CN205656623U - Wearable device with authentication function and its authentication system - Google Patents

The utility model discloses a wearable device with authentication function and authentication system thereof. A wearable device having an authentication function for sensing a body state of a wearer and transmitting encrypted authentication information to a card reader, the encrypted authentication information including social security card data of the wearer, the device comprising: the wearable body, the sensing module, the processor, the memory unit, the encryption chip, the radio frequency module and the antenna. The sensing module senses a body state and outputs an analog physiological signal. The processor converts the analog physiological signal into a digital physiological signal. The memory unit receives and stores the digital physiological signal. The encryption wafer respectively converts the digital physiological signal and the personal information into an encrypted digital physiological signal and encrypted personal information. Therefore, the utility model discloses a wearing formula device with authentication function under the transmission condition of special frequency channel, combines wearing formula device to realize the application of social security voucher through encrypting the wafer, can save the time of seeing a doctor and reduce the risk that the media of contact propagated.

具有认证功能的穿戴式装置及其认证系统Wearable device with authentication function and its authentication system

技术领域technical field

本实用新型涉及一种具有认证功能的穿戴式装置及其认证系统，特别是涉及一种利用非接触式感应且具有认证功能的穿戴式装置及其认证系统。The utility model relates to a wearable device with an authentication function and an authentication system thereof, in particular to a wearable device and an authentication system which utilizes non-contact induction and has an authentication function.

背景技术Background technique

近几年来随着健康意识的抬头，越来越多的人开始注意着自己的健康，注意健康的相关议题诸如：提升新陈代谢、预防心血管疾病、减少心脏病与中风发生的机率、降低胆固醇等。现代人的文明病大多与高血糖、高血压或心率有关，又近年来医疗与科技产品的结合，使得医疗系统逐渐走向智能化，但由于多数测量生理状态的医疗器材并不方便携带，因此仍必须由使用者(病患)亲自到医院进行检测。再者，目前市面上售有血糖仪、血压仪、心跳检测器、体温计或可携式生理检测装置，其可搭配专业医师对于患者的生理数据提供专业的咨询分析，或是患者自行通过网路由线上分析平台提供的健康报告得知自身的健康状况。然而，这些生理检测装置必需放置在固定的地方，使用者必须到固定的地点才能使用生理检测装置，由于使用上的不方便，因此大幅地降低病患使用生理检测装置的意愿。In recent years, with the rise of health awareness, more and more people have begun to pay attention to their own health, paying attention to health-related issues such as: improving metabolism, preventing cardiovascular diseases, reducing the chance of heart disease and stroke, lowering cholesterol, etc. . Most of the civilized diseases of modern people are related to high blood sugar, high blood pressure or heart rate. In recent years, the combination of medical and technological products has made the medical system gradually intelligent. However, most medical equipment for measuring physiological states are not convenient to carry, so they still The user (patient) must personally go to the hospital for testing. Furthermore, there are blood glucose meters, blood pressure meters, heartbeat detectors, thermometers, or portable physiological detection devices currently on the market, which can be used with professional physicians to provide professional consultation and analysis on the patient's physiological data, or patients can route them through the Internet. The health report provided by the online analysis platform knows the health status of oneself. However, these physiological detection devices must be placed in a fixed place, and the user must go to a fixed place to use the physiological detection device. Due to the inconvenience in use, the willingness of patients to use the physiological detection device is greatly reduced.

此外，目前病患到医院或诊所就诊时需通过社保卡。然而，有时候病患会忘记携带社保卡而造成看病时的不方便。此外，社保卡在就诊的过程中会经过多人直接接触，例如：医生、护理人员、药剂师的手，其容易造成直接接触的病媒传播的风险。由上述可知，目前市场上缺乏一种安全、便利性高、快速且可结合生理检测装置的社保认证系统，故相关业者均在寻求其解决之道。In addition, at present, when patients go to hospitals or clinics, they need to pass social security cards. However, sometimes patients forget to bring their social security cards, which causes inconvenience when seeing a doctor. In addition, the social security card will be directly contacted by many people during the process of seeing a doctor, such as the hands of doctors, nurses, and pharmacists, which may easily cause the risk of vector transmission through direct contact. From the above, it can be seen that there is currently a lack of a safe, convenient, fast social security authentication system that can be combined with a physiological detection device in the market, so relevant businesses are all looking for a solution.

实用新型内容Utility model content

因此，本实用新型的目的在于提供一种具有认证功能的穿戴式装置及其认证系统，其利用穿戴式装置配合感测模块，可将感测的信号通过无线传输至医护站或医护人员的智能型手机上。此外，通过加密晶片结合穿戴式装置可实现社保凭证的应用，在看病时可取代现有社保卡的凭证，而穿戴者无需再携带额外的社保卡，兼具安全性及方便性。再者，在13.56兆赫频段的传输条件下，可实现快速感应以及非接触式传输，不但能缩短传统社保卡读卡机的作业时间以及节省就诊的时间，还可降低因接触所造成病媒传播的风险。Therefore, the purpose of this utility model is to provide a wearable device with authentication function and its authentication system, which uses the wearable device to cooperate with the sensing module, and can transmit the sensed signal to the medical station or the smart phone of the medical staff through wireless transmission. mobile phone. In addition, the combination of encryption chips and wearable devices can realize the application of social security certificates, which can replace the existing social security card certificates when seeing a doctor, and the wearer does not need to carry additional social security cards, which is both safe and convenient. Furthermore, under the transmission conditions of the 13.56 MHz frequency band, fast sensing and non-contact transmission can be realized, which can not only shorten the working time of traditional social security card readers and save the time of visiting a doctor, but also reduce the spread of vectors caused by contact risks of.

