TWM514305U - Physiological monitoring device - Google Patents

Description

Physiological monitoring equipment

The present invention relates to a monitoring device, and more particularly to a physiological monitoring device.

In institutions or homes that provide medical services and health care, it is often necessary for people to perform physiological monitoring of patients. However, this process needs to be manually recorded, resulting in a waste of manpower.

It is obvious that the above existing mechanisms still have inconveniences and defects, and need to be further improved. In order to solve the above problems, the relevant fields have not exhausted their efforts to seek solutions, but the methods that have not been applied for a long time have been developed. Therefore, how to provide a new hardware architecture to improve the current situation is one of the current important research and development topics, and it has become an urgent target for improvement in related fields.

One aspect of the present invention is to provide a physiological monitoring device to solve the bottleneck of the prior art.

The physiological monitoring device provided by the present invention includes a physiological measuring device, a network device and a server. Physiological measurement device supports Bluetooth low power consumption A standard first Bluetooth transmission device having a second Bluetooth transmission device supporting a Bluetooth low energy specification and a Wi-Fi transmission device, the second Bluetooth transmission device wirelessly connecting the first Bluetooth transmission device, and the server is connected to the local area network Connect to a wireless access point and wirelessly connect to a Wi-Fi transmission via a wireless access point.

In one embodiment, the wireless access point wirelessly connects to a Wi-Fi transceiver within the mobile device.

In an embodiment, the first Bluetooth transmission device wirelessly connects to the Bluetooth transceiver within the mobile device.

In an embodiment, the physiological measuring device further has a processor and a physiological data measuring device, and the processor is electrically connected to the physiological data measuring device and the first Bluetooth transmitting device.

In one embodiment, the physiological data measuring device is a blood pressure measuring device, a blood glucose measuring device, a blood oxygen measuring device, a uric acid measuring device, a heart rate measuring device, a body temperature measuring device, a drip weight measuring device or the like. Physiologically related measuring device.

In an embodiment, the network device further has a processing component, and the processing component is electrically connected to the second Bluetooth transmission device and the Wi-Fi transmission device.

In an embodiment, the first Bluetooth transmission device and the second Bluetooth transmission device both have a Bluetooth antenna.

In one embodiment, the server is a care information system.

In summary, the technical solution of the present invention has obvious advantages and beneficial effects compared with the prior art. With the above technical solution, considerable technological progress can be achieved, and the industrial use value is widely used. The physiological measuring device is equipped with a first Bluetooth transmission device and the like, and provides a second Bluetooth transmission device and A hardware network device such as a Wi-Fi transmission device Automatically monitor and save power wirelessly to report data, eliminating manual recording and saving human resources.

The above description will be described in detail in the following embodiments, and further explanation of the technical solutions of the present invention will be provided.

The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood.

100‧‧‧Physiological measuring device

110‧‧‧ device body

120‧‧‧physiological data meter

130‧‧‧Processor

140‧‧‧First Bluetooth transmission device

142‧‧‧Bluetooth antenna

190‧‧‧Power switch

200‧‧‧ mobile device

210‧‧‧Bluetooth Transceiver

212‧‧‧Bluetooth antenna

220‧‧‧Wi-Fi transceiver

222‧‧‧Wi-Fi antenna

300‧‧‧Network devices

310‧‧‧Second Bluetooth transmission device

312‧‧‧Bluetooth antenna

320‧‧‧Processing components

330‧‧‧Wi-Fi transmission device

332‧‧ Wi-Fi antenna

500‧‧‧Wireless access point

510‧‧‧Local Network

520‧‧‧Server

BLE‧‧‧Bluetooth low-power wireless transmission

Wi-Fi‧‧‧IEEE 802.11 compliant wireless transmission

The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood. The description of the accompanying drawings is as follows. FIG. 1 is a diagram showing the hardware structure of a physiological monitoring device according to an embodiment of the present invention. .

In order to make the description of the present invention more detailed and complete, reference is made to the accompanying drawings and the various embodiments described below, but the embodiments provided are not intended to limit the scope of the present invention, and the description of structural operation is not used. In order to limit the order in which they are performed, any device that is re-combined by components, resulting in equal functionality, is covered by the novel. In addition, the same numerals in the drawings represent the same or similar elements, and the drawings are for the purpose of illustration only and are not drawn in the original size. On the other hand, well-known elements and steps are not described in the embodiments to avoid unnecessarily limiting the present invention.

