the sensing is still maintained. Furthermore, the present invention provides multi-functional care, in addition to accurate measurement of general physiological parameters, but also uses wireless transmission signals to monitor distances, while providing other care functions, the actual application has a very good effect in epidemic control. Especially in hospitals, schools, nursing homes, and kindergartens in a clustered state, the monitor can quickly and easily know which individual has physiological data such as abnormal body temperature, and further can Knowing the approximate location of the individual, in order to facilitate the monitor to quickly isolate the individual, it can be seen that this new type has a great contribution to the care technology.

Example

A multifunctional care device comprising a wearer having a first sensing component, the first sensing component generating a first sensing value; a processing device detachably electrically connected to the first sensing The measuring component reads the first sensing value, and the processing device includes a correcting device for correcting the first sensing value, wherein the processing device converts a correction value of the first sensing value into a wireless signal, And transmitting the wireless signal, and the wireless signal is selected from the group consisting of a sound wave, or a Bluetooth signal, or a radio frequency signal.

2. The device of embodiment 1, further comprising a mobile device that receives the wireless signal and determines a distance of the wearer from the mobile communication device based on the strength of the wireless signal.

3. The apparatus of embodiment 1 further comprising a mobile device application for enabling a mobile device to process the wireless signal.

4. The device of embodiment 1, wherein the first sensing element has a component identification code for the calibration device to identify the first sensing component.

5. The device of embodiment 1, further comprising a second sensing component and generating a second sensing value, and the correcting device is to use the first sensing value and the second sensing value Alignment to determine the degree of correction for the first sensed value.

6. The device of embodiment 1, wherein the processing device periodically reads the first sensed value.

7. A sensing method for a care device, comprising: a garment provided with a first sensing element; and a processing device removably electrically coupled to the first sensing element, The processing device includes a correction device, and the step of the sensing method includes the processing device reading an original sensed value of the first sensing component; the correcting device correcting the original sensed value to generate a sensed correction value The processing device receives the sensing correction value and converts the sensing correction value into a wireless signal; and transmits the wireless signal.

8. The method of embodiment 7, wherein the raw sensed data has a sense identification code and a sense characteristic relationship to determine the degree of correction upon correction.

9. The method of embodiment 7, wherein the correcting is to generate a reference data through a second sensing element and compare the original sensed data to determine a correction to the original sensed value. degree.

10. A method of correcting a multifunctional care device, comprising Step: setting a first sensing component on a garment and generating an original sensing data; converting the original sensing data into a wireless signal, and transmitting the wireless signal; receiving the wireless signal, and receiving the wireless signal Reverting to the original sensed data; and correcting the raw sensed data to generate a corrected data.

11. The method of embodiment 10 wherein the wireless signal is received by a mobile communication device and a distance of the garment from the mobile communication device is determined based on the strength of the wireless signal.

12. The method of embodiment 11, wherein the mobile communication device further stores a plurality of sensing characteristic relationships of the first sensing elements for correction as a basis for the degree of correction.

13. The method of embodiment 11, wherein the mobile communication device has a second sensing component therein and generates a reference sensing value, and the correcting is to sense the original sensing data and the reference sensing The values are compared to determine the degree of correction to the original sensed data.

14. A sensing method for a care device, the care device comprising a wear body having a sensing element, and a wireless information processing device detachably electrically connected to the first sensing element, The method includes the steps of: the first sensing element generating an original sensed value; the wireless information processing device reading and correcting the original sensed value.

15. The method of embodiment 14, wherein the wireless information processing device comprises: a transmitting end detachably electrically connected to the first sensing element; and a receiving end transmitting through a wireless communication End information exchange, wherein the step of: correcting the original sensed value is a school The positive sensed value is executed in the transmitting end or in the receiving end.

16. A calibratable multifunctional care device comprising: a sensing component disposed on a garment having a manufacturing parameter and configured to generate a physiological data; a processing component electrically coupled to the sensing component; A correction component electrically coupled to the processing component for correcting the physiological data based on the manufacturing parameter.

17. The device of embodiment 16, wherein: the processing component converts the physiological data together with the manufacturing parameter into a wireless signal for transmission; and the correcting component is a mobile communication device with an application software installed, and Wirelessly connecting to the processing component to enable the mobile communication device to receive the wireless signal, and to restore the wireless signal to the physiological data and the manufacturing parameter, and correct the physiological data by the manufacturing parameter, The wireless signal is selected from one of a Bluetooth signal, a radio frequency signal, an infrared signal, or an acoustic signal.

