TWM497321U - Portable health measuring management system with wireless pairing - Google Patents

Description

Portable health measurement management system with wireless pairing

This creative department is related to health management. In more detail, it refers to a portable health measurement management system with wireless pairing.

Among the top ten causes of death in China, chronic diseases such as cerebrovascular diseases, heart diseases, diabetes, chronic liver diseases and liver cirrhosis, kidney diseases, and hypertension diseases account for the majority. Early detection of early treatment has become a preventive medicine for chronic diseases. Important work, however, the modern social environment and economic pressure make the people ignore regular health checkups and self-care. The symptoms of the early stages of chronic diseases are not obvious, and often until the body appears abnormally different, they rush to the hospital for medical treatment and cannot achieve preventive medicine. purpose.

In response to the above problems, many medical personnel will set up some simple physiological measuring devices in remote towns and villages, schools at all levels, community groups and even medical institutions to facilitate the measurement of the population, and these basic physiological measurement data are judged by individuals. Important data on health status to achieve preventive medicine.

However, under the concept of preventive medicine, how to transmit physiological measurement information to a specific unit for collection and analysis is a development trend of preventive medicine and health care and a problem to be solved.

The main purpose of this creation is to provide a portable health measurement management system that utilizes the identification device and physiological measurement of the subject. Wireless pairing is provided, and the subject can be physiologically measured and returned to the cloud for collection or analysis by a specific unit.

A health measurement management system provided by the present invention comprises: one or more identification devices, each comprising: an identification unit and an identification wireless module; the identification unit has at least one identification module; The identification unit and the identification wireless module can transmit information; the multi-quantity measuring device comprises: a front-end measurement wireless module and an electronic tag, wherein the electronic tag records the device identification code of the measuring device and The front end measures a communication protocol of the wireless module; the identification unit can obtain the device identification code and the communication protocol recorded by the electronic tag of the measuring device, so that the identification device and the measuring device are paired and wirelessly connected.

Thereby, after the identification of the subject is completed by the system and the identification device is paired with a measuring device, the subject can be physiologically measured, and the measured value is transmitted through the measuring device. Transfer to the backend device to manage the physiological information of the subject.

A health measurement management system provided by the present invention includes: one or more identification devices, each of the identification devices includes: an identification unit and an identification wireless module; the identification unit has at least one identification module a group; the identification unit and the identification wireless module can transmit information; the multi-quantity measurement device, each of the measurement devices is configured with a front-end measurement wireless transmitter, the front-end measurement wireless transmitter includes an electronic tag, Recording the device identification code of the measuring device and the communication protocol of the wireless transmitter, the identifying unit may obtain the device identification code and the communication protocol recorded by the electronic tag of the front-end measuring wireless transmitter, so that the identifying device and the The measuring device completes the pairing and wireless connection.

Preferably, the identification unit is provided with a radio frequency identification reading module and a crystal Slice reading module.

The health measurement management system provided by this creation can be used and moved in various occasions to improve the use level of physiological testing.

10‧‧‧Health Measurement Management System

20‧‧‧ Identification equipment

21‧‧‧Processing unit

22‧‧‧ Identifying unit

24‧‧‧identification wireless module

26‧‧‧Display unit

28‧‧‧Input/output unit

29‧‧‧Power Module

30 (30a to 30g) ‧‧‧Measurement equipment

31‧‧‧Connectors

35‧‧‧ front-end measurement wireless transmitter

351‧‧‧ plug

33‧‧‧ front-end measurement wireless module

34, 34’, 34” ‧ ‧ electronic label

40‧‧‧ Back-end equipment

42‧‧‧ First Backend Wireless Module

44‧‧‧Second backend wireless module

50‧‧‧Mobile equipment

52‧‧‧Mobile wireless module

In order to enable your review board to further understand the purpose, characteristics and effectiveness of the creation, here are three preferred embodiments of the creation, with detailed explanations in the following:

The first figure is a system diagram of the first preferred embodiment of the present creation.

The second figure is an architectural block diagram of the identification device of the first preferred embodiment of the present invention.

