TWM539910U - Biological characteristics integration apparatus - Google Patents

Abstract

This creation discloses a biological characteristics integration apparatus which is used to resolve a problem of the conventional apparatus incapable to sense multiple biological characteristics simultaneous. The biological characteristics integration apparatus comprises a biological sensing module, a human mechanical interface, a communication unit and a control unit. The biological sensing module has a plurality of sensing ends used to sense a plurality of biological signals. The human mechanical interface is used to input or output data. The communication unit is used to generate signals of specific communication specifications. The controller is electrically connected to the biological sensing module, the human mechanical interface and the communication unit, and the controller outputs a biological integration information to the human mechanical interface and the communication unit based on the biological signals. Thus, it can actually resolve said problem.

Description

Physiological feature integration device

The present invention relates to a physiological characteristic sensor, and more particularly to a physiological feature integrating device that can integrate a plurality of physiological features into a network.

Physiological sensing technology has developed rapidly, and sensing devices capable of measuring physiological characteristics such as electrocardiogram, blood oxygen concentration, body temperature, respiration, blood sugar, and blood pressure have been developed.

However, the conventional physiological characteristic sensing device can usually measure only a single physiological feature, and the test subject needs to use different sensing devices one by one to obtain different physiological characteristics, and it is difficult to obtain a plurality of physiological features at the same time for comprehensive interpretation by medical professionals.

Moreover, conventional physiological feature sensing devices can only directly display or print measurement results, and cannot automatically store different sensing data in the cloud, which does not meet the needs of future cloud Internet of Things health care.

In view of this, it is necessary to improve the shortcomings of the above prior art to meet the actual needs and improve its safety and practicability.

This creation provides a physiological feature integration device that integrates multiple physiological features into a network.

The present invention discloses a physiological feature integration device, which may include: a physiological sensing module having a plurality of sensing terminals for sensing a plurality of physiological signals; a human machine interface for inputting or outputting data; and a communication unit, a signal for generating a specific communication specification; and a control unit electrically connecting the physiological sensing module, the human machine interface and the communication unit, the control unit is based on The plurality of physiological signals output a physiological integration information to the human machine interface and the communication unit.

The plurality of sensing ends may include at least one cardiac sensing patch, an integrated temperature patch, a respiratory sensor, a blood oxygen concentration sensor, a blood glucose sensor, and a blood pressure sensor; The unit can be a microcontroller or a digital signal processor; the human interface can be a touch screen; the communication unit can be a wireless signal transceiver or a wired signal transceiver; the wireless signal transceiver It can be a Bluetooth communication module or a Wi-Fi communication module; the wired signal transceiver can be a universal asynchronous transceiver. Thereby, a plurality of physiological signals such as electrocardiogram, body temperature, respiration, blood oxygen concentration, blood sugar and blood pressure of the test subject can be synchronously sensed, for the control unit to generate a physiological integration information, and then the physiological integration information is stored in the The cloud database, display or print, for reference by specific healthcare professionals.

The physiological feature integration device can simultaneously sense the plurality of physiological signals and form the physiological integration information, and then output the physiological integration information to the cloud database or the output unit, which meets the requirements of the future cloud Internet of Things health care. It can achieve the effect of "automatic integration of physiological characteristics", and can be further promoted to homes or medical care and other places, improve the health of the whole people, reduce medical expenses, and create a win-win situation for the government, manufacturers and the public.

1‧‧‧Physiological sensing module

11‧‧‧Sense end

2‧‧‧Human Machine Interface

3‧‧‧Communication unit

4‧‧‧Control unit

C‧‧‧Cloud Database

Fig. 1 is a functional block diagram of an embodiment of the present invention.

In order to make the above and other objects, features and advantages of the present invention more comprehensible, the embodiments of the present invention are described in detail below with reference to the accompanying drawings. For example, "before", "after", "left", "right", "upper (top)", "lower", "inside", "outside", "side", etc., mainly refer to additional drawings The directions and directional terms are only used to assist in the description and understanding of the various embodiments of the present invention and are not intended to limit the present invention.

The "coupled connection" as used in the context of the present invention refers to the communication between two devices via a conductive medium electrical connection or wireless communication technology, but not limited thereto, which is a common knowledge in the technical field to which the present invention belongs. Can understand.

Please refer to FIG. 1 , which is a functional block diagram of an embodiment of the present invention. The physiological feature integration device can include a physiological sensing module 1, a human interface 2, a communication unit 3, and a control unit 4. The control unit 4 can electrically connect the physiological sensing module 1 and the human interface. 2 and communication unit 3 for integrating various physiological features and displaying and networking storage. The following is an example of the embodiment of the physiological feature integration device, but is not limited thereto.