本实用新型的一实施方式为一种具有认证功能的穿戴式装置，其用以感应穿戴者的身体状态并传送加密认证信息至读卡机，而加密认证信息包含穿戴者的社保卡数据。此具有认证功能的穿戴式装置包含穿戴式本体、感测模块、处理器、记忆单元、加密晶片、射频模块以及天线。其中感测模块设于穿戴式本体，且感测模块可感测身体状态并输出类比生理信号。处理器也设于穿戴式本体，此处理器信号连接感测模块并接收类比生理信号。处理器将类比生理信号转换成数字生理信号。另外，记忆单元设于穿戴式本体内且信号连接处理器。此记忆单元接收并储存数字生理信号，且记忆单元储存穿戴者的个人信息。而加密晶片设于穿戴式本体，此加密晶片信号连接处理器与记忆单元。加密晶片接收数字生理信号与个人信息，且加密晶片会将数字生理信号与个人信息分别转换成加密数字生理信号与加密个人信息。再者，射频模块设于穿戴式本体，射频模块信号连接加密晶片并接收加密数字生理信号与加密个人信息。射频模块产生载波，并将加密数字生理信号与加密个人信息载于载波上而形成加密认证信息。载波具有传输频率。天线设于穿戴式本体。天线信号连接射频模块并接收加密认证信息，且天线传送加密认证信息至读卡机中。One embodiment of the present invention is a wearable device with an authentication function, which is used to sense the wearer's physical state and transmit encrypted authentication information to a card reader, and the encrypted authentication information includes the wearer's social security card data. The wearable device with authentication function includes a wearable body, a sensing module, a processor, a memory unit, an encryption chip, a radio frequency module and an antenna. The sensing module is arranged on the wearable body, and the sensing module can sense the state of the body and output analog physiological signals. The processor is also located in the wearable body, and the processor signal is connected to the sensing module and receives analog physiological signals. A processor converts the analog physiological signal into a digital physiological signal. In addition, the memory unit is set in the wearable body and connected to the processor for signals. The memory unit receives and stores digital physiological signals, and the memory unit stores personal information of the wearer. The encryption chip is arranged on the wearable body, and the signal of the encryption chip is connected to the processor and the memory unit. The encryption chip receives digital physiological signals and personal information, and the encryption chip converts the digital physiological signals and personal information into encrypted digital physiological signals and encrypted personal information respectively. Furthermore, the radio frequency module is arranged on the wearable body, and the signal of the radio frequency module is connected to the encrypted chip to receive encrypted digital physiological signals and encrypted personal information. The radio frequency module generates a carrier wave, and carries encrypted digital physiological signals and encrypted personal information on the carrier wave to form encrypted authentication information. A carrier has a transmission frequency. The antenna is arranged on the wearable body. The antenna signal is connected to the radio frequency module to receive the encrypted authentication information, and the antenna transmits the encrypted authentication information to the card reader.

借此，本实用新型的具有认证功能的穿戴式装置利用穿戴式装置配合感测模块，可将感测的信号通过无线传输至医护站或医护人员的智能型手机上。另外，通过加密晶片结合穿戴式装置可实现社保凭证的应用，在看病时可取代现有社保卡的凭证，而穿戴者无需再携带额外的社保卡，兼具安全性及方便性。Thereby, the wearable device with authentication function of the present invention utilizes the wearable device to cooperate with the sensing module, and can wirelessly transmit the sensed signal to the medical station or the smart mobile phone of the medical personnel. In addition, the combination of encryption chips and wearable devices can realize the application of social security certificates, which can replace the existing social security card certificates when seeing a doctor, and the wearer does not need to carry additional social security cards, which is both safe and convenient.

依据前述实施方式的其他实施例如下：前述具有认证功能的穿戴式装置可包含显示模块与电源模块，其中显示模块设于穿戴式本体上。此显示模块信号连接处理器并显示数字生理信号与个人信息。而电源模块也设于穿戴式本体内。电源模块提供电能至感测模块、处理器、记忆单元、加密晶片、射频模块以及显示模块运作。此外，前述传输频率可为13.56兆赫。前述感测模块可包含心跳感测器、血压感测器、体温感测器或震动感测器。前述具有认证功能的穿戴式装置可包含第二射频模块，其设于穿戴式本体。第二射频模块信号连接加密晶片并接收加密数字生理信号与加密个人信息。第二射频模块产生第二载波，并将加密数字生理信号与加密个人信息载于第二载波上而形成第二加密认证信息。另外，前述具有认证功能的穿戴式装置可包含第二天线，其设于穿戴式本体。此第二天线信号连接第二射频模块与云端伺服器，且第二天线接收第二加密认证信息并通过WiFi传输、蓝牙传输(Bluetooth)、通用分组无线通信(GPRS)、第三代移动通信(3G)或第四代移动通信(4G)传送第二加密认证信息至云端伺服器。Other examples according to the aforementioned embodiments are as follows: the aforementioned wearable device with authentication function may include a display module and a power module, wherein the display module is disposed on the wearable body. The display module is signal-connected to the processor and displays digital physiological signals and personal information. The power module is also located in the wearable body. The power module provides power to the sensing module, processor, memory unit, encryption chip, radio frequency module and display module to operate. In addition, the aforementioned transmission frequency may be 13.56 MHz. The aforementioned sensing module may include a heartbeat sensor, a blood pressure sensor, a body temperature sensor or a vibration sensor. The aforementioned wearable device with authentication function may include a second radio frequency module disposed on the wearable body. The second radio frequency module is signal-connected to the encrypted chip and receives encrypted digital physiological signals and encrypted personal information. The second radio frequency module generates a second carrier wave, and carries the encrypted digital physiological signal and the encrypted personal information on the second carrier wave to form second encrypted authentication information. In addition, the aforementioned wearable device with authentication function may include a second antenna disposed on the wearable body. The second antenna signal is connected to the second radio frequency module and the cloud server, and the second antenna receives the second encrypted authentication information and transmits it through WiFi, Bluetooth transmission (Bluetooth), general packet radio communication (GPRS), third generation mobile communication ( 3G) or fourth generation mobile communication (4G) to send the second encrypted authentication information to the cloud server.