The third figure is a system diagram of a second preferred embodiment of the present creation.

The fourth drawing is a system diagram of a third preferred embodiment of the present creation.

The fifth figure is a schematic diagram of the connection of the measuring device and the front-end measuring wireless transmitter of the third preferred embodiment of the present invention.

Please refer to the first and second figures, which are the first preferred embodiment of the wireless pairing portable health measurement management system 10 provided by the present invention, which comprises: one or more identification devices 20 and multi-quantity measurement Device 30, the author uses the identification device to measure the radio frequency identification pairing with the measurement device, thereby achieving the purpose of managing the health measurement of the subject. Preferably, the plurality of identification devices 20 are used in conjunction with the plurality of measurement devices 30.

Each of the identification devices 20 is a card reader in this embodiment, and can read information such as a health card or a personal identification card with a built-in chip, such as a health card or a student ID card. , which includes: a processing order The identification unit 22 includes two identification modules: a radio frequency identification (RFID) reading module and a chip reading module. The radio frequency reading module can obtain the identity information of the user by using the RFID technology; inserting the identity card with the chip into the slot (not shown) of the identification device 20 can be obtained through the chip reading module. Identity information. In addition, the radio frequency frequency reading module of the unit is also used for pairing with the measuring equipment (described below). An identity recognition (nRF) wireless module 24 is a two-way (transceived) 2.4G nRF wireless module that can wirelessly transmit user identity information; a display unit 26 is an electronic device. Display screen or liquid crystal display (LCD, LED), can display information or values, such as the identity of the user; an input/output unit 28, which can be a button to control various functions of the identification device 20; a power module 29 The power required by the identification device 20 is provided; the modules and units are connected to the processing unit 21 to perform related operations.

The multi-quantity measuring device 30, for example, three sphygmomanometer devices 30a, 30b, 30c, three blood glucose meter devices 30d, 30e, 30f and a weight device 30g, etc., may also measure the pulse, blood oxygen, etc. Various measuring equipment. The measuring device 30 can perform various physiological measurements on the subject and generate measurement data. In the present specification, the component symbol 30 is a collective symbol of the measuring device, and the component symbols 30a to 30g are symbols of a specific measuring device. Each measurement device 30 has a front end measurement (nRF) wireless module 33 and an electronic tag 34 built therein. The front-end measurement wireless module is a 2.4G nRF wireless module in the embodiment, and can be wirelessly transmitted; the electronic tag 34 is a wireless radio frequency tag (RFID tag) in the embodiment, and the measurement device is recorded. Device information, such as a device identification code (ID No. of the device), the device identification code is a unique number and/or device information of the matching measurement device 30 for identifying a specific measurement device, such as Electronic label of 1 sphygmomanometer device 30a The identification code of the sphygmomanometer 30a is recorded in 34. The electronic tag 34 also records the communication protocol of the measurement wireless module 33.

The measurement management system provided by the present invention is used in conjunction with a back-end device 40 of a back-end platform, such as a Gateway or Set-Top-Box or a wireless device. A transmitted wearable device, such as a sports bracelet. The backend device 40 has a first backend (nRF) wireless module (eg, a 2.4G nRF wireless module) 42 that enables the backend device 40 to receive and manage the identity information and measurements of the subject from the measurement device. Information and further transfer of data to the cloud. The back end platform is, for example, a customer, a framework, a database, a storage medium, a hardware device, or a driver that can initiate a certain function. The network system may be a network platform set up by a specific institution, such as a medical institution, a health management company, a sports and leisure center, a community, a school, a public institution, or an enterprise, for collecting and managing measurement information; The backend device can further have a second backend (BLE/WiFi) wireless module 44 (such as a Bluetooth 4.0 wireless module or a WiFi wireless module) for use with a mobile device 50, such as a smart device. Mobile phone or tablet, the mobile device has a mobile wireless module 52 (such as Bluetooth 4.0 wireless module / 3G or 4G wireless module / WiFi wireless module). After the first backend (nRF) wireless module 42 transmits the measurement data to the cloud, the mobile device 50 can receive the measurement data from the cloud. Alternatively, the mobile device 50 receives the identity information and measurement data of the subject from the backend device 40 through the second backend (BLE/WiFi) wireless module 44, so that the subject can view and understand his or her physiology. situation.