In the scope of the embodiments and patent applications, unless the context specifically dictates the articles, "a" and "the" may mean a single or plural.

In the scope of the embodiments and claims, the description of "electrical connection" refers to a component that is indirectly electrically connected to another component through other components, or a component that is directly electrically connected to another component without passing through other components. One component.

In the scope of the embodiments and claims, the terms "first" and "second" are used herein to distinguish the same elements, but the advantages and disadvantages of these elements are not limited by such terms. For example, a first element could be termed a second element; similarly, a second element could also be termed a first element without departing from the embodiments of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing the hardware structure of a physiological monitoring device according to an embodiment of the present invention. As shown in FIG. 1, the physiological monitoring device includes a physiological measuring device 100, a network device 300, and a server 520. The physiological measurement device 100 has a first Bluetooth transmission device 140 supporting Bluetooth Low Energy, the first Bluetooth transmission device 140 has a Bluetooth antenna 142; correspondingly, the network device 300 has a Bluetooth low energy specification The second Bluetooth transmission device 310 and the Wi-Fi transmission device 330 also have a Bluetooth antenna 312.

The first Bluetooth transmission device 140 of the physiological measurement device 100 wirelessly connects to the second Bluetooth transmission device 310 of the network device 300 for Bluetooth low energy wireless transmission (BLE), so that the physiological measurement device 100 can wirelessly save power. The transmission of physiological data is beneficial for long-term monitoring.

Network device 300 also has a processing component 320 (e.g., an MCU). Structurally, the processing component 320 is electrically coupled to the second Bluetooth transmission device 310 and the Wi-Fi transmission device 330. When in use, processing component 320 Converting the Bluetooth signal received by the second Bluetooth transmission device 310 into a wireless signal sent by the Wi-Fi transmission device 330 to perform IEEE 802.11-compliant wireless transmission (Wi-Fi), and the server 520 transmits the wireless network via the regional network 510. The wireless access point 500 is connected to the wireless access point 500, and the wireless access point 500 is wirelessly connected to the Wi-Fi transmission device 330, so that the server 520 can receive the physiological data measured by the physiological measurement device 100 through the network device 300. The value-added application is performed by the server 520. On the other hand, the command of the server 520 can also be transmitted to the physiological measuring device 100 through the network device 300, thereby implementing networked medical management.

In one embodiment, the Bluetooth transceiver 210 within the mobile device 200 wirelessly connects to the first Bluetooth transmission device 140 of the physiological measurement device 100. The Bluetooth transceiver 210 has a Bluetooth antenna 212 and supports Bluetooth low energy specifications. The application of the mobile device 200 can systematically set the physiological measurement device 100 via the Bluetooth transceiver 210 in a Bluetooth transmission protocol.

In one embodiment, the Wi-Fi transceiver 220 in the mobile device 200 wirelessly connects to the wireless access point 500. The wireless access point 500 is connected to the server 520 via the regional network 510. The Wi-Fi transceiver 220 has Wi. -Fi antenna 222 and conforms to the IEEE 802.11 standard. The application of the mobile device 200 can receive the data and instructions of the server 520 through the Wi-Fi transceiver 220.

In FIG. 1, the physiological measurement device 100 further has a processor 130 (eg, an MCU) and a physiological data measurer 120. Structurally, the processor 130 is electrically coupled to the physiological data meter 120 and the first Bluetooth transmission device 140. For example, the physiological data meter 120 is a blood pressure measuring device, a blood glucose measuring device, a blood oxygen measuring device, a uric acid measuring device, a heart rate measuring device, a body temperature measuring device, a drip weight measuring device or other physiological Related gauges. In operation, physiological data meter 120 The physiological data of the patient (eg, blood pressure, blood sugar, blood oxygen, uric acid, heartbeat, body temperature, etc.) can be measured, and then the processor 130 causes the first Bluetooth transmission device 140 to transmit the physiological data to the network in a power-saving manner. The second Bluetooth transmission device 310 of the device 300, the network device 300 performs wireless signal conversion, and then transfers the physiological data to the server 520 through the wireless access point 500. Alternatively, the mobile device 200 of the caregiver or caregiver may directly receive the physiological data from the first Bluetooth transmission device 140 of the physiological measurement device 100, so that the caregiver or the caregiver knows the condition of the patient, and the necessary processing can be performed immediately.

The physiological measurement device 100 can also include a power switch 190. Structurally, the power switch 190 is disposed on the device body 110.