本实用新型的另一实施方式为一种具有认证功能的穿戴式装置的认证系统，用以感应穿戴者的身体状态。此具有认证功能的穿戴式装置的认证系统包含穿戴式本体、感测模块、处理器、记忆单元、加密晶片、射频模块、天线、读卡机以及云端伺服器。其中感测模块设于穿戴式本体，且感测模块可感测身体状态并输出类比生理信号。处理器也设于穿戴式本体，此处理器信号连接感测模块并接收类比生理信号。处理器将类比生理信号转换成数字生理信号。另外，记忆单元设于穿戴式本体内且信号连接处理器。此记忆单元接收并储存数字生理信号，且记忆单元储存穿戴者的个人信息。认证信息包含数字生理信号与个人信息。而加密晶片设于穿戴式本体，此加密晶片信号连接处理器与记忆单元。加密晶片接收数字生理信号与个人信息，且加密晶片会将数字生理信号与个人信息分别转换成加密数字生理信号与加密个人信息。再者，射频模块设于穿戴式本体，射频模块信号连接加密晶片并接收加密数字生理信号与加密个人信息。射频模块产生载波，并将加密数字生理信号与加密个人信息载于载波上而形成加密认证信息。载波具有传输频率。天线设于穿戴式本体。天线信号连接射频模块并接收加密认证信息，且天线传送加密认证信息至读卡机中。此外，读卡机无线信号连接天线并接收加密认证信息，且读卡机通过无线传输方式传送输出加密认证信息。而云端伺服器则信号连接读卡机，云端伺服器接收并储存加密认证信息，且此云端伺服器解密并核对加密认证信息而产生认证结果。Another embodiment of the present invention is an authentication system of a wearable device with an authentication function, which is used to sense the physical state of the wearer. The authentication system of the wearable device with authentication function includes a wearable body, a sensing module, a processor, a memory unit, an encryption chip, a radio frequency module, an antenna, a card reader and a cloud server. The sensing module is arranged on the wearable body, and the sensing module can sense the state of the body and output analog physiological signals. The processor is also located in the wearable body, and the processor signal is connected to the sensing module and receives analog physiological signals. A processor converts the analog physiological signal into a digital physiological signal. In addition, the memory unit is set in the wearable body and connected to the processor for signals. The memory unit receives and stores digital physiological signals, and the memory unit stores personal information of the wearer. Authentication information includes digital physiological signals and personal information. The encryption chip is arranged on the wearable body, and the signal of the encryption chip is connected to the processor and the memory unit. The encryption chip receives digital physiological signals and personal information, and the encryption chip converts the digital physiological signals and personal information into encrypted digital physiological signals and encrypted personal information respectively. Furthermore, the radio frequency module is arranged on the wearable body, and the signal of the radio frequency module is connected to the encrypted chip to receive encrypted digital physiological signals and encrypted personal information. The radio frequency module generates a carrier wave, and carries encrypted digital physiological signals and encrypted personal information on the carrier wave to form encrypted authentication information. A carrier has a transmission frequency. The antenna is arranged on the wearable body. The antenna signal is connected to the radio frequency module and receives the encrypted authentication information, and the antenna transmits the encrypted authentication information to the card reader. In addition, the wireless signal of the card reader is connected to the antenna and receives the encrypted authentication information, and the card reader transmits and outputs the encrypted authentication information through wireless transmission. The cloud server is signal-connected to the card reader, the cloud server receives and stores the encrypted authentication information, and the cloud server decrypts and checks the encrypted authentication information to generate an authentication result.

借此，本实用新型的具有认证功能的穿戴式装置的认证系统是利用穿戴式装置配合感测模块，可将感测的信号通过无线传输至医护站或医护人员的智能型手机上。此外，通过加密晶片结合穿戴式装置可实现社保凭证的应用，在看病时可取代现有社保卡的凭证，而穿戴者无需再携带额外的社保卡，兼具安全性及方便性。再者，在13.56兆赫频段的传输条件下，可实现快速感应以及非接触式传输，不但能缩短传统社保卡读卡机的作业时间，还可降低因接触所造成的病媒传播风险。In this way, the authentication system of the wearable device with authentication function of the present invention uses the wearable device to cooperate with the sensing module, and can transmit the sensed signal to the medical station or the smart phone of the medical staff through wireless transmission. In addition, the combination of encryption chips and wearable devices can realize the application of social security certificates, which can replace the existing social security card certificates when seeing a doctor, and the wearer does not need to carry additional social security cards, which is both safe and convenient. Furthermore, under the transmission conditions of the 13.56 MHz frequency band, fast sensing and non-contact transmission can be realized, which can not only shorten the working time of traditional social security card readers, but also reduce the risk of vector transmission caused by contact.