The state of use of the present invention will be described below. If the user wants to measure blood pressure, one measurement can be selected by the first to third sphygmomanometer devices 30a, 30b, and 30c. For example, if the subject wants to measure the blood pressure by the first sphygmomanometer device 30a, the identification must be performed before the measurement and the identification device is paired with a measuring device. When pairing, the identification unit 22 of the identification device 20 senses the first station by wireless radio frequency technology. The electronic tag 34 of the sphygmomanometer device 30a is configured to acquire the device identification code of the sphygmomanometer 30a and the communication protocol of the wireless module 33 at the front end of the sphygmomanometer, and the communication protocol is transmitted to the identity wireless via the identification unit 22. The module 24 is configured such that the identification wireless module 24 of the sphygmomanometer 30a and the measurement wireless module 33 have the same or the same communication protocol, and the identification device 20 and the sphygmomanometer 30a directly complete the wireless connection, and the The identification device 20 also obtains the device identification code of the sphygmomanometer 30a and completes pairing with the sphygmomanometer 30a.

When the identity is identified, the identity card (RFID or chip) of the subject is read, and the identity information of the subject is read by the radio frequency reading module or the chip card reading module of the identification unit 22, and The identification wireless module 24 of the identification device 20 transmits the identity information to the front end of the sphygmomanometer 30a to measure the wireless module 33.

After the identification and the pairing between the devices 20, 30a are completed, the subject measures the blood pressure by the sphygmomanometer 30a, and the measured physiological value is transmitted to the measurement wireless module 33 via the internal circuit.

The front-end measurement wireless module 33 receives the identity information and the measured value of the test subject, and then transmits the information to the first back-end wireless module 42 of the back-end device 40, so that the back-end device 40 obtains the measured The physiological measurement information allows the back-end platform or receiver to collect such information and can be further analyzed and managed. The received identity and measurement information can be transmitted to the cloud by the first backend wireless module 42 so that other platforms can obtain the test information of the test subject. Using this creation, the identity information and physiological information of the subjects are combined and will not be confused. When the backend device 40 is a wireless wearable device, the detected information can also be received and displayed.

If the subject himself wants to view, record, and count his or her own physiological condition to set a health goal, the second back-end wireless module 44 of the back-end device 40 and the mobile wireless module 52 of the mobile device 50 may also be used. Connect, transfer information to The mobile device 50 can be stored in the mobile device, so that the testee can understand the physiological condition of the mobile device 50 and formulate a health management plan; after the test subject obtains the measured information, The mobile wireless module 52 of the mobile device 50 is then uploaded to the cloud for evaluation and analysis by a specific unit.

If the specific identification device 20 and the specific measurement device 30 are in a paired state, if the pairing relationship between the devices is not changed, that is, if the next subject is still paired with the identification device 20 and the first one The sphygmomanometer device 30a measures blood pressure. At this time, it is not necessary to re-pair, and only after the identification device 20 completes the identification, the sphygmomanometer 30a can be directly used for measurement to obtain the identity of the second subject. Information and physiological testing information. When the identification device 20 is to be paired with another measurement device 30, it is necessary to re-read the electronic tags of the other measurement device 30 for pairing to complete the new pairing.

The first back-end wireless module 42 of the back-end device 40 can simultaneously receive data transmitted by the plurality of measurement devices at the front end of the measurement wireless module 33, and can be used by multiple people simultaneously using different measurement devices 30. The purpose of physiological measurement is not to transmit data at the same time, but the data transmission delay or wait.

Referring to the third embodiment, the wireless matching portable health measurement management system 10 is used in the second preferred embodiment of the present invention. The same components are denoted by the same reference numerals and will not be described again.