18. The device of embodiment 16, wherein the processing component is electrically connected to the calibration component in a wired manner, and the corrected physiological data is converted to a wireless signal, and the wireless signal is selected from the group consisting of Bluetooth. One of a signal, a radio frequency signal, an infrared ray, or an acoustic signal.

19. The apparatus of embodiment 18, further comprising: a mobile communication device having an application software installed to receive the wireless signal.

20. The device of embodiment 16 wherein the processing element is removably electrically coupled to the sensing element.

21. The device of embodiment 16, wherein the sensed data is from temperature, humidity, heart rate, blood pressure, blood oxygen, body weight, body fat, shock Choose one of the moves.

22. The device of embodiment 16, further comprising a database storing characteristic data of the sensing component for use as a basis for correcting the physiological data, wherein the database is disposed in the processing component or Within the calibration component; or a cloud database, the data is exchanged with the processing component or the calibration component through a network selected from a wired network, a WIFI, or a mobile network.

The above-described embodiments are merely examples for the convenience of the description, and those skilled in the art will be modified as described above, and are not intended to be protected as claimed.

10‧‧‧Sensor components

2a‧‧‧First wireless information processing device

20‧‧‧Processing device

21‧‧‧ Receiving device

22‧‧‧ calibration device

23‧‧‧Display unit

24‧‧‧Sound generator

Claims (10)

A multifunctional care device comprising: a wearing object having a first sensing component, the first sensing component generating a first sensing value; and a processing device detachably electrically connected to the first sensing component The device reads the first sensing value, and the processing device includes a correcting device, and generates a sensing correction value according to the first sensing value and a second sensing value, wherein the processing device senses the sensing The correction value is converted into a wired/wireless signal, and the wired/wireless signal is transmitted, and when the wired/wireless signal is transmitted wirelessly, it is selected from a sound wave, a Bluetooth signal, a radio frequency signal, or an infrared signal. The device of claim 1, further comprising a mobile device that receives the wired/wireless signal and determines a distance of the wearer from the mobile device based on the strength of the wired/wireless signal. The device of claim 1, further comprising a mobile device application for enabling a mobile device to process the wireless signal. The device of claim 1, wherein the processing device continuously detects a difference between the first sensed value and the second sensed value, and determines a state based on the difference. The device of claim 1, wherein the first sensing value further comprises a sensing identification code and a sensing characteristic relationship, and the correcting device according to the sensing characteristic relationship and the sensing identification code A degree of correction is determined for one of the first sensed values. A multifunctional care device comprising: a wearer having a first sensing component, the first sensing component generating a first sensing value; a processing device detachably electrically connected to the first sensing component, reading the first sensing Measured, and the processing device includes a correcting device for correcting the first sensing value, wherein the correcting device further includes a second sensing component and generates a second sensing value, and the correcting device A sensing value is compared with the second sensing value to determine a degree of correction of the first sensing value, and the processing device converts the corrected first sensing value into a wireless signal and transmits the wireless signal And the wireless signal is selected from the group consisting of a sound wave, a Bluetooth signal, a radio frequency signal, or an infrared signal. The device of claim 5, further comprising a mobile device, receiving the wireless signal, and determining a distance of the wearer from the mobile device according to the strength of the wireless signal. The device of claim 5, further comprising a mobile device application for enabling a mobile device to process the wireless signal. The device of claim 5, wherein the processing device continuously detects a difference between the first sensing value and the second sensing value, and determines whether to send an alert signal according to the difference. A calibratable multifunctional care device comprising: a sensing component disposed on a wearable body having a manufacturing parameter and configured to generate a physiological data; a processing component electrically coupled to the sensing component, the processing component Converting the physiological data together with the manufacturing parameter into a wireless signal for transmission; A correcting component is a mobile communication device mounted with an application software, and is wirelessly connected to the processing component to enable the mobile communication device to receive the wireless signal and restore the wireless signal to the physiological data and The manufacturing parameter corrects the physiological data with the manufacturing parameter, and the wireless signal is selected from one of a Bluetooth signal, a radio frequency signal, an infrared signal, or an acoustic signal.