依据前述实施方式的其他实施例如下：在前述的认证系统中，当云端伺服器的解密机制对应加密晶片的加密机制时，认证结果为正确；反之，当云端伺服器的解密机制非对应加密晶片的加密机制时，认证结果为错误。前述传输频率可为13.56兆赫。前述感测模块可包含心跳感测器、血压感测器、体温感测器或震动感测器。此外，前述具有认证功能的穿戴式装置的认证系统可包含第二射频模块，其设于穿戴式本体。此第二射频模块信号连接加密晶片并接收加密数字生理信号与加密个人信息。第二射频模块会产生第二载波，并将加密数字生理信号与加密个人信息载于第二载波上而形成第二加密认证信息。再者，前述具有认证功能的穿戴式装置的认证系统可包含第二天线，其设于穿戴式本体。此第二天线信号连接第二射频模块与云端伺服器，且第二天线接收第二加密认证信息并通过WiFi传输、蓝牙传输(Bluetooth)、通用分组无线通信(GPRS)、第三代移动通信(3G)或第四代移动通信(4G)传送第二加密认证信息至云端伺服器。Other examples according to the above-mentioned embodiment are as follows: in the above-mentioned authentication system, when the decryption mechanism of the cloud server corresponds to the encryption mechanism of the encryption chip, the authentication result is correct; otherwise, when the decryption mechanism of the cloud server does not correspond to the encryption chip When using the encryption mechanism, the authentication result is an error. The aforementioned transmission frequency may be 13.56 MHz. The aforementioned sensing module may include a heartbeat sensor, a blood pressure sensor, a body temperature sensor or a vibration sensor. In addition, the aforementioned authentication system of the wearable device with authentication function may include a second radio frequency module disposed on the wearable body. The second radio frequency module is signally connected to the encrypted chip and receives encrypted digital physiological signals and encrypted personal information. The second radio frequency module generates a second carrier wave, and carries the encrypted digital physiological signal and the encrypted personal information on the second carrier wave to form second encrypted authentication information. Furthermore, the aforementioned authentication system of the wearable device with authentication function may include a second antenna disposed on the wearable body. The second antenna signal is connected to the second radio frequency module and the cloud server, and the second antenna receives the second encrypted authentication information and transmits it through WiFi, Bluetooth transmission (Bluetooth), general packet radio communication (GPRS), third generation mobile communication ( 3G) or fourth generation mobile communication (4G) to send the second encrypted authentication information to the cloud server.

与现有技术相比，本实用新型具有如下有益效果：本实用新型的具有认证功能的穿戴式装置及其认证系统，其利用穿戴式装置配合感测模块，可将感测的信号通过无线传输至医护站或医护人员的智能型手机上。此外，通过加密晶片结合穿戴式装置可实现社保凭证的应用，在看病时可取代现有社保卡的凭证，而穿戴者无需再携带额外的社保卡，兼具安全性及方便性。再者，在13.56兆赫频段的传输条件下，可实现快速感应以及非接触式传输，不但能缩短传统社保卡读卡机的作业时间以及节省就诊的时间，还可降低因接触所造成病媒传播的风险。Compared with the prior art, the utility model has the following beneficial effects: the wearable device with authentication function and its authentication system of the utility model can use the wearable device to cooperate with the sensing module, and the sensed signal can be transmitted wirelessly to the health care station or the smart phone of the medical staff. In addition, the combination of encryption chips and wearable devices can realize the application of social security certificates, which can replace the existing social security card certificates when seeing a doctor, and the wearer does not need to carry additional social security cards, which is both safe and convenient. Furthermore, under the transmission conditions of the 13.56 MHz frequency band, fast sensing and non-contact transmission can be realized, which can not only shorten the working time of traditional social security card readers and save the time of visiting a doctor, but also reduce the spread of vectors caused by contact risks of.

附图说明Description of drawings

图1绘示本实用新型的一实施例的具有认证功能的穿戴式装置的方块图。FIG. 1 is a block diagram of a wearable device with an authentication function according to an embodiment of the present invention.

图2绘示本实用新型的另一实施例的具有认证功能的穿戴式装置的方块图。FIG. 2 is a block diagram of a wearable device with an authentication function according to another embodiment of the present invention.

图3绘示图1的具有认证功能的穿戴式装置应用于社保认证系统的示意图。FIG. 3 is a schematic diagram of the application of the wearable device with authentication function in FIG. 1 in a social security authentication system.

图4绘示图2的具有认证功能的穿戴式装置应用于社保认证系统的示意图。FIG. 4 is a schematic diagram of the application of the wearable device with authentication function in FIG. 2 to a social security authentication system.

具体实施方式detailed description

以下将参照图式说明本实用新型的多个实施例。为明确说明起见，许多实务上的细节将在以下叙述中一并说明。然而，应了解到，这些实务上的细节不应用以限制本实用新型。也就是说，在本实用新型部分实施例中，这些实务上的细节是非必要的。此外，为简化图式起见，一些现有惯用的结构与元件在图式中将以简单示意的方式绘示；并且重复的元件将可能使用相同的编号表示。Several embodiments of the present utility model will be described below with reference to the drawings. For the sake of clarity, many practical details are included in the following narrative. However, it should be understood that these practical details should not be used to limit the invention. That is to say, in some embodiments of the present invention, these practical details are unnecessary. In addition, for the sake of simplifying the drawings, some existing conventional structures and elements will be shown in a simple schematic manner in the drawings; and repeated elements may be denoted by the same numbers.