In this embodiment, each of the measurement devices 30 also has a front-end measurement wireless module 33 and an RFID tag 34'. The front-end measurement wireless module 33 is built in the measurement device 30. The electronic tag 34' is externally attached to the measuring device 30, for example, to the outer casing of the measuring device 30.

The manner of use of this embodiment can be referred to as shown in the first preferred embodiment, and details are not described herein. The electronic tag 34' can be used by the identification unit 22 of the identification device 20 to sense the device identification code of the measurement device and the communication protocol of the front-end measurement wireless module 33. The identification wireless module 24 of the identification device has the same communication protocol as the measurement wireless module 33 to complete the pairing and wireless connection of the identification device 20 and the measurement device 30. The identity information of the subject transmits the identity information to the measurement wireless transmission module 33 through the identity wireless module 24 of the identification device 20. After the measurement is completed, the measured physiological value of the subject is transmitted to the backend device 40 via the front-end measurement wireless module 33. The physiological information of the subject can be further uploaded to the cloud or connected mobile device 50 for the subject to view to see if there is any change in the physiological condition.

Please refer to the fourth and fifth figures, which are the third preferred embodiment of the wireless pairing portable health measurement management system 10 provided by the present invention, and the same components follow the same symbols.

This embodiment also has a multi-quantity measuring device 30, each measuring device 30 has a connector 31, and is provided with a dedicated and pluggable front-end measurement (nRF) wireless transmitter 35, which is implemented in the present embodiment. For example, the 2.4G nRF Dongle can provide wireless transmission, and has an electronic tag 34" built therein, and records the device identification code of the measuring device and the communication protocol of the transmitter 35. The front end measurement wireless transmitter 35 One end has a plug 351, and the plug 351 is inserted into the connector 31 of the associated measuring device 30. After the plugging, the transmitter 35 and the measuring device 30 are transmitted by using a non-synchronous transmission (UART) interface. The data is transmitted to the front end measurement wireless transmitter 35.

Each measurement device 30 of this embodiment is plugged into a dedicated front-end measurement wireless transmitter 35. For the measurement, using the first sphygmomanometer device 30a as an example, the identification unit 22 of the identification device 20 senses the device identification code recorded by the electronic tag 34" and the communication protocol of the transmitter, thereby identifying the identity thereof. The wireless module 24 obtains the communication protocol of the wireless transmitter 35, and the wireless module 24 directly completes the wireless connection with the front-end measurement wireless transmitter 35, and the identification device 20 completes pairing with the sphygmomanometer 30a.

After the identification of the identification and the sphygmomanometer is completed, the identity information of the subject is transmitted to the front-end measurement wireless transmitter 35 through the identification wireless module 24 of the identification device 20, and the sphygmomanometer 30a performs the measurement. The measured physiological values are transmitted to the front end measurement wireless transmitter 35. The wireless transmitter 35 receives the identity information and the measured value of the subject, and then wirelessly transmits the information to the first backend wireless module 42 of the backend device 40, so that the backend device 40 receives and manages the physiological information of the subject. And can upload related information to the cloud or to the mobile device 50.

The creation of the health measurement management system can be applied to various occasions and environments, such as collective health check, which is for the elderly or high-risk rickets, through the basic physiological test data, can monitor its health, and will The data is transmitted to the medical staff in the cloud to determine or monitor the physiological state of the subject, and to achieve the purpose of preventive medicine.

This creation can also be applied to community health checks, community care functions, and regular physiological measurements in rehabilitation and fitness settings. Taking the community as an example, physiological measurement is performed on the community, and the identification device 20 is used to identify the identity of the subject. The first backend wireless module 42 of the backend device 40 is a multiplexed module. The measuring devices 30 simultaneously measure the majority of the subjects to speed up the overall measurement speed; the school's health room, medical institution, and company can also use the creation to measure most of the objects at the same time, for each The object measures the physiological value and immediately transmits it to the backend platform. The identification device and measuring device of the creation are movable, and the convenience of measurement is improved, and the management system of the creation can be conveniently used as long as there is a place in the network. After obtaining the measurement data, it can be used for health management of regular testing and analysis. The specific institution knows the physiological condition of the subject, and can immediately judge whether the physiological state of the subject is within the safe range or beyond the normal range. If further examination is required, then go to the medical institution for further testing. People who do not need a boat trip to and from the hospital can enjoy simple regular health checks and improve the effectiveness of preventive medicine.