In use, the operator can turn on or off the physiological measuring device 100 by the power switch 190, and after the physiological measuring device 100 is turned on, the physiological data measurement and Bluetooth transmission can be performed.

It should be understood that although the first figure only shows a single physiological measuring device 100, the present invention is not limited thereto. In practice, the number of the physiological measuring devices 100 may be plural. The plurality of physiological measurement devices 100 can operate at the same time, and the measured physiological data is transmitted to the network device 300 via the Bluetooth communication protocol via the first Bluetooth transmission device 140, and the network device 300 receives the second Bluetooth transmission device 310. The data is transmitted to the server 520 via the wireless network via the Wi-Fi transmission device 330, and the value-added application is performed by the server 520.

The server 520 can transmit the physiological measurement data and the added notification and alarm information to the mobile device 200 via the wireless access point 500. The server 520 can also transmit the control command through the wireless network through the wireless access point 500. Transmitted to the Wi-Fi transmission device 330 of the network device 300, and then by the network The second Bluetooth transmission device 310 of the device 300 transmits the instructions of the server 520 to the physiological measurement device 100 via the Bluetooth transmission protocol.

The application of the mobile device 200 can receive the message of the server 520 via the wireless network via its Wi-Fi transceiver 220, or transmit the command and information to the server 520 via the wireless network via the Wi-Fi transceiver 220. The application of the mobile device 200 can also be directly connected to the first Bluetooth transmission device 140 of the physiological measurement device 100 through its Bluetooth transceiver 210, thereby performing physiological measurement device related settings.

The novel physiological monitoring device 100 is mainly applied to medical service and health care institutions (such as: medical centers, general hospitals, specialist hospitals, nursing homes, nursing homes, elderly care centers, clinics, ambulance centers, medical organizations, etc.) ), or widely used in various environments (such as: home). In an embodiment, the server 520 in the physiological monitoring device 100 can be a nursing information system, thereby implementing the application of the nursing service in the computer.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any one skilled in the art can make various changes and retouchings without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application.

100‧‧‧Physiological measuring device

110‧‧‧ device body

120‧‧‧physiological data meter

130‧‧‧Processor

140‧‧‧First Bluetooth transmission device

142, 212, 312‧‧‧ Bluetooth antenna

190‧‧‧Power switch

200‧‧‧ mobile device

210‧‧‧Bluetooth Transceiver

220‧‧‧Wi-Fi transceiver

222‧‧‧Wi-Fi antenna

300‧‧‧Network devices

310‧‧‧Second Bluetooth transmission device

320‧‧‧Processing components

330‧‧‧Wi-Fi transmission device

332‧‧ Wi-Fi antenna

500‧‧‧Wireless access point

510‧‧‧Local Network

520‧‧‧Server

BLE‧‧‧Bluetooth low-power wireless transmission

Wi-Fi‧‧‧IEEE 802.11 compliant wireless transmission

Claims (8)

A physiological monitoring device includes: a physiological measuring device having a first Bluetooth transmitting device supporting a Bluetooth low energy specification; a network device having a second Bluetooth transmitting device supporting a Bluetooth low energy specification and a Wi a Fi transmission device, wherein the second Bluetooth transmission device is wirelessly connected to the first Bluetooth transmission device; and a server is connected to a wireless access point via a regional network and wirelessly connected through the wireless access point Wi-Fi transmission device. The physiological monitoring device of claim 1, wherein the wireless access point is wirelessly connected to a Wi-Fi transceiver within a mobile device. The physiological monitoring device of claim 1, wherein the first Bluetooth transmitting device wirelessly connects to a Bluetooth transceiver in a mobile device. The physiological monitoring device of claim 1, wherein the physiological measuring device further has a processor and a physiological data measuring device, the processor electrically connecting the physiological data measuring device and the first Bluetooth transmitting device. The physiological monitoring device according to claim 4, wherein the physiological data measuring device is a blood pressure measuring device, a blood glucose measuring device, and a blood oxygen measuring device. , a uric acid measuring device, a heart rate measuring device, an integrated temperature measuring device or a drop weight measuring device. The physiological monitoring device of claim 1, wherein the network device further has a processing component, the processing component being electrically connected to the second Bluetooth transmitting device and the Wi-Fi transmitting device. The physiological monitoring device of claim 1, wherein the first Bluetooth transmitting device and the second Bluetooth transmitting device both have a Bluetooth antenna. The physiological monitoring device of claim 1, wherein the server is a nursing information system.