图1绘示本实用新型的一实施例的具有认证功能的穿戴式装置100的方块图。此具有认证功能的穿戴式装置100用以感应穿戴者的身体状态并传送加密认证信息至读卡机(未示于图中)。而且此具有认证功能的穿戴式装置100包含穿戴式本体110、感测模块120、处理器130、记忆单元140、加密晶片150、射频模块160、天线170、显示模块180以及电源模块190。FIG. 1 is a block diagram of a wearable device 100 with an authentication function according to an embodiment of the present invention. The wearable device 100 with authentication function is used to sense the wearer's physical state and transmit encrypted authentication information to a card reader (not shown in the figure). Moreover, the wearable device 100 with authentication function includes a wearable body 110 , a sensing module 120 , a processor 130 , a memory unit 140 , an encryption chip 150 , a radio frequency module 160 , an antenna 170 , a display module 180 and a power module 190 .

穿戴式本体110可为手表、腰环、手环、项链、戒指或眼镜。本实施例的穿戴式本体110为手表，其穿着于穿戴者的手腕上，可以取代现有社保卡内的凭证，让穿戴者无需再携带社保卡即可看病诊疗。The wearable body 110 can be a watch, a waist ring, a bracelet, a necklace, a ring or glasses. The wearable body 110 of this embodiment is a watch, which is worn on the wearer's wrist and can replace the credentials in the existing social security card, allowing the wearer to see a doctor without carrying the social security card.

感测模块120设于穿戴式本体110上，且感测模块120包含心跳感测器、血压感测器、体温感测器或震动感测器，可感测穿戴者的身体状态并输出类比生理信号。详细地说，心跳感测器用以感测心跳；血压感测器用以感测血压；体温感测器用以感测体温；震动感测器用以感测穿戴式本体110震动的大小与次数。通过这些感测器可以感应多种生理信息，以供医生或护理人员分析与判断。The sensing module 120 is arranged on the wearable body 110, and the sensing module 120 includes a heartbeat sensor, a blood pressure sensor, a body temperature sensor or a vibration sensor, which can sense the wearer's physical state and output an analog physiological Signal. Specifically, the heartbeat sensor is used to sense heartbeat; the blood pressure sensor is used to sense blood pressure; the body temperature sensor is used to sense body temperature; the vibration sensor is used to sense the size and frequency of vibration of the wearable body 110 . A variety of physiological information can be sensed by these sensors for analysis and judgment by doctors or nurses.

处理器130设于穿戴式本体110之内，此处理器130信号连接感测模块120并接收类比生理信号。处理器130可将类比生理信号转换成数字生理信号，以供后端的模块作信号处理。The processor 130 is disposed in the wearable body 110 , and the processor 130 is signally connected to the sensing module 120 and receives analog physiological signals. The processor 130 can convert the analog physiological signal into a digital physiological signal for signal processing by back-end modules.

记忆单元140设于穿戴式本体110内且信号连接处理器130。此记忆单元140接收并储存数字生理信号，且记忆单元140储存穿戴者的个人信息。借由记忆单元140储存重要的数字生理信号、个人信息以及加密晶片150所需的金钥，可以让社保凭证顺利地完成。The memory unit 140 is disposed in the wearable body 110 and is signally connected to the processor 130 . The memory unit 140 receives and stores digital physiological signals, and the memory unit 140 stores personal information of the wearer. By means of the memory unit 140 storing important digital physiological signals, personal information and keys required for encrypting the chip 150, the social security certificate can be successfully completed.

加密晶片150也设于穿戴式本体110内，且加密晶片150信号连接处理器130与记忆单元140。加密晶片150接收数字生理信号与个人信息，且加密晶片150会将数字生理信号与个人信息分别转换成加密数字生理信号与加密个人信息。本实施例通过加密晶片150让信息与信号在传输上更加安全，可大幅降低被有心人士窃取后盗用或泄漏社保数据及个人信息的风险。The encryption chip 150 is also disposed in the wearable body 110 , and the encryption chip 150 is signally connected to the processor 130 and the memory unit 140 . The encryption chip 150 receives digital physiological signals and personal information, and the encryption chip 150 converts the digital physiological signals and personal information into encrypted digital physiological signals and encrypted personal information, respectively. In this embodiment, the encryption chip 150 is used to make the transmission of information and signals more secure, which can greatly reduce the risk of misappropriating or leaking social security data and personal information after being stolen by interested parties.

射频模块160设于穿戴式本体110之内，射频模块160信号连接加密晶片150并接收加密数字生理信号与加密个人信息。此外，射频模块160产生载波，并将加密数字生理信号与加密个人信息载于载波上而形成加密认证信息。其中载波具有传输频率，本实施例的传输频率为13.56兆赫，换句话说，其符合近距离无线通信(Near Field Communication；NFC)的频段。通过NFC的快速感应以及非接触式传输，不但可以缩短传统社保卡读卡机的作业时间，还可降低因接触所造成的病媒传播的风险。The radio frequency module 160 is disposed inside the wearable body 110 , and the radio frequency module 160 is signally connected to the encryption chip 150 to receive encrypted digital physiological signals and encrypted personal information. In addition, the radio frequency module 160 generates a carrier wave, and carries the encrypted digital physiological signal and the encrypted personal information on the carrier wave to form encrypted authentication information. The carrier has a transmission frequency, and the transmission frequency in this embodiment is 13.56 MHz, in other words, it conforms to the frequency band of Near Field Communication (NFC). The fast sensing and non-contact transmission of NFC can not only shorten the working time of traditional social security card readers, but also reduce the risk of vector transmission caused by contact.