The above examples are merely illustrative of the present invention and are not limiting. For example, the mobile device can also transmit data to the backend device through the first backend wireless module. In the third preferred embodiment, the electronic tag can be externally attached to the front end measurement wireless transmitter. The health measurement management system provided by this creation can easily complete the daily management of users, regular tracking and even the health measurement management of medical services. It is the first technology in this technology field and has the practical effect. , 提出 apply in accordance with the law.

10‧‧‧Health Measurement Management System

20‧‧‧ Identification equipment

22‧‧‧ Identifying unit

24‧‧‧identification wireless module

30 (30a to 30g) ‧‧‧Measurement equipment

33‧‧‧ front-end measurement wireless module

34‧‧‧Electronic label

40‧‧‧ Back-end equipment

42‧‧‧ First Backend Wireless Module

44‧‧‧Second backend wireless module

50‧‧‧Mobile equipment

52‧‧‧Mobile wireless module

Claims (12)

A portable health measurement management system with wireless pairing includes: one or more identification devices, each of the identification devices includes: an identification unit and an identification wireless module; the identification unit has at least one identity The identification module; the identification unit and the identification wireless module can transmit information; the multi-quantity measurement device, each measurement device comprises: a front-end measurement wireless module and an electronic label, the electronic label is recorded The device identification code of the measuring device and the communication protocol of the front-end measuring wireless module; the identifying unit can obtain the device identification code and the communication protocol recorded by the electronic tag of the measuring device, so that the identifying device and the measuring device The device is paired and wirelessly connected. The health measurement management system of claim 1, wherein the electronic tag is an electronic tag for radio frequency identification; the identification unit comprises a radio frequency identification reading module, and the electronic tag is wirelessly sensed. The health measurement management system of claim 1 or 2, wherein the front-end measurement wireless module and the electronic tag are built in each of the measurement devices. The health measurement management system of claim 1 or 2, wherein the front-end measurement wireless module is built in the measurement device; the electronic tag is externally connected to the measurement device. A portable health measurement management system with wireless pairing includes: one or more identification devices, each of the identification devices includes: an identification unit and an identification wireless module; the identification unit has at least one identity The identification module; the identification unit and the identification wireless module can transmit information; the multi-quantity measurement device, each of the measurement devices is configured with a front-end measurement wireless transmitter, the front-end measurement wireless transmitter includes an electronic Label, record this amount The device identification code of the measuring device and the communication protocol of the front-end measuring wireless transmitter, the identifying unit can obtain the device identification code and the communication protocol recorded by the electronic tag of the front-end measuring wireless transmitter, so that the identifying device and the quantity The test equipment completes the pairing and wireless connection. The health measurement management system of claim 5, wherein: the front-end measurement wireless transmitter has a plug; each of the measurement devices has a connector; the front-end measurement wireless transmitter of the plug is The connector of the measuring device is plugged and unplugged. The health measurement management system of 2, 5 or 6, wherein the identification unit is provided with a radio frequency reading module and a wafer reading module. 2. The health measurement management system of 2, 5 or 6, wherein: the identification device has a processing unit; the identification unit and the identification wireless module are connected to the processing unit. The health measurement management system of 2, 5 or 6, wherein: further comprising: a back-end device having a first back-end wireless module for data transmission with the front-end measurement wireless module. The health measurement management system of claim 9, further comprising: a mobile device, having a mobile wireless module, and wirelessly connecting to the backend device. The health measurement management system of claim 10, wherein the backend device further comprises: a second backend wireless module; the backend device is the second backend wireless module and the mobile device Connected. The health measurement management system of claim 5 or 6, wherein: the front-end measurement wireless transmitter is an nRF Dongle-type wireless transmitter; the electronic label is built in or externally connected to the front-end measurement wireless transmitter.