As shown in FIG. 1 , the physiological sensing module 1 can be a device having a plurality of physiological characteristic measuring functions. For example, the physiological sensing module 1 can be provided with a plurality of sensing ends 11 , such as: at least one heart. Inductance test patch, integrated temperature patch, a respiratory sensor, a blood oxygen concentration sensor (such as infrared sensor), a blood glucose sensor (such as blood glucose probe) and a blood pressure sensor (such as pressure Pulse band), etc., to sense several physiological signals, such as: human or animal ECG, body temperature, respiration, blood oxygen concentration, blood sugar and blood pressure, etc., but not limited to this.

Please refer to FIG. 1 again, the human interface 2 can be a device with data input/output function, such as a tablet computer with a touch screen or a smart phone, which can instantly display the physiological integration information. Alternatively, the user can set operating parameters and the like. In addition, the communication unit 3 can be a specific communication format signal transceiver, and the communication unit 3 can be a wireless signal transceiver or a wired signal transceiver, such as a Bluetooth communication module, a Wi-Fi communication module, or a universal device. A non-synchronous transceiver (UART) or the like is used to generate a signal of a specific communication specification. The communication unit 3 can also be coupled to a cloud database C for storing data.

Please refer to FIG. 1 again, the control unit 4 can be a module with signal generation and data processing functions, such as a microcontroller (MCU) or a digital signal processor (DSP), etc., and the control unit 4 can be executed. a control logic (such as: software program or hardware circuit, etc.), based on the number The physiological signal outputs a physiological integration information to the communication unit, for example, according to different sensing sampling time, the different physiological signals are edited into the physiological integration information, but not limited thereto.

When the above embodiment is used, the sensing terminals 11 of the physiological sensing module 1 can be used, such as: a heart-sensing patch, a body temperature patch, a respiratory sensor, a blood oxygen concentration sensor, and blood sugar. The sensor and the blood pressure sensor are simultaneously used on a person to be tested, and the electrocardiogram, body temperature, respiration, blood oxygen concentration, blood sugar and blood pressure of the test subject are synchronously sensed, and the above characteristics can be simultaneously generated. a plurality of physiological signals for the control unit 4 to output the physiological integration information to the human machine interface 2 and the communication unit 3 according to the plurality of physiological sensing signals, to display the physiological integration information for reference by the field personnel, and at the same time, The signal of the specific communication specification is generated, and the physiological integration information is stored in the cloud database C, and is used by a specific medical professional as a reference for comprehensively interpreting the physiological state of the test subject, so as to correctly correct the physiological state of the test subject.

Therefore, the above embodiments of the present invention can simultaneously sense the plurality of physiological signals and form the physiological integration information, and then output the physiological integration information to the cloud database or the output unit, which is in line with the future cloud Internet of Things health care. The demand can achieve the effect of "automatic integration of physiological characteristics", which can be further extended to homes or medical care and other places, improve the health of the whole people, reduce medical expenses, and create a win-win situation for the government, manufacturers and the public.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and it is still within the spirit and scope of the present invention to make various changes and modifications to the above embodiments. The technical scope of protection, therefore, the scope of protection of this creation is subject to the definition of the scope of the patent application attached.

1‧‧‧Physiological sensing module

11‧‧‧Sense end

2‧‧‧Human Machine Interface

3‧‧‧Communication unit

4‧‧‧Control unit

C‧‧‧Cloud Database

Claims (8)

A physiological characteristic integrating device comprises: a physiological sensing module, wherein a plurality of sensing ends are provided for sensing a plurality of physiological signals; a human machine interface is used for inputting or outputting data; and a communication unit is used for generating a a signal of a specific communication specification; and a control unit electrically connecting the physiological sensing module, the human machine interface and the communication unit, and the control unit outputs a physiological integration information to the human machine interface according to the plurality of physiological signals and to the Communication unit. The physiological characteristic integration device according to claim 1, wherein the plurality of sensing ends comprise at least one cardiac inductance measuring patch, an integrated temperature patch, a respiratory sensor, a blood oxygen concentration sensor, and a Blood glucose sensor and a blood pressure sensor. The physiological characteristic integration device according to claim 1, wherein the communication unit is coupled to a cloud database. The physiological feature integration device according to claim 1, wherein the human interface is a touch screen or a tablet computer. The physiological characteristic integration device according to claim 1, wherein the control unit is a microcontroller or a digital signal processor. The physiological characteristic integration device according to claim 1, wherein the communication unit is a wireless signal transceiver or a wired signal transceiver. The physiological characteristic integration device according to claim 7, wherein the wireless signal transceiver is a Bluetooth communication module or a Wi-Fi communication module. The physiological characteristic integration device according to claim 7, wherein the wired signal transceiver is a universal asynchronous transceiver.