天线170设于穿戴式本体110，且天线170信号连接射频模块160并接收加密认证信息。天线170可完整地传送加密认证信息至读卡机310中，而且其运作频段也为13.56兆赫。本实施例的天线170与射频模块160相互匹配，能够传送稳定的射频信号至读卡机310。The antenna 170 is disposed on the wearable body 110 , and the antenna 170 is connected to the radio frequency module 160 to receive encrypted authentication information. The antenna 170 can completely transmit encrypted authentication information to the card reader 310 , and its operating frequency band is also 13.56 MHz. The antenna 170 and the radio frequency module 160 of this embodiment match each other, and can transmit a stable radio frequency signal to the card reader 310 .

显示模块180设于穿戴式本体110上，此显示模块180信号连接处理器130与记忆单元140，并显示数字生理信号与个人信息。在本实施例中，显示模块180对应手表的荧光屏，通过荧光屏的显示，可以让穿戴者了解目前自己的身体状态。The display module 180 is disposed on the wearable body 110 , and the display module 180 is signally connected to the processor 130 and the memory unit 140 , and displays digital physiological signals and personal information. In this embodiment, the display module 180 corresponds to the fluorescent screen of the watch, and the wearer can know his current physical state through the display of the fluorescent screen.

电源模块190也设于穿戴式本体110内。电源模块190提供电能至感测模块120、处理器130、记忆单元140、加密晶片150、射频模块160以及显示模块180运作。至于电源模块190的内部电路结构为现有技术，故不再赘述。The power module 190 is also disposed in the wearable body 110 . The power module 190 provides power to the sensing module 120 , the processor 130 , the memory unit 140 , the encryption chip 150 , the radio frequency module 160 and the display module 180 to operate. As for the internal circuit structure of the power module 190 is the prior art, so it will not be repeated.

图2绘示本实用新型的另一实施例的具有认证功能的穿戴式装置200的方块图。如图所示，此具有认证功能的穿戴式装置200用以感应穿戴者的身体状态，其可通过两种方式传送加密的认证信息，其中一种方式是通过天线270传送加密的认证信息，此方式会先将加密的认证信息传送至读卡机310，然后再通过无线传输方式传送至云端伺服器320；而另一种方式则是直接通过无线传输方式将加密的认证信息传送至云端伺服器320。再者，此具有认证功能的穿戴式装置200包含穿戴式本体210、感测模块220、处理器230、记忆单元240、加密晶片250、射频模块260、天线270、第二射频模块260a、第二天线270a、显示模块280以及电源模块290。FIG. 2 is a block diagram of a wearable device 200 with an authentication function according to another embodiment of the present invention. As shown in the figure, the wearable device 200 with authentication function is used to sense the wearer's physical state, and it can transmit encrypted authentication information in two ways, one of which is to transmit encrypted authentication information through the antenna 270, and this In one method, the encrypted authentication information is first transmitted to the card reader 310, and then transmitted to the cloud server 320 through wireless transmission; and the other method is to directly transmit the encrypted authentication information to the cloud server through wireless transmission. 320. Furthermore, the wearable device 200 with authentication function includes a wearable body 210, a sensing module 220, a processor 230, a memory unit 240, an encryption chip 250, a radio frequency module 260, an antenna 270, a second radio frequency module 260a, a second Antenna 270a, display module 280 and power module 290.

配合参阅图1，图2实施方式中，穿戴式本体210、感测模块220、处理器230、记忆单元240、加密晶片250、射频模块260、天线270、显示模块280及电源模块290分别与图1中的穿戴式本体110、感测模块120、处理器130、记忆单元140、加密晶片150、射频模块160、天线170、显示模块180及电源模块190的方块相同，不再赘述。特别的是，图2实施例的具有认证功能的穿戴式装置200还包含第二射频模块260a与第二天线270a。其中第二射频模块260a设于穿戴式本体210内。第二射频模块260a信号连接加密晶片250并接收加密数字生理信号与加密个人信息。第二射频模块260a会产生第二载波，并将加密数字生理信号与加密个人信息载于第二载波上而形成第二加密认证信息。此外，第二天线270a设于穿戴式本体210。此第二天线270a信号连接第二射频模块260a与云端伺服器320，且第二天线270a接收第二加密认证信息并通过WiFi传输、蓝牙传输(Bluetooth)、通用分组无线通信(GPRS)、第三代移动通信(3G)或第四代移动通信(4G)传送第二加密认证信息至云端伺服器320。借此，本实用新型提供一种具有认证功能的穿戴式装置200，其利用穿戴式装置配合感测模块220，可将感测的生理信号通过无线传输方式传送至云端伺服器320上，或者将感测的生理信号通过NFC传送至读卡机310中，进而让医生或护理人员可以读取生理信号，以进一步诊断穿戴者的身体状态。Referring to FIG. 1, in the embodiment of FIG. 2, the wearable body 210, the sensing module 220, the processor 230, the memory unit 240, the encryption chip 250, the radio frequency module 260, the antenna 270, the display module 280 and the power supply module 290 are respectively the same as those shown in FIG. The blocks of the wearable body 110 , sensing module 120 , processor 130 , memory unit 140 , encryption chip 150 , radio frequency module 160 , antenna 170 , display module 180 and power supply module 190 in 1 are the same and will not be repeated here. In particular, the wearable device 200 with authentication function in the embodiment of FIG. 2 further includes a second radio frequency module 260a and a second antenna 270a. Wherein the second radio frequency module 260a is disposed in the wearable body 210 . The second radio frequency module 260a is signally connected to the encryption chip 250 and receives encrypted digital physiological signals and encrypted personal information. The second radio frequency module 260a generates a second carrier wave, and carries the encrypted digital physiological signal and the encrypted personal information on the second carrier wave to form second encrypted authentication information. In addition, the second antenna 270a is disposed on the wearable body 210 . The second antenna 270a signal is connected to the second radio frequency module 260a and the cloud server 320, and the second antenna 270a receives the second encrypted authentication information and transmits it through WiFi, Bluetooth transmission (Bluetooth), general packet radio communication (GPRS), third The first-generation mobile communication (3G) or fourth-generation mobile communication (4G) transmits the second encrypted authentication information to the cloud server 320 . Thus, the present invention provides a wearable device 200 with an authentication function, which uses the wearable device to cooperate with the sensing module 220, and can transmit the sensed physiological signal to the cloud server 320 through wireless transmission, or send the The sensed physiological signals are transmitted to the card reader 310 through NFC, so that doctors or nurses can read the physiological signals to further diagnose the wearer's physical state.

请一并参阅图1与图3，图3则绘示图1的具有认证功能的穿戴式装置100应用于社保认证系统的示意图。如图所示，此具有认证功能的穿戴式装置的认证系统300包含具有认证功能的穿戴式装置100、读卡机310、云端伺服器320以及医护站330。Please refer to FIG. 1 and FIG. 3 together. FIG. 3 shows a schematic diagram of the application of the wearable device 100 with authentication function in FIG. 1 in a social security authentication system. As shown in the figure, the authentication system 300 for a wearable device with an authentication function includes a wearable device with an authentication function 100 , a card reader 310 , a cloud server 320 and a medical station 330 .

读卡机310无线信号连接天线170并通过13.56兆赫的NFC传输方式接收加密认证信息，而且读卡机310通过无线传输方式传送输出加密认证信息。其中无线传输方式为WiFi传输、Bluetooth传输、GPRS传输、3G传输或4G传输。此外，云端伺服器320则信号连接读卡机310与医护站330。云端伺服器320接收并储存加密认证信息，且此云端伺服器320解密并核对加密认证信息而产生认证结果。当云端伺服器320的解密机制对应加密晶片150的加密机制时，认证结果为正确；反之，当云端伺服器320的解密机制非对应加密晶片150的加密机制时，则认证结果为错误。换句话说，云端伺服器320的解密机制必须将加密认证信息完整且正确地解密，才能得到正确的认证结果。借此，本实用新型的具有认证功能的穿戴式装置的认证系统300利用感测模块120配合具有认证功能的穿戴式装置100，可将感测到的生理信号通过无线传输方式或读卡机310传送至云端伺服器320上。此外，云端伺服器320的解密机制可完整且正确地解密加密认证信息而得到正确的认证结果，而且医生或护理人员可以借由医护站330或智能型手机通过无线传输方式到云端伺服器320读取穿戴者的生理信号，以进一步诊断穿戴者的身体状态是否正常。The card reader 310 is wirelessly connected to the antenna 170 and receives the encrypted authentication information through the 13.56 MHz NFC transmission mode, and the card reader 310 transmits and outputs the encrypted authentication information through the wireless transmission mode. The wireless transmission mode is WiFi transmission, Bluetooth transmission, GPRS transmission, 3G transmission or 4G transmission. In addition, the cloud server 320 is signal-connected to the card reader 310 and the medical station 330 . The cloud server 320 receives and stores the encrypted authentication information, and the cloud server 320 decrypts and checks the encrypted authentication information to generate an authentication result. When the decryption mechanism of the cloud server 320 corresponds to the encryption mechanism of the encryption chip 150 , the authentication result is correct; otherwise, when the decryption mechanism of the cloud server 320 does not correspond to the encryption mechanism of the encryption chip 150 , the authentication result is wrong. In other words, the decryption mechanism of the cloud server 320 must completely and correctly decrypt the encrypted authentication information in order to obtain a correct authentication result. In this way, the authentication system 300 of the wearable device with authentication function of the present invention uses the sensing module 120 to cooperate with the wearable device 100 with authentication function, and can transmit the sensed physiological signal through wireless transmission or card reader 310 Send to the cloud server 320. In addition, the decryption mechanism of the cloud server 320 can completely and correctly decrypt the encrypted authentication information to obtain the correct authentication result, and doctors or nurses can use the medical station 330 or smart phones to read the encrypted information to the cloud server 320 through wireless transmission. Take the wearer's physiological signals to further diagnose whether the wearer's physical condition is normal.

请一并参阅图2与图4，图4则绘示图2的具有认证功能的穿戴式装置200应用于社保认证系统的示意图。如图所示，此具有认证功能的穿戴式装置的认证系统300a包含具有认证功能的穿戴式装置200、读卡机310、云端伺服器320以及医护站330。Please refer to FIG. 2 and FIG. 4 together. FIG. 4 shows a schematic diagram of the application of the wearable device 200 with authentication function in FIG. 2 in a social security authentication system. As shown in the figure, the authentication system 300a of the wearable device with authentication function includes the wearable device with authentication function 200 , the card reader 310 , the cloud server 320 and the medical station 330 .

配合参阅图3，图4实施方式中，读卡机310、云端伺服器320及医护站330均与图3中对应的方块相同，不再赘述。特别的是，图4的具有认证功能的穿戴式装置200可利用双通道传输生理信号，其中一个通道为13.56兆赫的NFC传输方式，另一个通道为其他无线传输方式，例如：WiFi传输、Bluetooth传输、GPRS传输、3G传输或4G传输，此双通道传输可大幅地增加穿戴者的便利性。Referring to FIG. 3 , in the embodiment shown in FIG. 4 , the card reader 310 , the cloud server 320 and the medical station 330 are all the same as the corresponding blocks in FIG. 3 , and will not be repeated here. In particular, the wearable device 200 with authentication function shown in FIG. 4 can use two channels to transmit physiological signals, one of which is the 13.56 MHz NFC transmission mode, and the other channel is other wireless transmission modes, such as WiFi transmission and Bluetooth transmission. , GPRS transmission, 3G transmission or 4G transmission, this dual-channel transmission can greatly increase the convenience of the wearer.

另外值得一提的是，图1、图2的天线170、270可接收来自读卡机310的认证回应信号，而且图1、图2的射频模块160、260包含第一放大器、自动增益控制回路、锁相回路、控制单元、标签单元以及第二放大器。其中第一放大器信号连接天线170、270，第一放大器放大来自天线170、270的认证回应信号。自动增益控制回路信号连接第一放大器，并通过回授方式使第一放大器稳定放大认证回应信号而形成放大认证回应信号。再者，锁相回路信号连接第一放大器，并接收放大认证回应信号以及致能信号，且此锁相回路会产生载波以及锁相时脉。控制单元则信号连接第一放大器与锁相回路。此控制单元接收放大认证回应信号、载波以及锁相时脉，并侦测负载阻抗的变化。控制单元根据负载阻抗的变化产生致能信号。另外，标签单元信号连接控制单元，其用以储存标签信息。控制单元传送认证回应信号至标签单元，并提供锁相时脉做为标签单元的驱动时脉。而标签单元还会根据标签信息以变化负载阻抗，且控制单元会根据负载阻抗的变化切换驱动时脉。至于第二放大器则信号连接控制单元及天线170、270，此第二放大器用以放大加密认证信息并将放大加密认证信息传送至天线170、270，然后通过天线170、270传送加密认证信息至读卡机310中。借此，通过射频模块160、260的电路运作结合加密晶片150、250的加密机制，使穿戴者的社保卡数据与个人信息得以安全地传输，同时提升看病诊疗的品质并有效地节省就诊的时间。It is also worth mentioning that the antennas 170 and 270 in Fig. 1 and Fig. 2 can receive the authentication response signal from the card reader 310, and the radio frequency modules 160 and 260 in Fig. 1 and Fig. 2 include a first amplifier, an automatic gain control loop , a phase-locked loop, a control unit, a label unit and a second amplifier. The first amplifier signal is connected to the antenna 170, 270, and the first amplifier amplifies the authentication response signal from the antenna 170, 270. The automatic gain control loop signal is connected to the first amplifier, and the first amplifier is stably amplified by the feedback mode to form an amplified authentication response signal. Furthermore, the phase-locked loop signal is connected to the first amplifier, and receives the amplified authentication response signal and the enabling signal, and the phase-locked loop generates a carrier wave and a phase-locked clock. The control unit is signal-connected to the first amplifier and the phase-locked loop. The control unit receives the amplified authentication response signal, the carrier wave and the phase-locked clock, and detects the change of the load impedance. The control unit generates an enable signal according to the change of the load impedance. In addition, the tag unit is signally connected to the control unit for storing tag information. The control unit transmits an authentication response signal to the tag unit, and provides a phase-locked clock as a drive clock of the tag unit. The tag unit will also change the load impedance according to the tag information, and the control unit will switch the driving clock according to the change of the load impedance. As for the second amplifier, the signal is connected to the control unit and the antenna 170, 270. The second amplifier is used to amplify the encrypted authentication information and transmit the amplified encrypted authentication information to the antenna 170, 270, and then transmit the encrypted authentication information to the reader through the antenna 170, 270. In the card machine 310. In this way, through the circuit operation of the radio frequency module 160, 260 combined with the encryption mechanism of the encryption chip 150, 250, the wearer's social security card data and personal information can be safely transmitted, while improving the quality of medical treatment and effectively saving time for medical treatment .

由上述实施方式可知，本实用新型具有下列优点：其一，利用穿戴式装置结合感测模块，可即时将感测的生理信号通过无线传输方式传送给医护人员。其二，通过加密晶片结合穿戴式装置可实现社保凭证的应用，在看病时可取代现有社保卡的凭证，且穿戴者无需再携带额外的社保卡，兼具安全性及方便性。其三，在NFC频段的传输条件下，可实现快速感应以及非接触式传输，不但能缩短传统社保卡读卡机的作业时间以及节省就诊的时间，还可降低因接触所造成病媒传播的风险。It can be known from the above embodiments that the present invention has the following advantages: First, the sensed physiological signal can be transmitted to the medical personnel in real time through wireless transmission by using the wearable device combined with the sensing module. Second, the combination of encryption chips and wearable devices can realize the application of social security certificates, which can replace the existing social security card certificates when seeing a doctor, and the wearer does not need to carry additional social security cards, which is both safe and convenient. Third, under the transmission conditions of the NFC frequency band, it can realize fast sensing and non-contact transmission, which can not only shorten the working time of traditional social security card readers and save the time of visiting a doctor, but also reduce the risk of vector transmission caused by contact. risk.

虽然本实用新型已经以实施方式公开如上，然其并非用以限定本实用新型，任何本领域技术人员，在不脱离本实用新型的精神和范围内，当可作各种变动与润饰，因此本实用新型的保护范围当视权利要求所界定者为准。Although the present utility model has been disclosed as above in terms of implementation, it is not intended to limit the present utility model. Any person skilled in the art may make various changes and modifications without departing from the spirit and scope of the present utility model. Therefore, this The scope of protection of a utility model shall depend on what is defined in the claims.